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Staff member

Eduard Torrents Serra

Group Leader
+34 934 034 756
etorrentsibecbarcelona.eu
CV Summary
Eduard Torrents obtained his PhD in microbiology in 2001 from the Science Faculty at the University Autonomous of Barcelona. During this time he spend 20 months at Karolinska Institute in Sweden with the supervision of Prof. Peter Reichard. From 2001 and 2003 he was a researcher at the R&D department at Biokit. S.A, an international company leader in clinical diagnostic reagents belonging to the Werfen group. He then moved in the laboratory of Prof Britt-Marie Sjöberg from the Department of Molecular Biology and Functional Genomics at the Stockholm University in Sweden first as a postdoc and then as a researcher (2004-2007). After his Postdoc he received a Ramon y Cajal tenure-track contract (2007) from the Spanish Ministry of Science to return to Spain at the Institute for Bioengineering of Catalonia (IBEC). In 2012, he obtained a position of Junior Group Leader at the (IBEC). His current research interests focus on the identification of new antimicrobial therapies and unravel the molecular mechanism underlying the transcripcional regulation of bacterial ribonucleotide reductase genes.
Staff member publications

Arevalo-Jaimes, Betsy Veronica, Salinas-Pena, Monica, Ponte, Inmaculada, Jordan, Albert, Roque, Alicia, Torrents, Eduard, (2024). Antimicrobial and antibiofilm activity of human recombinant H1 histones against bacterial infections Msystems ,

Histones possess significant antimicrobial potential, yet their activity against biofilms remains underexplored. Moreover, concerns regarding adverse effects limit their clinical implementation. We investigated the antibacterial efficacy of human recombi nant histone H1 subtypes against Pseudomonas aeruginosa PAO1, both planktonic and in biofilms. After the in vitro tests, toxicity and efficacy were assessed in a P. aeruginosa PAO1 infection model using Galleria mellonella larvae. Histones were also evaluated in combination with ciprofloxacin (Cpx) and gentamicin (Gm). Our results demonstrate antimicrobial activity of all three histones against P. aeruginosa PAO1, with H1.0 and H1.4 showing efficacy at lower concentrations. The bactericidal effect was associated with a mechanism of membrane disruption. In vitro studies using static and dynamic models showed that H1.4 had antibiofilm potential by reducing cell biomass. Neither H1.0 nor H1.4 showed toxicity in G. mellonella larvae, and both increased larvae survival when infected with P. aeruginosa PAO1. Although in vitro synergism was observed between ciprofloxacin and H1.0, no improvement over the antibiotic alone was noted in vivo. Differences in antibacterial and antibiofilm activity were attributed to sequence and structural variations among histone subtypes. Moreover, the efficacy of H1.0 and H1.4 was influenced by the presence and strength of the extracellular matrix. These findings suggest histones hold promise for combating acute and chronic infections caused by pathogens such as P. aeruginosa.

JTD Keywords: Antimicrobial peptide, Antimicrobial peptides, Binding, Biofilm, Galleria mellonella, Host-defense, Peptid, Protein, Proteins, Toxicity, Treatment


Asensio-López, J, Làzaro-Díez, M, Hernández-Cruz, TM, Blanco-Cabra, N, Sorzabal-Bellido, I, Arroyo-Urea, EM, Buetas, E, González-Paredes, A, de Solórzano, CO, Burgui, S, Torrents, E, Monteserin, M, Garmendia, J, (2024). Multimodal evaluation of drug antibacterial activity reveals cinnamaldehyde analog anti-biofilm effects against Haemophilus influenzae Biofilm 7, 100178

Biofilm formation by the pathobiont Haemophilus influenzae is associated with human nasopharynx colonization, otitis media in children, and chronic respiratory infections in adults suffering from chronic respiratory diseases such as chronic obstructive pulmonary disease (COPD). beta-lactam and quinolone antibiotics are commonly used to treat these infections. However, considering the resistance of biofilm-resident bacteria to antibiotic -mediated killing, the use of antibiotics may be insufficient and require being replaced or complemented with novel strategies. Moreover, unlike the standard minimal inhibitory concentration assay used to assess antibacterial activity against planktonic cells, standardization of methods to evaluate anti-biofilm drug activity is limited. In this work, we detail a panel of protocols for systematic analysis of drug antimicrobial effect on bacterial biofilms, customized to evaluate drug effects against H. influenzae biofilms. Testing of two cinnamaldehyde analogs, (E)- trans-2-nonenal and (E)-3-decen-2-one, demonstrated their effectiveness in both H. influenzae inhibition of biofilm formation and eradication or preformed biofilms. Assay complementarity allowed quantifying the dynamics and extent of the inhibitory effects, also observed for ampicillin resistant clinical strains forming biofilms refractory to this antibiotic. Moreover, cinnamaldehyde analog encapsulation into poly(lactic-co-glycolic acid) (PLGA) polymeric nanoparticles allowed drug vehiculization while maintaining efficacy. Overall, we demonstrate the usefulness of cinnamaldehyde analogs against H. influenzae biofilms, present a test panel that can be easily adapted to a wide range of pathogens and drugs, and highlight the benefits of drug nanoencapsulation towards safe controlled release.

JTD Keywords: Anti-biofilm drugs, Antibodies, Biofilm, Cinnamaldehyde-analogs, Haemophilus influenzae, In-vitro, Maturation, Multimodal methods, Nanoformulation


Arevalo-Jaimes, Betsy Veronica, Torrents, Eduard, (2024). Died or Not Dyed: Assessment of Viability and Vitality Dyes on Planktonic Cells and Biofilms from Candida parapsilosis J Fungi (Basel) 10, 209

Viability and vitality assays play a crucial role in assessing the effectiveness of novel therapeutic approaches, with stain-based methods providing speed and objectivity. However, their application in yeast research lacks consensus. This study aimed to assess the performance of four common dyes on C. parapsilosis planktonic cells as well as sessile cells that form well-structured biofilms (treated and not treated with amphotericin B). Viability assessment employed Syto-9 (S9), thiazole orange (TO), and propidium iodide (PI). Metabolic activity was determined using fluorescein diacetate (FDA) and FUN-1. Calcofluor white (CW) served as the cell visualization control. Viability/vitality percentage of treated samples were calculated for each dye from confocal images and compared to crystal violet and PrestoBlue results. Heterogeneity in fluorescence intensity and permeability issues were observed with S9, TO, and FDA in planktonic cells and biofilms. This variability, influenced by cell morphology, resulted in dye-dependent viability/vitality percentages. Notably, PI and FUN-1 exhibited robust C. parapsilosis staining, with FUN-1 vitality results comparable to PrestoBlue. Our finding emphasizes the importance of evaluating dye permeability in yeast species beforehand, incorporating cell visualization controls. An improper dye selection may lead to misinterpreting treatment efficacy.

JTD Keywords: Albicans,quantification,biomass,image,aci, Biofilms,microscopy,imaging,amphotericin b,stain-based methods,yeast staining,fluorescence,live and dea


Blanco-Cabra, Nuria, Alcacer-Almansa, Julia, Admella, Joana, Arevalo-Jaimes, Betsy Veronica, Torrents, Eduard, (2024). Nanomedicine against biofilm infections: A roadmap of challenges and limitations Wiley Interdisciplinary Reviews-Nanomedicine And Nanobiotechnology 16, e1944

Microbial biofilms are complex three-dimensional structures where sessile microbes are embedded in a polymeric extracellular matrix. Their resistance toward the host immune system as well as to a diverse range of antimicrobial treatments poses a serious health and development threat, being in the top 10 global public health threats declared by the World Health Organization. In an effort to combat biofilm-related microbial infections, several strategies have been developed to independently eliminate biofilms or to complement conventional antibiotic therapies. However, their limitations leave room for other treatment alternatives, where the application of nanotechnology to biofilm eradication has gained significant relevance in recent years. Their small size, penetration efficiency, and the design flexibility that they present makes them a promising alternative for biofilm infection treatment, although they also present set-backs. This review aims to describe the main possibilities and limitations of nanomedicine against biofilms, while covering the main aspects of biofilm formation and study, and the current therapies for biofilm treatment. This article is categorized under: Therapeutic Approaches and Drug Discovery > Nanomedicine for Infectious Disease Toxicology and Regulatory Issues in Nanomedicine > Toxicology of Nanomaterials Toxicology and Regulatory Issues in Nanomedicine > Regulatory and Policy Issues in Nanomedicine.

JTD Keywords: Anti-bacterial agents, Anti-infective agents, Antiinfective agent, Antimicrobial, Antimicrobials, Antimicrobials,bacteria,biofilm,infectious diseases,microorganism, Bacteria, Biofilm, Biofilm infections, Biofilms, Complex three dimensional structures, Diseases, Diverse range, Drug-delivery systems,in-vitro,cellular toxicity,nanoparticles,penetration,model,biocompatibility,perspectives,hyperthermia,diagnosi, Extracellular matrices, Global public health, Health risks, Infectious disease, Infectious diseases, Medical nanotechnology, Microbial biofilm, Microorganisms, Nanomedicine, Polymer, Polymers, Regulatory issues, Roadmap


Arevalo-Jaimes, BV, Admella, J, Blanco-Cabra, N, Torrents, E, (2023). Culture media influences Candida parapsilosis growth, susceptibility, and virulence Frontiers In Cellular And Infection Microbiology 13, 1323619

Introduction: Candida parapsilosis, a pathogenic yeast associated with systemic infections, exhibits metabolic adaptability in response to nutrient availability.Methods: We investigated the impact of RPMI glucose supplemented (RPMId), TSB, BHI and YPD media on C. parapsilosis growth, morphology, susceptibility (caspofungin and amphotericin B), and in vivo virulence (Galleria mellonella) in planktonic and biofilm states.Results: High-glucose media favors growth but hinders metabolic activity and filamentation. Media promoting carbohydrate production reduces biofilm susceptibility. Virulence differences between planktonic cells and biofilm suspensions from the same media shows that biofilm-related factors influence infection outcome depending on nutrient availability. Pseudohyphal growth occurred in biofilms under low oxygen and shear stress, but its presence is not exclusively correlated with virulence.Discussion: This study provides valuable insights into the intricate interplay between nutrient availability and C. parapsilosis pathogenicity. It emphasizes the importance of considering pathogen behavior in diverse conditions when designing research protocols and therapeutic strategies.

JTD Keywords: Amphotericin b, Antifungal, Biofilm, Candida, Caspofungin, Galleria mellonella, Pathogenicity, Pseudohyphal growth


Pedraz, L, Torrents, E, (2023). An easy method for quantification of anaerobic and microaerobic gene expression with fluorescent reporter proteins Biotechniques 75, 250-255

Fluorescent proteins, such as green fluorescent proteins, are invaluable tools for detecting and quantifying gene expression in high-throughput reporter gene assays. However, they introduce significant inaccuracies in studies involving microaerobiosis or anaerobiosis, as oxygen is required for the maturation of these proteins' chromophores. In this study, the authors highlight the errors incurred by using fluorescent proteins under limited oxygenation by comparing standard fluorescence-based reporter gene assays to quantitative real-time PCR data in the study of a complex oxygen-regulated gene network. Furthermore, a solution to perform quantification of anaerobic and microaerobic gene expression with fluorescent reporter proteins using a microplate reader with an oxygen control system and applying pulses of full oxygenation before fluorescence measurements is provided.

JTD Keywords: fluorescent proteins, gene expression, gfp, microaerobiosis, promoters, reporter gene assay, transcriptional fusion, Anaerobiosis, Fluorescent proteins, Gene expression, Gfp, Microaerobiosis, Pseudomonas-aeruginosa, Reporter gene assay, Transcriptional fusion


Rubio-Canalejas, A, Pedraz, L, Torrents, E, (2023). ReViTA: A novel in vitro transcription system to study gene regulation New Biotechnology 76, 41-48

ReViTA (Reverse in VitroTranscription Assay) is a novel in vitro transcription-based method to study gene expression under the regulation of specific transcription factors. The ReViTA system uses a plasmid with a control sequence, the promoter region of the studied gene, the transcription factor of interest, and an RNA polymerase saturated with σ70. The main objective of this study was to evaluate the method; thus, as a proof of concept, two different transcription factors were used, a transcriptional inducer, AlgR, and a repressor, LexA, from Pseudomonas aeruginosa. After the promoters were incubated with the transcription factors, the plasmid was transcribed into RNA and reverse transcribed to cDNA. Gene expression was measured using qRTPCR. Using the ReViTA plasmid, transcription induction of 55% was observed when AlgR protein was added and a 27% transcription reduction with the repressor LexA, compared with the samples without transcription factors. The results demonstrated the correct functioning of ReViTA as a novel method to study transcription factors and gene expression. Thus, ReViTA could be a rapid and accessible in vitro method to evaluate genes and regulators of various species.Crown Copyright © 2023. Published by Elsevier B.V. All rights reserved.

JTD Keywords: binding, dna-polymerase-iv, gene expression, in vitro transcription, lexa, rpos, transcription factor, transcriptional regulation, Gene expression, Response sigma-factor, Transcriptional regulation


Campo-Pérez, V, Alcacer-Almansa, J, Julián, E, Torrents, E, (2023). A High-Throughput Microtiter Plate Screening Assay to Quantify and Differentiate Species in Dual-Species Biofilms Microorganisms 11, 2244

Pathogenic bacteria form biofilms during infection, and polymicrobial biofilms are the most frequent manifestation. Biofilm attachment, maturation, and/or antibiotic sensitivity are mainly evaluated with microtiter plate assays, in which bacteria are stained to enable the quantification of the biomass by optical absorbance or fluorescence emission. However, using these methods to distinguish different species in dual-species or polymicrobial biofilms is currently impossible. Colony-forming unit counts from homogenized dual-species biofilms on selective agar medium allow species differentiation but are time-consuming for a high-throughput screening. Thus, reliable, feasible, and fast methods are urgently needed to study the behavior of polymicrobial and dual-species communities. This study shows that Pseudomonas aeruginosa and Burkholderia cenocepacia strains expressing specific fluorescent or bioluminescent proteins permit the more efficient study of dual-species biofilms compared to other methods that rely on measuring the total biomass. Combining fluorescence and bioluminescence measurements allows an independent analysis of the different microbial species within the biofilm, indicating the degree of presence of each one over time during a dual-species biofilm growth. The quantitative strategies developed in this work are reproducible and recommended for dual-species biofilm studies with high-throughput microtiter plate approaches using strains that can constitutively express fluorescent or bioluminescent proteins.

JTD Keywords: biomass quantification, burkholderia cenocepacia, burkholderia-cepacia, crystal violet, cystic-fibrosis, dual-species biofilms, pseudomonas aeruginosa, quantification, Biomass quantification, Burkholderia cenocepacia, Crystal violet, Dual-species biofilms, Pseudomonas aeruginosa, Pseudomonas-aeruginosa


Admella J, Torrents E, (2023). Investigating bacterial infections in Galleria mellonella larvae: Insights into pathogen dissemination and behavior Journal Of Invertebrate Pathology 200, 107975

The insect Galleria mellonella is an alternative animal model widely used for studying bacterial infections. It presents a wide range of advantages, including its low cost, easy maintenance and lack of ethical constraints. Among other features, their innate immune system is very similar to that of mammals. In this study, we dissected several larvae infected with important human pathogens: Mycobacterium abscessus, Staphylococcus aureus and Pseudomonas aeruginosa. By observing the fat body, gut, trachea, and hemolymph under the microscope, we were able to describe where bacteria tend to disseminate. We also quantified the number of bacteria in the hemolymph throughout the infection course and found significant differences between the different pathogens. With this work, we aimed to better understand the behavior and dissemination of bacteria in the infected larvae.Copyright © 2023 The Authors. Published by Elsevier Inc. All rights reserved.

JTD Keywords: Bacteria, Dissection, Galleria mellonella, Infection


Alcàcer-Almansa, J, Arévalo-Jaimes, BV, Blanco-Cabra, N, Torrents, E, (2023). Methods for studying biofilms: Microfluidics and translation in the clinical context Methods In Microbiology 53, 195-233

Rubio-Canalejas, A, Admella, J, Pedraz, L, Torrents, E, (2023). Pseudomonas aeruginosa Nonphosphorylated AlgR Induces Ribonucleotide Reductase Expression under Oxidative Stress Infectious Conditions Msystems 8,

The emergence of multidrug-resistant bacteria is a serious problem worldwide. Pseudomonas aeruginosa is a pathogen that causes severe infections because it can form a biofilm that protects it from immune system mechanisms such as the production of oxidative stress. Ribonucleotide reductases are essential enzymes which synthesize deoxyribonucleotides used in the replication of DNA.

JTD Keywords: algr, biofilm, galleria mellonella, nrdj, oxidative stress, Gene-expression, Ribonucleotide reductase


Sanmukh, SG, Admella, J, Moya-Andérico, L, Fehér, T, Arévalo-Jaimes, BV, Blanco-Cabra, N, Torrents, E, (2023). Accessing the In Vivo Efficiency of Clinically Isolated Phages against Uropathogenic and Invasive Biofilm-Forming Escherichia coli Strains for Phage Therapy Cells 12, 344

Escherichia coli is one of the most common members of the intestinal microbiota. Many of its strains are associated with various inflammatory infections, including urinary or gut infections, especially when displaying antibiotic resistance or in patients with suppressed immune systems. According to recent reports, the biofilm-forming potential of E. coli is a crucial factor for its increased resistance against antibiotics. To overcome the limitations of using antibiotics against resistant E. coli strains, the world is turning once more towards bacteriophage therapy, which is becoming a promising candidate amongst the current personalized approaches to target different bacterial infections. Although matured and persistent biofilms pose a serious challenge to phage therapy, they can still become an effective alternative to antibiotic treatment. Here, we assess the efficiency of clinically isolated phages in phage therapy against representative clinical uropathogenic and invasive biofilm-forming E. coli strains. Our results demonstrate that irrespective of host specificity, bacteriophages producing clear plaques with a high burst size, and exhibiting depolymerizing activity, are good candidates against biofilm-producing E. coli pathogens as verified from our in vitro and in vivo experiments using Galleria mellonella where survival was significantly increased for phage-therapy-treated larvae.

JTD Keywords: antibiotic resistance, assay, bacteriophage, bacteriophages, biofilm-forming potential, infection, inflammatory infections, mechanisms, Galleria-mellonella, Intestinal microflora


Renau-Mínguez, C, Herrero-Abadía, P, Ruiz-Rodriguez, P, Sentandreu, V, Torrents, E, Chiner-Oms, A, Torres-Puente, M, Comas, I, Julián, E, Coscolla, M, (2023). Genomic analysis of Mycobacterium brumae sustains its nonpathogenic and immunogenic phenotype Frontiers In Microbiology 13, 982679

Mycobacterium brumae is a rapid-growing, non-pathogenic Mycobacterium species, originally isolated from environmental and human samples in Barcelona, Spain. Mycobacterium brumae is not pathogenic and it's in vitro phenotype and immunogenic properties have been well characterized. However, the knowledge of its underlying genetic composition is still incomplete. In this study, we first describe the 4 Mb genome of the M. brumae type strain ATCC 51384T assembling PacBio reads, and second, we assess the low intraspecies variability by comparing the type strain with Illumina reads from three additional strains. Mycobacterium brumae genome is composed of a circular chromosome with a high GC content of 69.2% and containing 3,791 CDSs, 97 pseudogenes, one prophage and no CRISPR loci. Mycobacterium brumae has shown no pathogenic potential in in vivo experiments, and our genomic analysis confirms its phylogenetic position with other non-pathogenic and rapid growing mycobacteria. Accordingly, we determined the absence of virulence-related genes, such as ESX-1 locus and most PE/PPE genes, among others. Although the immunogenic potential of M. brumae was proved to be as high as Mycobacterium bovis BCG, the only mycobacteria licensed to treat cancer, the genomic content of M. tuberculosis T cell and B cell antigens in M. brumae genome is considerably lower than those antigens present in M. bovis BCG genome. Overall, this work provides relevant genomic data on one of the species of the mycobacterial genus with high therapeutic potential.Copyright © 2023 Renau-Mínguez, Herrero-Abadía, Ruiz-Rodriguez, Sentandreu, Torrents, Chiner-Oms, Torres-Puente, Comas, Julián and Coscolla.

JTD Keywords: antimicrobial susceptibility, bcg, identification, immunogenic, non-pathogenic, nontuberculous mycobacteria, resistance mechanisms, strain, therapeutic, Diversity, Immunogenic, Non-pathogenic, Nontuberculous mycobacteria, Therapeutic


Rubio-Canalejas, A, Baelo, A, Herbera, S, Blanco-Cabra, N, Vukomanovic, M, Torrents, E, (2022). 3D spatial organization and improved antibiotic treatment of a Pseudomonas aeruginosa-Staphylococcus aureus wound biofilm by nanoparticle enzyme delivery Frontiers In Microbiology 13, 959156

Chronic wounds infected by Pseudomonas aeruginosa and Staphylococcus aureus are a relevant health problem worldwide because these pathogens grow embedded in a network of polysaccharides, proteins, lipids, and extracellular DNA, named biofilm, that hinders the transport of antibiotics and increases their antimicrobial tolerance. It is necessary to investigate therapies that improve the penetrability and efficacy of antibiotics. In this context, our main objectives were to study the relationship between P. aeruginosa and S. aureus and how their relationship can affect the antimicrobial treatment and investigate whether functionalized silver nanoparticles can improve the antibiotic therapy. We used an optimized in vitro wound model that mimics an in vivo wound to co-culture P. aeruginosa and S. aureus biofilm. The in vitro wound biofilm was treated with antimicrobial combinatory therapies composed of antibiotics (gentamycin and ciprofloxacin) and biofilm-dispersing free or silver nanoparticles functionalized with enzymes (alpha-amylase, cellulase, DNase I, or proteinase K) to study their antibiofilm efficacy. The interaction and colocalization of P. aeruginosa and S. aureus in a wound-like biofilm were examined and detailed characterized by confocal and electronic microscopy. We demonstrated that antibiotic monotherapy is inefficient as it differentially affects the two bacterial species in the mixed biofilm, driving P. aeruginosa to overcome S. aureus when using ciprofloxacin and the contrary when using gentamicin. In contrast, dual-antibiotic therapy efficiently reduces both species while maintaining a balanced population. In addition, DNase I nanoparticle treatment had a potent antibiofilm effect, decreasing P. aeruginosa and S. aureus viability to 0.017 and 7.7%, respectively, in combined antibiotics. The results showed that using nanoparticles functionalized with DNase I enhanced the antimicrobial treatment, decreasing the bacterial viability more than using the antibiotics alone. The enzymes alpha-amylase and cellulase showed some antibiofilm effect but were less effective compared to the DNase I treatment. Proteinase K showed insignificant antibiofilm effect. Finally, we proposed a three-dimensional colocalization model consisting of S. aureus aggregates within the biofilm structure, which could be associated with the low efficacy of antibiofilm treatments on bacteria. Thus, designing a clinical treatment that combines antibiofilm enzymes and antibiotics may be essential to eliminating chronic wound infections.

JTD Keywords: antimicrobial therapies, biofilm, chronic infection, nanoparticle, Antimicrobial therapies, Biofilm, Chronic infection, In-vitro, Matrix, Model, Nanoparticle, Wound healing


Vukomanovic, M, Gazvoda, L, Kurtjak, M, Hrescak, J, Jaklic, B, Moya-Anderico, L, Cendra, MD, Torrents, E, (2022). Development of a ternary cyclodextrin-arginine-ciprofloxacin antimicrobial complex with enhanced stability Commun Biol 5, 1234

Designing useful functionalities in clinically validated, old antibiotics holds promise to provide the most economical solution for the global lack of effective antibiotics, as undoubtedly a serious health threat. Here we show that using the surface chemistry of the cyclodextrin (beta CD) cycle and arginine (arg) as a linker, provides more stable ternary antibiotic complex (beta CD-arg-cpx). In contrast to classical less stable inclusion complexes, which only modify antibiotic solubility, here-presented ternary complex is more stable and controls drug release. The components of the complex intensify interactions with bacterial membranes and increase the drug's availability inside bacterial cells, thereby improving its antimicrobial efficacy and safety profile. Multifunctional antibiotics, formulated as drug delivery systems per se, that take the drug to the site of action, maximize its efficacy, and provide optical detectability are envisaged as the future in fighting against infections. Their role as a tool against multiresistant strains remains as interesting challenge open for further research.; Ternary cyclodextrin- arginine- ciprofloxacin complexes show improved stability and increased efficacy against P. aeruginosa in Galleria mellonella worms.

JTD Keywords: Antibiotic-resistance, Beta-cyclodextrin, Dissolution, Drugs, Salts


Admella, J, Torrents, E, (2022). A Straightforward Method for the Isolation and Cultivation of Galleria mellonella Hemocytes International Journal Of Molecular Sciences 23, 13483

Galleria mellonella is an alternative animal model of infection. The use of this species presents a wide range of advantages, as its maintenance and rearing are both easy and inexpensive. Moreover, its use is considered to be more ethically acceptable than other models, it is conveniently sized for manipulation, and its immune system has multiple similarities with mammalian immune systems. Hemocytes are immune cells that help encapsulate and eliminate pathogens and foreign particles. All of these reasons make this insect a promising animal model. However, cultivating G. mellonella hemocytes in vitro is not straightforward and it has many difficult challenges. Here, we present a methodologically optimized protocol to establish and maintain a G. mellonella hemocyte primary culture. These improvements open the door to easily and quickly study the toxicity of nanoparticles and the interactions of particles and materials in an in vitro environment.

JTD Keywords: cell culture, galleria mellonella, infection, nanoparticle, Bacteria, Cell culture, Galleria mellonella, Hemolin, Infection, Insect hemocytes, Larvae, Lepidoptera, Nanoparticle, Phagocytosis, Prophenoloxidase, Suspension, Systems


Martínez, A., Torrents, E., (2022). Terapia antimicrobiana con fagos ¿realidad o ficción? Per Vèncer La Fibrosi Quística: Revista De L'associació Catalana De Fibrosi Quística 76, 38-42

García-Díaz, M, Cendra, MD, Alonso-Roman, R, Urdániz, M, Torrents, E, Martínez, E, (2022). Mimicking the Intestinal Host–Pathogen Interactions in a 3D In Vitro Model: The Role of the Mucus Layer Pharmaceutics 14, 1552

The intestinal mucus lines the luminal surface of the intestinal epithelium. This mucus is a dynamic semipermeable barrier and one of the first-line defense mechanisms against the outside environment, protecting the body against chemical, mechanical, or biological external insults. At the same time, the intestinal mucus accommodates the resident microbiota, providing nutrients and attachment sites, and therefore playing an essential role in the host–pathogen interactions and gut homeostasis. Underneath this mucus layer, the intestinal epithelium is organized into finger-like protrusions called villi and invaginations called crypts. This characteristic 3D architecture is known to influence the epithelial cell differentiation and function. However, when modelling in vitro the intestinal host–pathogen interactions, these two essential features, the intestinal mucus and the 3D topography are often not represented, thus limiting the relevance of the models. Here we present an in vitro model that mimics the small intestinal mucosa and its interactions with intestinal pathogens in a relevant manner, containing the secreted mucus layer and the epithelial barrier in a 3D villus-like hydrogel scaffold. This 3D architecture significantly enhanced the secretion of mucus. In infection with the pathogenic adherent invasive E. coli strain LF82, characteristic of Crohn’s disease, we observed that this secreted mucus promoted the adhesion of the pathogen and at the same time had a protective effect upon its invasion. This pathogenic strain was able to survive inside the epithelial cells and trigger an inflammatory response that was milder when a thick mucus layer was present. Thus, we demonstrated that our model faithfully mimics the key features of the intestinal mucosa necessary to study the interactions with intestinal pathogens.

JTD Keywords: 3d in vitro models, barrier function, bile-salts, cells, drug-delivery, host-pathogen interaction, host–pathogen interaction, hydrogels, ileal mucosa, infection, intestinal models, intestinal mucus, microbiome, patient, responses, 3d in vitro models, Intestinal mucus, Invasive escherichia-coli


Blanco-Cabra, N, Movellan, J, Marradi, M, Gracia, R, Salvador, C, Dupin, D, Loinaz, I, Torrents, E, (2022). Neutralization of ionic interactions by dextran-based single-chain nanoparticles improves tobramycin diffusion into a mature biofilm Npj Biofilms And Microbiomes 8, 52

The extracellular matrix protects biofilm cells by reducing diffusion of antimicrobials. Tobramycin is an antibiotic used extensively to treat P. aeruginosa biofilms, but it is sequestered in the biofilm periphery by the extracellular negative charge matrix and loses its efficacy significantly. Dispersal of the biofilm extracellular matrix with enzymes such as DNase I is another promising therapy that enhances antibiotic diffusion into the biofilm. Here, we combine the charge neutralization of tobramycin provided by dextran-based single-chain polymer nanoparticles (SCPNs) together with DNase I to break the biofilm matrix. Our study demonstrates that the SCPNs improve the activity of tobramycin and DNase I by neutralizing the ionic interactions that keep this antibiotic in the biofilm periphery. Moreover, the detailed effects and interactions of nanoformulations with extracellular matrix components were revealed through time-lapse imaging of the P. aeruginosa biofilms by laser scanning confocal microscopy with specific labeling of the different biofilm components.

JTD Keywords: Cystic-fibrosis sputum, Delivery, Extracellular dna, Infections, Pseudomonas-aeruginosa, Transport


Guallar-Garrido, S, Almiñana-Rapún, F, Campo-Pérez, V, Torrents, E, Luquin, M, Julián, E, (2022). BCG Substrains Change Their Outermost Surface as a Function of Growth Media Vaccines 10, 40

Mycobacterium bovis bacillus Calmette-Guérin (BCG) efficacy as an immunotherapy tool can be influenced by the genetic background or immune status of the treated population and by the BCG substrain used. BCG comprises several substrains with genetic differences that elicit diverse phenotypic characteristics. Moreover, modifications of phenotypic characteristics can be influenced by culture conditions. However, several culture media formulations are used worldwide to produce BCG. To elucidate the influence of growth conditions on BCG characteristics, five different substrains were grown on two culture media, and the lipidic profile and physico-chemical properties were evaluated. Our results show that each BCG substrain displays a variety of lipidic profiles on the outermost surface depending on the growth conditions. These modifications lead to a breadth of hydrophobicity patterns and a different ability to reduce neutral red dye within the same BCG substrain, suggesting the influence of BCG growth conditions on the interaction between BCG cells and host cells.

JTD Keywords: cell wall, efficacy, glycerol, hydrophobicity, lipid, neutral red, pdim, pgl, protein, strains, viability, virulence, Acylglycerol, Albumin, Article, Asparagine, Bacterial cell wall, Bacterial gene, Bacterium culture, Bcg vaccine, Catalase, Cell wall, Chloroform, Controlled study, Escherichia coli, Gene expression, Genomic dna, Glycerol, Glycerol monomycolate, Hexadecane, Housekeeping gene, Hydrophobicity, Immune response, Immunogenicity, Immunotherapy, Lipid, Lipid fingerprinting, Magnesium sulfate, Mercaptoethanol, Methanol, Methylglyoxal, Molybdatophosphoric acid, Mycobacterium bovis bcg, Neutral red, Nonhuman, Pdim, Petroleum ether, Pgl, Phenotype, Physical chemistry, Real time reverse transcription polymerase chain reaction, Rna 16s, Rna extraction, Rv0577, Staining, Thin layer chromatography, Unclassified drug


Vukomanovic, M, Cendra, MD, Baelo, A, Torrents, E, (2021). Nano-engineering stable contact-based antimicrobials: Chemistry at the interface between nano-gold and bacteria Colloids And Surfaces B-Biointerfaces 208, 112083

Contact-based antimicrobials, as antibiotic-free technologies that use non-specific interactions with bacterial cells to exert antimicrobial activity, are a prospective solution in fighting the global issue of bacterial resistance. A very simplified approach to their design considers the direct bonding of cationic guanidine-containing amino acids to the surface of nano-gold carriers. The structure enables antimicrobial activity due to a high density of cationic surface charges. This opens a set of novel questions that are important for their effective engineering, particularly regarding (i) chemistry and events that take place at the interface between NPs and cells, (ii) the direct influence of a charge (and its change) on interactions with bacterial and mammalian cells, and (iii) the stability of structures (and their antimicrobial activity) in the presence of enzymes, which are addressed in this paper. Because of the ability of amino acid-functionalized nano-gold to retain structural and functional activity, even after exposure to a range of physicochemical stimuli, they provide an excellent nanotechnological platform for designing highly effective contact-based antimicrobials and their applications.

JTD Keywords: agents, antibiotic-free technology, arginine, charged amino acids, contact-based antimicrobials, discovery, enzyme-resistant antimicrobials, functionalized gold, peptides, polymers, resistant, Antibiotic-free technology, Charged amino acids, Contact-based antimicrobials, Enzyme-resistant antimicrobials, Functionalized gold, Nanoparticles


Lozano, H, Millan-Solsona, R, Blanco-Cabra, N, Fabregas, R, Torrents, E, Gomila, G, (2021). Electrical properties of outer membrane extensions from Shewanella oneidensis MR-1 Nanoscale 13, 18754-18762

Outer membrane extensions from the metal-reducing bacterium Shewanella oneidensis MR-1 show an insulating behavior in dry air environment as measured by scanning dielectric microscopy.

JTD Keywords: constant, dielectric polarization, microbial nanowires, nanoscale, transport, Air environment, Bacteria, Bacterial cells, Bacterial nanowires, Dry air, Metal-reducing bacteria, Outer membrane, Phase-minerals, Proteins, Shewanella oneidensis mr-1, Solid phasis, Solid-phase, Space division multiple access, Tubulars


Szura, A, Pedraz, L, Smith, C, Mesas, C, Ruiz, E, Torrents, E, Sola, M, (2021). Expression, purification and oligomeric state analysis of a bacterial zinc finger protein and a tyrosine mutant (ABS# 450) Protein Science 30, 168-168

One potential biomedical target is a DNA-binding Zinc-finger repressor that regulates genes that are essential for Pseudomonas aeruginosa viability, which has a homolog in Escherichia coli. We expressed such a repressor from E. coli in E. coli strain as a fusion protein with an N-terminal SUMO tag to increase the formerly detected low solubility. In this type of construct, at the end of the SUMO protein there is the cleavage site for the SUMO protease. However, in our construct the proteolytic cleavage was inefficient and we suspected a potential interference between the tag and the repressor. As an alternative, we added a cleavage site for the TEV protease between SUMO and repressor genes. However, the fusion protein was not cleavable by TEV under many different conditions (1-2mM DTT, 250-750mM NaCl, pH 6-9). One possible reason was that the TEV cleavage site in the new construct was too close to the Zn-finger protein. However, addition of two aminoacids between the protein and the TEV cleavage site did not allow cleavage. Unexpectedly, high efficient cleavage was achieved for a construct that contained a linker of six aa between the TEV cleavage site and the Zn-finger protein. Optimized purification protocol, includes affinity chromatographies that consist in a first step to isolate the fusion protein and a second to isolate Zn-finger protein upon cleavage. SEC-MALS attempts performed with nucleotides that deactivate the protein, shows the repressor ability to form octamers, while from the other hand, introduction of tyrosine mutation in the active site breaks higher oligomeric state of the protein-nucleotide complex, and deprives the protein ability of nucleotide recognition. Therefore, identification of key residues in the active site is essential to understand protein mechanism of regulation, and afterwards to design new strategies, pivotal to combat P. aeruginosa.

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Blanco-Cabra, Nuria, Lopez-Martinez, Maria Jose, Arevalo-Jaimes, Betsy Veronica, Martin-Gomez, Maria Teresa, Samitier, Josep, Torrents, Eduard, (2021). A new BiofilmChip device for testing biofilm formation and antibiotic susceptibility Npj Biofilms And Microbiomes 7, 62

Currently, three major circumstances threaten the management of bacterial infections: increasing antimicrobial resistance, expansion of chronic biofilm-associated infections, and lack of an appropriate approach to treat them. To date, the development of accelerated drug susceptibility testing of biofilms and of new antibiofouling systems has not been achieved despite the availability of different methodologies. There is a need for easy-to-use methods of testing the antibiotic susceptibility of bacteria that form biofilms and for screening new possible antibiofilm strategies. Herein, we present a microfluidic platform with an integrated interdigitated sensor (BiofilmChip). This new device allows an irreversible and homogeneous attachment of bacterial cells of clinical origin, even directly from clinical specimens, and the biofilms grown can be monitored by confocal microscopy or electrical impedance spectroscopy. The device proved to be suitable to study polymicrobial communities, as well as to measure the effect of antimicrobials on biofilms without introducing disturbances due to manipulation, thus better mimicking real-life clinical situations. Our results demonstrate that BiofilmChip is a straightforward tool for antimicrobial biofilm susceptibility testing that could be easily implemented in routine clinical laboratories.

JTD Keywords: cells, model, resistance, shear, technology, In-vitro


Cendra, MD, Torrents, E, (2021). Pseudomonas aeruginosa biofilms and their partners in crime Biotechnology Advances 49, 107734

Pseudomonas aeruginosa biofilms and the capacity of the bacterium to coexist and interact with a broad range of microorganisms have a substantial clinical impact. This review focuses on the main traits of P. aeruginosa biofilms, such as the structural composition and regulatory networks involved, placing particular emphasis on the clinical challenges they represent in terms of antimicrobial susceptibility and biofilm infection clearance. Furthermore, the ability of P. aeruginosa to grow together with other microorganisms is a significant pathogenic attribute with clinical relevance; hence, the main microbial interactions of Pseudomonas are especially highlighted and detailed throughout this review. This article also explores the infections caused by single and polymicrobial biofilms of P. aeruginosa and the current models used to recreate them under laboratory conditions. Finally, the antimicrobial and antibiofilm strategies developed against P. aeruginosa mono and multispecies biofilms are detailed at the end of this review.

JTD Keywords: aeruginosa models, antibiotic-resistance, antimicrobials, bacterial biofilms, biofilms, c-di-gmp, chronic infections, enterococcus-faecalis, extracellular dna, in-vitro, lectin pa-iil, p, p. aeruginosa models, polymicrobial, polymicrobial interactions, staphylococcus-aureus, Antimicrobials, Biofilms, Chronic infections, P. aeruginosa models, Polymicrobial, Pseudomonas aeruginosa, Urinary-tract-infection


Campo-Pérez, V, Cendra, MD, Julián, E, Torrents, E, (2021). Easily applicable modifications to electroporation conditions improve the transformation efficiency rates for rough morphotypes of fast-growing mycobacteria New Biotechnology 63, 10-18

© 2021 Elsevier B.V. Electroporation is the most widely used and efficient method to transform mycobacteria. Through this technique, fast- and slow-growing mycobacteria with smooth and rough morphotypes have been successfully transformed. However, transformation efficiencies differ widely between species and strains. In this study, the smooth and rough morphotypes of Mycobacteroides abscessus and Mycolicibacterium brumae were used to improve current electroporation procedures for fast-growing rough mycobacteria. The focus was on minimizing three well-known and challenging limitations: the mycobacterial restriction-modification systems, which degrade foreign DNA; clump formation of electrocompetent cells before electroporation; and electrical discharges during pulse delivery, which were reduced by using salt-free DNA solution. Herein, different strategies are presented that successfully address these three limitations and clearly improve the electroporation efficiencies over the current procedures. The results demonstrated that combining the developed strategies during electroporation is highly recommended for the transformation of fast-growing rough mycobacteria.

JTD Keywords: clump, desalted dna, electroporation, mycobacteria, mycobacteroides abscessus, mycolicibacterium brumae, Clump, Desalted dna, Electroporation, Mycobacteria, Mycobacteroides abscessus, Mycolicibacterium brumae


Vilela, D, Blanco-Cabra, N, Eguskiza, A, Hortelao, AC, Torrents, E, Sanchez, S, (2021). Drug-Free Enzyme-Based Bactericidal Nanomotors against Pathogenic Bacteria Acs Applied Materials & Interfaces 13, 14964-14973

The low efficacy of current conventional treatments for bacterial infections increases mortality rates worldwide. To alleviate this global health problem, we propose drug-free enzyme-based nanomotors for the treatment of bacterial urinary-tract infections. We develop nanomotors consisting of mesoporous silica nanoparticles (MSNPs) that were functionalized with either urease (U-MSNPs), lysozyme (L-MSNPs), or urease and lysozyme (M-MSNPs), and use them against nonpathogenic planktonic Escherichia coli. U-MSNPs exhibited the highest bactericidal activity due to biocatalysis of urea into NaHCO3 and NH3, which also propels U-MSNPs. In addition, U-MSNPs in concentrations above 200 μg/mL were capable of successfully reducing 60% of the biofilm biomass of a uropathogenic E. coli strain. This study thus provides a proof-of-concept, demonstrating that enzyme-based nanomotors are capable of fighting infectious diseases. This approach could potentially be extended to other kinds of diseases by selecting appropriate biomolecules.

JTD Keywords: biofilms, carbonate, e. coli, enzymatic nanomotors, infections, lysozyme, micromotors, nanomachines, proteins, self-propulsion, Anti-bacterial agents, Biocatalysis, Biofilms, Canavalia, Drug carriers, E. coli, Eliminate escherichia-coli, Enzymatic nanomotors, Escherichia coli, Escherichia coli infections, Humans, Infections, Muramidase, Nanomachines, Nanoparticles, Self-propulsion, Silicon dioxide, Urease, Urinary tract infections


Moya-Andérico, L, Vukomanovic, M, Cendra, MD, Segura-Feliu, M, Gil, V, del Río, JA, Torrents, E, (2021). Utility of Galleria mellonella larvae for evaluating nanoparticle toxicology Chemosphere 266, 129235

© 2020 Elsevier Ltd The use of nanoparticles in consumer products is currently on the rise, so it is important to have reliable methods to predict any associated toxicity effects. Traditional in vitro assays fail to mimic true physiological responses of living organisms against nanoparticles whereas murine in vivo models are costly and ethically controversial. For these reasons, this study aimed to evaluate the efficacy of Galleria mellonella as an alternative, non-rodent in vivo model for examining nanoparticle toxicity. Silver, selenium, and functionalized gold nanoparticles were synthesized, and their toxicity was assessed in G. mellonella larvae. The degree of acute toxicity effects caused by each type of NP was efficiently detected by an array of indicators within the larvae: LD50 calculation, hemocyte proliferation, NP distribution, behavioral changes, and histological alterations. G. mellonella larvae are proposed as a nanotoxicological model that can be used as a bridge between in vitro and in vivo murine assays in order to obtain better predictions of NP toxicity.

JTD Keywords: cellular uptake, cytotoxicity, galleria mellonella, gold nanoparticles, hemocytes, nanoparticles, nanotoxicity, non-rodent in vivo model, non-rodent in vivo model, oxidative stress, selenium-compounds, silica nanoparticles, silver nanoparticles, toxicity, toxicity screening, vitro, Galleria mellonella, Hemocytes, In-vivo model, Nanoparticles, Nanotoxicity, Non-rodent in vivo model, Toxicity screening


Abdelrahman, F, Easwaran, M, Daramola, OI, Ragab, S, Lynch, S, Oduselu, TJ, Khan, FM, Ayobami, A, Adnan, F, Torrents, E, Sanmukh, S, El-Shibiny, A, (2021). Phage-Encoded Endolysins Antibiotics 10, 124

© 2021 by the authors. Licensee MDPI, Basel, Switzerland. Due to the global emergence of antibiotic resistance, there has been an increase in research surrounding endolysins as an alternative therapeutic. Endolysins are phage-encoded enzymes, utilized by mature phage virions to hydrolyze the cell wall from within. There is significant evidence that proves the ability of endolysins to degrade the peptidoglycan externally without the assistance of phage. Thus, their incorporation in therapeutic strategies has opened new options for therapeutic application against bacterial infections in the human and veterinary sectors, as well as within the agricultural and biotechnology sectors. While endolysins show promising results within the laboratory, it is important to document their resistance, safety, and immunogenicity for in-vivo application. This review aims to provide new insights into the synergy between endolysins and antibiotics, as well as the formulation of endolysins. Thus, it provides crucial information for clinical trials involving endolysins.

JTD Keywords: antibiotic resistance, bacteriophages, Antibiotic resistance, Bacteriophages, Endolysin


Moya-Andérico, L, Admella, J, Torrents, E, (2021). A clearing protocol for Galleria mellonella larvae: Visualization of internalized fluorescent nanoparticles New Biotechnology 60, 20-26

© 2020 Elsevier B.V. Light scattering is a challenge for imaging three-dimensional organisms. A number of new tissue clearing methodologies have been described in recent years, increasing the utilities of clearing techniques to obtain transparent samples. Here, we describe the optimization of a suitable and novel protocol for clearing Galleria mellonella larvae, an alternative infection animal model with a promising potential for the toxicological evaluation of different molecules and materials. This has allowed the visualization of internalised fluorescent nanoparticles using confocal microscopy, opening the door to a wide range of different applications.

JTD Keywords: galleria mellonella, nanotoxicology, Galleria mellonella, Nanotoxicology, Tissue clearance


Blanco-Cabra, Núria, Paetzold, Bernhard, Ferrar, Tony, Mazzolini, Rocco, Torrents, Eduard, Serrano, Luis, Lluch-Senar, Maria, (2020). Characterization of different alginate lyases for dissolving Pseudomonas aeruginosa biofilms Scientific Reports 10, (1), 9390

Aggregates of Pseudomonas aeruginosa form a protective barrier against antibiotics and the immune system. These barriers, known as biofilms, are associated with several infectious diseases. One of the main components of these biofilms is alginate, a homo- and hetero-polysaccharide that consists of β-D-mannuronate (M) and α-L-guluronate (G) units. Alginate lyases degrade this sugar and have been proposed as biotherapeutic agents to dissolve P. aeruginosa biofilms. However, there are contradictory reports in the literature regarding the efficacy of alginate lyases against biofilms and their synergistic effect with antibiotics. We found that most positive reports used a commercial crude extract from Flavobacterium multivorum as the alginate lyase source. By using anion exchange chromatography coupled to nano LC MS/MS, we identified two distinct enzymes in this extract, one has both polyM and polyG (polyM/G) degradation activities and it is similar in sequence to a broad-spectrum alginate lyase from Flavobacterium sp. S20 (Alg2A). The other enzyme has only polyG activity and it is similar in sequence to AlyA1 from Zobellia galactanivorans. By characterizing both of these enzymes together with three recombinant alginate lyases (a polyM, a polyG and a polyM/G), we showed that only enzymes with polyM/G activity such as Alg2A and A1-II’ (alginate lyase from Sphingomonas sp.) are effective in dissolving biofilms. Furthermore, both activities are required to have a synergistic effect with antibiotics.

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Del Mar Cendra, Maria, Torrents, Eduard, (2020). Differential adaptability between reference strains and clinical isolates of Pseudomonas aeruginosa into the lung epithelium intracellular lifestyle Virulence 11, (1), 862-876

Intracellular invasion is an advantageous mechanism used by pathogens to evade host defense and antimicrobial therapy. In patients, the intracellular microbial lifestyle can lead to infection persistence and recurrence, thus worsening outcomes. Lung infections caused by Pseudomonas aeruginosa, especially in cystic fibrosis (CF) patients, are often aggravated by intracellular invasion and persistence of the pathogen. Proliferation of the infectious species relies on a continuous deoxyribonucleotide (dNTP) supply, for which the ribonucleotide reductase enzyme (RNR) is the unique provider. The large genome plasticity of P. aeruginosa and its ability to rapidly adapt to different environments are challenges for studying the pathophysiology associated with this type of infection. Using different reference strains and clinical isolates of P. aeruginosa independently combined with alveolar (A549) and bronchial (16HBE14o- and CF-CFBE41o-) epithelial cells, we analyzed host–pathogen interactions and intracellular bacterial persistence with the aim of determining a cell type-directed infection promoted by the P. aeruginosa strains. The oscillations in cellular toxicity and oxygen consumption promoted by the intracellular persistence of the strains were also analyzed among the different infectious lung models. Significantly, we identified class II RNR as the enzyme that supplies dNTPs to intracellular P. aeruginosa. This discovery could contribute to the development of RNR-targeted strategies against the chronicity occurring in this type of lung infection. Overall our study demonstrates that the choice of bacterial strain is critical to properly study the type of infectious process with relevant translational outcomes.

JTD Keywords: Pseudomonas aeruginosa, Intracellular persistence, Lung, Epithelial cells, Clinical isolates, Host-pathogen interactions, Intracellular lifestyle, Chronic infections, Cystic fibrosis, Ribonucleotide reductase


Pedraz, Lucas, Blanco-Cabra, Núria, Torrents, Eduard, (2020). Gradual adaptation of facultative anaerobic pathogens to microaerobic and anaerobic conditions The FASEB Journal 34, (2), 2912-2928

Many notable human pathogens are facultative anaerobes. These pathogens exhibit redundant metabolic pathways and a whole array of regulatory systems to adapt to changing oxygen levels. However, our knowledge of facultative anaerobic pathogens is mostly based on fully aerobic or anaerobic cultures, which does not reflect real infection conditions, while the microaerobic range remains understudied. Here, we examine the behavior of pathogenic and nonpathogenic strains of two facultative anaerobes, Escherichia coli and Pseudomonas aeruginosa, during the aerobic-anaerobic transition. To do so, we introduce a new technique named AnaeroTrans, in which we allow self-consumption of oxygen by steady-state cultures and monitor the system by measuring the gas-phase oxygen concentration. We explore the different behavior of the studied species toward oxygen and examine how this behavior is associated with the targeted infection sites. As a model, we characterize the adaptation profile of the ribonucleotide reductase network, a complex oxygen-dependent enzymatic system responsible for the generation of the deoxyribonucleotides. We also explore the actions of the most important anaerobic regulators and how these regulators influence bacterial fitness. Our results allow us to classify the different elements that compose the aerobic-anaerobic transition into reproducible stages, thus showing the different adaptation mechanisms of the studied species.

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Moya-Andérico, Laura, Admella, Joana, Fernandes, Rodrigo, Torrents, Eduard, (2020). Monitoring Gene Expression during a Galleria mellonella Bacterial Infection Microorganisms 8, (11), 1798

Galleria mellonella larvae are an alternative in vivo model that has been extensively used to study the virulence and pathogenicity of different bacteria due to its practicality and lack of ethical constraints. However, the larvae possess intrinsic autofluorescence that obstructs the use of fluorescent proteins to study bacterial infections, hence better methodologies are needed. Here, we report the construction of a promoter probe vector with bioluminescence expression as well as the optimization of a total bacterial RNA extraction protocol to enhance the monitoring of in vivo infections. By employing the vector to construct different gene promoter fusions, variable gene expression levels were efficiently measured in G. mellonella larvae at various time points during the course of infection and without much manipulation of the larvae. Additionally, our optimized RNA extraction protocol facilitates the study of transcriptional gene levels during an in vivo infection. The proposed methodologies will greatly benefit bacterial infection studies as they can contribute to a better understanding of the in vivo infection processes and pathogen–mammalian host interactions.

JTD Keywords: Galleria mellonella, P. aeruginosa, Hemolymph, Hemocytes, Bioluminescence, Promoter probe vector, Optimized RNA extraction, Ribonucleotide reductases


Bach-Griera, Marc, Campo-Pérez, Víctor, Barbosa, Sandra, Traserra, Sara, Guallar-Garrido, Sandra, Moya-Andérico, Laura, Herrero-Abadía, Paula, Luquin, Marina, Rabanal, Rosa Maria, Torrents, Eduard, Julián, Esther, (2020). Mycolicibacterium brumae is a safe and non-toxic immunomodulatory agent for cancer treatment Vaccines 8, (2), 198

Intravesical Mycobacterium bovis Bacillus Calmette–Guérin (BCG) immunotherapy remains the gold-standard treatment for non-muscle-invasive bladder cancer patients, even though half of the patients develop adverse events to this therapy. On exploring BCG-alternative therapies, Mycolicibacterium brumae, a nontuberculous mycobacterium, has shown outstanding anti-tumor and immunomodulatory capabilities. As no infections due to M. brumae in humans, animals, or plants have been described, the safety and/or toxicity of this mycobacterium have not been previously addressed. In the present study, an analysis was made of M. brumae- and BCG-intravenously-infected severe combined immunodeficient (SCID) mice, M. brumae-intravesically-treated BALB/c mice, and intrahemacoelic-infected-Galleria mellonella larvae. Organs from infected mice and the hemolymph from larvae were processed to count bacterial burden. Blood samples from mice were also taken, and a wide range of hematological and biochemical parameters were analyzed. Finally, histopathological alterations in mouse tissues were evaluated. Our results demonstrate the safety and non-toxic profile of M. brumae. Differences were observed in the biochemical, hematological and histopathological analysis between M. brumae and BCG-infected mice, as well as survival curves rates and colony forming units (CFU) counts in both animal models. M. brumae constitutes a safe therapeutic biological agent, overcoming the safety and toxicity disadvantages presented by BCG in both mice and G. mellonella animal models.

JTD Keywords: Bladder cancer, Nontuberculous mycobacteria, BCG, Safety, Galleria mellonella, Mice


Rahman, Abdel, Ganesh, Swapnil, Torrents, Eduard, Jahan, Nusrat, Wedyan, Moh'd Ali, Qaisi, Ali M., Al-Tawaha, Abdelrazzaq, (2020). Algal viruses Applied Plant Virology (ed. Awasthi, L. P.), Academic Press (London, UK) Advances, Detection, and Antiviral Strategies, 237-246

In marine ecosystems, the algae community is abundant and plays an important role in the food web. On the other hand, algal viruses have different advantages and disadvantages depending on the properties, such as applications of algal viruses in the advancement of molecular biology and for enhancement of biofuel production. Many environmental factors affecting growth and development of algae and virus such as temperature, salinity, ultraviolet radiation, photosynthetic active radiation, nutrients, inorganic particles, organic particles, CO2 concentration, and pH.

JTD Keywords: Algal viruses, Biofuel production, Nutrients


Said Al-Tawaha, A.R.M., Singh, S., Singh, V., Kafeel, U., Naikoo, M.I., Kumari, A., Amanullah, I., Al-Tawaha, A.R., Qaisi, A.M., Khanum, S., Thangadurai, D, Sangeetha, J., Islam, S., Etesami, H., Kerkoub, N., Amrani, A., Labidi, Z., Maaref, H., Nasri, H., Sanmukh, S.G., Torrents, E. , (2020). Improving water use efficiency and nitrogen use efficiency in rice through breeding and genomics approaches Rice Research for Quality Improvement: Genomics and Genetic Engineering (ed. Roychoudhury, A.), Springer (Singapore, Singapore) Volume 2: Nutrient Biofortification and Herbicide and Biotic Stress Resistance in Rice, 307-337

Rice is a staple food of more than half of the world’s population; more than 3.5 billion inhabitants depend on rice for obtaining 20% of their daily calorie intake. Nitrogen is the most important for crop growth and yield potential. Indeed, nitrogen is essential to stimulate tillering, leaf growth, photosynthesis, and protein synthesis. Significant achievements have recently been observed at the molecular level in nitrogen use efficiency and water use efficiency in plants. In this chapter we will discuss the following issue: (i) definition of both nitrogen use efficiency and water use efficiency, (ii) genes responsible for nitrogen use efficiency and water use efficiency, (iii) best ways for improving water and nutrient use efficiency in rice, and (iv) optimizing nitrogen options for improving water and nitrogen use efficiency of rice under different water regimes.

JTD Keywords: Rice, Water use efficiency, Nitrogen use efficiency, Breeding, Genomics approaches


Checa, Marti, Millán, Rubén, Blanco, Núria, Torrents, Eduard, Fabregas, Rene, Gomila, Gabriel, (2019). Mapping the dielectric constant of a single bacterial cell at the nanoscale with scanning dielectric force volume microscopy Nanoscale 11, 20809-20819

Mapping the dielectric constant at the nanoscale of samples showing a complex topography, such as non-planar nanocomposite materials or single cells, poses formidable challenges to existing nanoscale dielectric microscopy techniques. Here we overcome these limitations by introducing Scanning Dielectric Force Volume Microscopy. This scanning probe microscopy technique is based on the acquisition of electrostatic force approach curves at every point of a sample and its post-processing and quantification by using a computational model that incorporates the actual measured sample topography. The technique provides quantitative nanoscale images of the local dielectric constant of the sample with unparalleled accuracy, spatial resolution and statistical significance, irrespectively of the complexity of its topography. We illustrate the potential of the technique by presenting a nanoscale dielectric constant map of a single bacterial cell, including its small-scale appendages. The bacterial cell shows three characteristic equivalent dielectric constant values, namely, εr,bac1=2.6±0.2, εr,bac2=3.6±0.4 and εr,bac3=4.9±0.5, which enable identifying different dielectric properties of the cell wall and of the cytoplasmatic region, as well as, the existence of variations in the dielectric constant along the bacterial cell wall itself. Scanning Dielectric Force Volume Microscopy is expected to have an important impact in Materials and Life Sciences where the mapping of the dielectric properties of samples showing complex nanoscale topographies is often needed.

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Vukomanovic, M., Torrents, E., (2019). High time resolution and high signal-to-noise monitoring of the bacterial growth kinetics in the presence of plasmonic nanoparticles Journal of Nanobiotechnology 17, (1), 21

Background: Emerging concepts for designing innovative drugs (i.e., novel generations of antimicrobials) frequently include nanostructures, new materials, and nanoparticles (NPs). Along with numerous advantages, NPs bring limitations, partly because they can limit the analytical techniques used for their biological and in vivo validation. From that standpoint, designing innovative drug delivery systems requires advancements in the methods used for their testing and investigations. Considering the well-known ability of resazurin-based methods for rapid detection of bacterial metabolisms with very high sensitivity, in this work we report a novel optimization for tracking bacterial growth kinetics in the presence of NPs with specific characteristics, such as specific optical properties. Results: Arginine-functionalized gold composite (HAp/Au/arginine) NPs, used as the NP model for validation of the method, possess plasmonic properties and are characterized by intensive absorption in the UV/vis region with a surface plasmon resonance maximum at 540 nm. Due to the specific optical properties, the NP absorption intensively interferes with the light absorption measured during the evaluation of bacterial growth (optical density; OD600). The results confirm substantial nonspecific interference by NPs in the signal detected during a regular turbidity study used for tracking bacterial growth. Instead, during application of a resazurin-based method (Presto Blue), when a combination of absorption and fluorescence detection is applied, a substantial increase in the signal-to-noise ratio is obtained that leads to the improvement of the accuracy of the measurements as verified in three bacterial strains tested with different growth rates (E. coli, P. aeruginosa, and S. aureus). Conclusions: Here, we described a novel procedure that enables the kinetics of bacterial growth in the presence of NPs to be followed with high time resolution, high sensitivity, and without sampling during the kinetic study. We showed the applicability of the Presto Blue method for the case of HAp/Au/arginine NPs, which can be extended to various types of metallic NPs with similar characteristics. The method is a very easy, economical, and reliable option for testing NPs designed as novel antimicrobials.

JTD Keywords: Antimicrobial nanoparticles, Arginine-functionalized gold, Bacterial growth kinetics, Plasmonic nanoparticles, Presto Blue


Ohui, K., Afanasenko, E., Bacher, F., Ting, R. L. X., Zafar, A., Blanco-Cabra, N., Torrents, E., Dömötör, O., May, N. V., Darvasiova, D., Enyedy, Éva A., Popovi, Reynisson, J., Rapta, P., Babak, M. V., Pastorin, G., Arion, V. B., (2019). New water-soluble copper(II) complexes with morpholine-thiosemicarbazone hybrids: Insights into the anticancer and antibacterial mode of action Journal of Medicinal Chemistry 62, (2), 512-530

Six morpholine-(iso)thiosemicarbazone hybrids HL1–HL6 and their Cu(II) complexes with good-to-moderate solubility and stability in water were synthesized and characterized. Cu(II) complexes [Cu(L1–6)Cl] (1–6) formed weak dimeric associates in the solid state, which did not remain intact in solution as evidenced by ESI-MS. The lead proligands and Cu(II) complexes displayed higher antiproliferative activity in cancer cells than triapine. In addition, complexes 2–5 were found to specifically inhibit the growth of Gram-positive bacteria Staphylococcus aureus with MIC50 values at 2–5 μg/mL. Insights into the processes controlling intracellular accumulation and mechanism of action were investigated for 2 and 5, including the role of ribonucleotide reductase (RNR) inhibition, endoplasmic reticulum stress induction, and regulation of other cancer signaling pathways. Their ability to moderately inhibit R2 RNR protein in the presence of dithiothreitol is likely related to Fe chelating properties of the proligands liberated upon reduction.

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Blanco-Cabra, N., Vega-Granados, K., Moya-Andérico, L., Vukomanovic, M., Parra, A., Álvarez De Cienfuegos, L., Torrents, E., (2019). Novel oleanolic and maslinic acid derivatives as a promising treatment against Bacterial biofilm in nosocomial infections: An in vitro and in vivo study ACS Infectious Diseases 5, (9), 1581-1589

Oleanolic acid (OA) and maslinic acid (MA) are pentacyclic triterpenic compounds that abound in industrial olive oil waste. These compounds have renowned antimicrobial properties and lack cytotoxicity in eukaryotic cells as well as resistance mechanisms in bacteria. Despite these advantages, their antimicrobial activity has only been tested in vitro, and derivatives improving this activity have not been reported. In this work, a set of 14 OA and MA C-28 amide derivatives have been synthesized. Two of these derivatives, MA-HDA and OA-HDA, increase the in vitro antimicrobial activity of the parent compounds while reducing their toxicity in most of the Gram-positive bacteria tested, including a methicillin-resistant Staphylococcus aureus-MRSA. MA-HDA also shows an enhanced in vivo efficacy in a Galleria mellonella invertebrate animal model of infection. A preliminary attempt to elucidate their mechanism of action revealed that these compounds are able to penetrate and damage the bacterial cell membrane. More significantly, their capacity to reduce antibiofilm formation in catheters has also been demonstrated in two sets of conditions: a static and a more challenged continuous-flow S. aureus biofilm.

JTD Keywords: Antibiofilm, Galleria mellonella, In vitro and in vivo antimicrobials, Maslinic and oleanolic acids, Natural products, Staphylococcus aureus


Cendra, Maria del Mar, Blanco-Cabra, Núria, Pedraz, Lucas, Torrents, Eduard, (2019). Optimal environmental and culture conditions allow the in vitro coexistence of Pseudomonas aeruginosa and Staphylococcus aureus in stable biofilms Scientific Reports 9, (1), 16284

The coexistence between species that occurs in some infections remains hard to achieve in vitro since bacterial fitness differences eventually lead to a single organism dominating the mixed culture. Pseudomonas aeruginosa and Staphylococcus aureus are major pathogens found growing together in biofilms in disease-affected lungs or wounds. Herein, we tested and analyzed different culture media, additives and environmental conditions to support P. aeruginosa and S. aureus coexistence in vitro. We have unraveled the potential of DMEM to support the growth of these two organisms in mature cocultured biofilms (three days old) in an environment that dampens the pH rise. Our conditions use equal initial inoculation ratios of both strains and allow the stable formation of separate S. aureus microcolonies that grow embedded in a P. aeruginosa biofilm, as well as S. aureus biofilm overgrowth when bovine serum albumin is added to the system. Remarkably, we also found that S. aureus survival is strictly dependent on a well-characterized phenomenon of oxygen stratification present in the coculture biofilm. An analysis of differential tolerance to gentamicin and ciprofloxacin treatment, depending on whether P. aeruginosa and S. aureus were growing in mono- or coculture biofilms, was used to validate our in vitro coculture conditions.

JTD Keywords: Applied microbiology, Biofilms


Lozano, Helena, Fabregas, Rene, Blanco, Núria, Millán, Rubén, Torrents, Eduard, Fumagalli, Laura, Gomila, Gabriel, (2018). Dielectric constant of flagellin proteins measured by scanning dielectric microscopy Nanoscale 10, 19188-19194

The dielectric constant of flagellin proteins in flagellar bacterial filaments ~10-20 nm in diameter is measured using Scanning Dielectric Microscopy. We obtain for two different bacterial species (Shewanella oneidensis MR-1 and Pseudo-monas aeruginosa PAO1) similar relative dielectric constant values εSo = 4.3 ± 0.6 and εPa = 4.5 ± 0.7, respectively, despite their different structure and aminoacid sequence. Present results show the applicability of Scanning Dielectric Microscopy to nanoscale filamentous protein complexes, and to general 3D macromolecular protein geometries, thus opening new avenues to study the relationship between dielectric response and protein structure and function.

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Basas, Jana, Palau, Marta, Ratia, Carlos, Luis Del Pozo, José, Martín-Gómez, María Teresa, Gomis, Xavier, Torrents, Eduard, Almirante, Benito, Gavaldà, Joan, (2018). High-dose daptomycin is effective as an antibiotic-lock therapy in a rabbit model of Staphylococcus epidermidis catheter-related infection Antimicrobial Agents and Chemotherapy 62, (2), e01777

Long-term catheter-related bloodstream infections (CRBSI) involving coagulase-negative Staphylococci are associated with poor patient outcomes, increased hospitalization and high treatment costs. The use of vancomycin-lock therapy has been an important step forward to treat these biofilms although failures appear in 20% of patients. In this study, we report that a high dose of daptomycin-lock therapy may offer a therapeutic advantage for these CRBSI in just 24 h of treatment.

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Urrea, L., Segura, Miriam, Masuda-Suzukake, M., Hervera, A., Pedraz, L., Aznar, J. M. G., Vila, M., Samitier, J., Torrents, E., Ferrer, Isidro, Gavín, R., Hagesawa, M., Del Río, J. A., (2018). Involvement of cellular prion protein in α-synuclein transport in neurons Molecular Neurobiology 55, (3), 1847-1860

The cellular prion protein, encoded by the gene Prnp, has been reported to be a receptor of β-amyloid. Their interaction is mandatory for neurotoxic effects of β-amyloid oligomers. In this study, we aimed to explore whether the cellular prion protein participates in the spreading of α-synuclein. Results demonstrate that Prnp expression is not mandatory for α-synuclein spreading. However, although the pathological spreading of α-synuclein can take place in the absence of Prnp, α-synuclein expanded faster in PrPC-overexpressing mice.

JTD Keywords: Amyloid spreading, Microfluidic devices, Prnp, Synuclein


Crespo, Anna, Blanco-Cabra, N., Torrents, Eduard, (2018). Aerobic vitamin B12 biosynthesis is essential for pseudomonas aeruginosa class II ribonucleotide reductase activity during planktonic and biofilm growth Frontiers in Microbiology 9, (986), Article 986

P. aeruginosa is a major pathogenic bacterium in chronic infections and is a model organism for studying biofilms. P. aeruginosa is considered an aerobic bacterium, but in the presence of nitrate, it also grows in anaerobic conditions. Oxygen diffusion through the biofilm generates metabolic and genetic diversity in P. aeruginosa growth, such as in ribonucleotide reductase activity. These essential enzymes are necessary for DNA synthesis and repair. Oxygen availability determines the activity of the three-ribonucleotide reductase (RNR) classes. Class II and III RNRs are active in the absence of oxygen; however, class II RNRs, which are important in P. aeruginosa biofilm growth, require a vitamin B12 cofactor for their enzymatic activity. In this work, we elucidated the conditions in which class II RNRs are active due to vitamin B12 concentration constraints (biosynthesis or environmental availability). We demonstrated that increased vitamin B12 levels during aerobic, stationary and biofilm growth activate class II RNR activity. We also established that the cobN gene is essentially responsible for B12 biosynthesis under planktonic and biofilm growth. Our results unravel the mechanisms of dNTP synthesis by P. aeruginosa during biofilm growth, which appear to depend on the bacterial strain (laboratory-type or clinical isolate).

JTD Keywords: Vitamin B12, Adenosylcobalamin, Ribonucleotide Reductases, Pseudomonas aeruginosa, NrdJ, Bacterial growth, Biofilm,Anaerobiosis


Pujol, E., Blanco-Cabra, N., Julián, E., Leiva, R., Torrents, E., Vázquez, S., (2018). Pentafluorosulfanyl-containing triclocarban analogs with potent antimicrobial activity Molecules 23, (11), 2853

Concerns have been raised about the long-term accumulating effects of triclocarban, a polychlorinated diarylurea widely used as an antibacterial soap additive, in the environment and in human beings. Indeed, the Food and Drug Administration has recently banned it from personal care products. Herein, we report the synthesis, antibacterial activity and cytotoxicity of novel N,N′-diarylureas as triclocarban analogs, designed by reducing one or more chlorine atoms of the former and/or replacing them by the novel pentafluorosulfanyl group, a new bioisostere of the trifluoromethyl group, with growing importance in drug discovery. Interestingly, some of these pentafluorosulfanyl-bearing ureas exhibited high potency, broad spectrum of antimicrobial activity against Gram-positive bacterial pathogens, and high selectivity index, while displaying a lower spontaneous mutation frequency than triclocarban. Some lines of evidence suggest a bactericidal mode of action for this family of compounds.

JTD Keywords: Antibacterial, Gram-positive, N,N'-diarylureas, Pentafluorosulfanyl, Staphylococcus aureus, Triclocarban


Miret-Casals, L., Baelo, A., Julián, E., Astola, J., Lobo-Ruiz, A., Albericio, F., Torrents, E., (2018). Hydroxylamine derivatives as a new paradigm in the search of antibacterial agents ACS Omega 3, (12), 17057-17069

Serious infections caused by bacteria that are resistant to commonly used antibiotics have become a major global healthcare problem in the 21st century. Multidrug-resistant bacteria causing severe infections mainly grow in complex bacterial communities known as biofilms, in which bacterial resistance to antibacterial agents and to the host immune system is strengthened. As drug resistance is becoming a threatening problem, it is necessary to develop new antimicrobial agents with novel mechanisms of action. Here, we designed and synthesized a small library of N-substituted hydroxylamine (N-HA) compounds with antibacterial activity. These compounds, acting as radical scavengers, inhibit the bacterial ribonucleotide reductase (RNR) enzyme. RNR enzyme is essential for bacterial proliferation during infection, as it provides the building blocks for DNA synthesis and repair. We demonstrate the broad antimicrobial effect of several drug candidates against a variety of Gram-positive and Gram-negative bacteria, together with low toxicity toward eukaryotic cells. Furthermore, the most promising compounds can reduce the biomass of an established biofilm on Pseudomonas aeruginosa, Staphylococcus aureus, and Escherichia coli. This study settles the starting point to develop new N-hydroxylamine compounds as potential effective antibacterial agents to fight against drug-resistant pathogenic bacteria.

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Crespo, Anna, Pedraz, Lucas, Van Der Hofstadt, Marc, Gomila, Gabriel, Torrents, Eduard, (2017). Regulation of ribonucleotide synthesis by the Pseudomonas aeruginosa two-component system AlgR in response to oxidative stress Scientific Reports 7, (1), 17892

Ribonucleotide reductases (RNR) catalyze the last step of deoxyribonucleotide synthesis, and are therefore essential to DNA-based life. Three forms of RNR exist: classes I, II, and III. While eukaryotic cells use only class Ia RNR, bacteria can harbor any combination of classes, granting them adaptability. The opportunistic pathogen Pseudomonas aeruginosa surprisingly encodes all three classes, allowing it to thrive in different environments. Here we study an aspect of the complex RNR regulation whose molecular mechanism has never been elucidated, the well-described induction through oxidative stress, and link it to the AlgZR two-component system, the primary regulator of the mucoid phenotype. Through bioinformatics, we identify AlgR binding locations in RNR promoters, which we characterize functionally through EMSA and physically through AFM imaging. Gene reporter assays in different growth models are used to study the AlgZR-mediated control on the RNR network under various environmental conditions and physiological states. Thereby, we show that the two-component system AlgZR, which is crucial for bacterial conversion to the mucoid phenotype associated with chronic disease, controls the RNR network and directs how the DNA synthesis pathway is modulated in mucoid and non-mucoid biofilms, allowing it to respond to oxidative stress.

JTD Keywords: Bacterial genes, Bacteriology, Pathogens


Crespo, A., Gavaldà, J., Julián, E., Torrents, E., (2017). A single point mutation in class III ribonucleotide reductase promoter renders Pseudomonas aeruginosa PAO1 inefficient for anaerobic growth and infection Scientific Reports 7, (1), 13350

Pseudomonas aeruginosa strain PAO1 has become the reference strain in many laboratories. One enzyme that is essential for its cell division is the ribonucleotide reductase (RNR) enzyme that supplies the deoxynucleotides required for DNA synthesis and repair. P. aeruginosa is one of the few microorganisms that encodes three different RNR classes (Ia, II and III) in its genome, enabling it to grow and adapt to diverse environmental conditions, including during infection. In this work, we demonstrate that a lack of RNR activity induces cell elongation in P. aeruginosa PAO1. Moreover, RNR gene expression during anaerobiosis differs among P. aeruginosa strains, with class III highly expressed in P. aeruginosa clinical isolates relative to the laboratory P. aeruginosa PAO1 strain. A single point mutation was identified in the P. aeruginosa PAO1 strain class III RNR promoter region that disrupts its anaerobic transcription by the Dnr regulator. An engineered strain that induces the class III RNR expression allows P. aeruginosa PAO1 anaerobic growth and increases its virulence to resemble that of clinical strains. Our results demonstrate that P. aeruginosa PAO1 is adapted to laboratory conditions and is not the best reference strain for anaerobic or infection studies.

JTD Keywords: Bacterial genes, Cellular microbiology, Pathogens


Morer, A., Basas, J., Colominas, S., Ratia, C., Gomis, X., Abellà, J., Torrents, E., Larrosa, N., Almirante, B., Gavaldà, J., (2017). Actividad de la electrólisis con corriente eléctrica directa continua de bajo amperaje en infecciones por biopelículas y por microorganismos XDR Gram-negativos Enfermedades Infecciosas y Microbiología Clínica XXI Congreso de la Sociedad Española de Enfermedades Infecciosas y Microbiología Clínica (SEIMC) , Elsevier (Málaga, Spain) 35, (Espec. Cong. 1), 41

Necesitamos nuevas estrategias para combatir la resistencia a los antibióticos. Las infecciones crónicas asociadas con dispositivos médicos se asocian con una morbimortalidad significativa. Nuestro objetivo fue desarrollar una nueva estrategia frente a infecciones productoras de biopelículas y aquellas producidas por microorganismos gramnegativos XDR mediante el uso de una corriente eléctrica directa continua de bajo amperaje (CD). Esta estrategia se evaluó en presencia de suero fisiológico como electrolito para aproximarse a la situación in vivo.

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Basas, J., Morer, A., Ratia, C., Rojo, E., Larrosa, N., Oliver, A., Cantón, R., Ferrer, R., Gomis, X., Grau, S., Vima, J., Torrents, E., Almirante, B., Gavaldà, J., (2017). Eficacia in vitro e in vivo de distintas combinaciones antibióticas para el tratamiento nebulizado de neumonía aguda frente a clones de alto riesgo de Pseudomonas aeruginosa. Enfermedades Infecciosas y Microbiología Clínica Enfermedades Infecciosas y Microbiología Clínica XXI Congreso de la Sociedad Española de Enfermedades Infecciosas y Microbiología Clínica (SEIMC) , Elsevier (Málaga, Spain) 35, (Espec. Cong. 1), 126

El tratamiento de las infecciones respiratorias por cepas extremadamente resistentes (XDR) de P. aeruginosa (sólo sensibles a colistina/amikacina) es complicado, en ocasiones ineficaz y/o nefrotóxico. La nebulización con antibióticos parece una estrategia terapéutica adecuada frente a ese tipo de infecciones.

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D'Auria, Giuseppe, Torrents, Eduard, Luquin, Marina, Comas, Iñaki, Julián, Esther, (2016). Draft genome sequence of Mycobacterium brumae ATCC 51384 Genome Announcements , 4, (2), e00237-16

Here, we report the draft genome sequence of Mycobacterium brumae type strain ATCC 51384. This is the first draft genome sequence of M. brumae, a nonpathogenic, rapidly growing, nonchromogenic mycobacterium, with immunotherapeutic capacities.

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Noguera-Ortega, Estela, Secanella-Fandos, Silvia, Eraña, Hasier, Gasión, Jofre, Rabanal, Rosa M., Luquin, Marina, Torrents, Eduard, Julián, Esther, (2016). Nonpathogenic Mycobacterium brumae inhibits bladder cancer growth in vitro, ex vivo, and in vivo European Urology Focus , 2, (1), 67-76

Background Bacillus Calmette-Guérin (BCG) prevents tumour recurrence and progression in non–muscle-invasive bladder cancer (BC). However, common adverse events occur, including BCG infections. Objective To find a mycobacterium with similar or superior antitumour activity to BCG but with greater safety. Design In vitro, ex vivo, and in vivo comparisons of the antitumour efficacy of nonpathogenic mycobacteria and BCG. Intervention The in vitro antitumour activity of a broad set of mycobacteria was studied in seven different BC cell lines. The most efficacious was selected and its ex vivo capacity to activate immune cells and its in vivo antitumour activity in an orthotopic murine model of BC were investigated. Outcome measurements and statistical analysis Growth inhibition of BC cells was the primary outcome measurement. Parametric and nonparametric tests were use to analyse the in vitro results, and a Kaplan-Meier test was applied to measure survival in mycobacteria-treated tumour-bearing mice. Results and limitations Mycobacterium brumae is superior to BCG in inhibiting low-grade BC cell growth, and has similar effects to BCG against high-grade cells. M. brumae triggers an indirect antitumour response by activating macrophages and the cytotoxic activity of peripheral blood cells against BC cells. Although no significant differences were observed between BCG and M. brumae treatments in mice, M. brumae treatment prolonged survival in comparison to BCG treatment in tumour-bearing mice. In contrast to BCG, M. brumae does not persist intracellularly or in tumour-bearing mice, so the risk of infection is lower. Conclusions Our preclinical data suggest that M. brumae represents a safe and efficacious candidate as a therapeutic agent for non–muscle-invasive BC. Patient summary We investigated the antitumour activity of nonpathogenic mycobacteria in in vitro and in vivo models of non–muscle-invasive bladder cancer. We found that Mycobacterium brumae effectively inhibits bladder cancer growth and helps the host immune system to eradicate cancer cells, and is a promising agent for antitumour immunotherapy.

JTD Keywords: Animal models, Bacillus Calmette-Guérin, Cytokines, Immunomodulation, Immunotherapy, Mycobacteria, Urothelial cell line


Noguera-Ortega, E., Rabanal, R. M., Secanella-Fandos, S., Torrents, E., Luquin, M., Julián, E., (2016). Gamma-irradiated mycobacteria enhance survival in bladder tumor bearing mice although less efficaciously than live mycobacteria Journal of Urology , 195, (1), 198-205

Purpose γ Irradiated Mycobacterium bovis bacillus Calmette-Guérin has shown in vitro and ex vivo antitumor activity. However, to our knowledge the potential antitumor capacity has not been demonstrated in vivo. We studied the in vivo potential of γ irradiated bacillus Calmette-Guérin and γ irradiated M. brumae, a saprophytic mycobacterium that was recently described as an immunotherapeutic agent. Materials and Methods The antitumor capacity of γ irradiated M. brumae was first investigated by analyzing the in vitro inhibition of bladder tumor cell proliferation and the ex vivo cytotoxic effect of M. brumae activated peripheral blood cells. The effect of γ irradiated M. brumae or bacillus Calmette-Guérin intravesical treatment was then compared to treatment with live mycobacteria in the orthotopic murine model of bladder cancer. Results Nonviable M. brumae showed a capacity to inhibit in vitro bladder cancer cell lines similar to that of live mycobacteria. However, its capacity to induce cytokine production was decreased compared to that of live M. brumae. γ Irradiated M. brumae could activate immune cells to inhibit tumor cell growth, although to a lesser extent than live mycobacteria. Finally, intravesical treatment with γ irradiated M. brumae or bacillus Calmette-Guérin significantly increased survival with respect to that of nontreated tumor bearing mice. Both γ irradiated mycobacteria showed lower survival rates than those of live mycobacteria but the minor efficacy of γ irradiated vs live mycobacteria was only significant for bacillus Calmette-Guérin. Conclusions Our results show that although γ irradiated mycobacteria is less efficacious than live mycobacteria, it induces an antitumor effect in vivo, avoiding the possibility of further mycobacterial infections.

JTD Keywords: BCG vaccine, Gamma rays, Immunotherapy, Mycobacterium, Urinary bladder neoplasms


Basas, J., Morer, A., Ratia, C., Martín, M.T., del Pozo, J.L., Gomis, X., Rojo-Molinero, E., Torrents, E., Almirante, B., Gavaldà, J., (2016). Efficacy of anidulafungin in the treatment of experimental Candida parapsolosis catheter infection Journal of Antimicrobial Chemotherapy , 71, (10), 2895-2901

Objectives The effectiveness of anidulafungin versus liposomal amphotericin B (LAmB) for treating experimental Candida parapsilosis catheter-related infection by an antifungal-lock technique was assessed. Methods Two clinical strains of C. parapsilosis (CP12 and CP54) were studied. In vitro studies were used to determine the biofilm MICs (MBIC50 and MBIC90) by XTT reduction assay and LIVE/DEAD biofilm viability for anidulafungin and LAmB on 96-well microtitre polystyrene plates and silicone discs. An intravenous catheter was implanted in New Zealand white rabbits. Infection was induced by locking the catheter for 48 h with the inoculum. The 48 h antifungal-lock treatment groups included control, 3.3 mg/mL anidulafungin and 5.5 mg/mL LAmB. Results Anidulafungin showed better in vitro activity than LAmB against C. parapsilosis growing in biofilm on silicone discs. MBIC90 of LAmB: CP12, >1024 mg/L; CP54, >1024 mg/L. MBIC90 of anidulafungin: CP12, 1 mg/L; CP54, 1 mg/L (P ≤ 0.05). Moreover, only anidulafungin (1 mg/L) showed >90% non-viable cells in the LIVE/DEAD biofilm viability assay on silicone discs. No differences were observed between the in vitro susceptibility of anidulafungin or LAmB when 96-well plates were used. Anidulafungin achieved significant reductions relative to LAmB in log10 cfu recovered from the catheter tips for both strains (P ≤ 0.05). Only anidulafungin achieved negative catheter tip cultures (CP12 63%, CP54 73%, P ≤ 0.05). Conclusions Silicone discs may be a more reliable substrate for the study of in vitro biofilm susceptibility of C. parapsilosis. Anidulafungin-lock therapy showed the highest activity for experimental catheter-related infection with C. parapsilosis.

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Noguera-Ortega, E., Blanco-Cabra, N., Rabanal, R.M., Sanchez-Chardi, A., Roldán, M., Torrents, E., Luquin, M., Julián, E., (2016). Mycobacteria emulsified in olive oil-in-water trigger a robust immune response in bladder cancer treatment Scientific Reports 6, 27232

The hydrophobic composition of mycobacterial cell walls leads to the formation of clumps when attempting to resuspend mycobacteria in aqueous solutions. Such aggregation may interfere in the mycobacteria-host cells interaction and, consequently, influence their antitumor effect. To improve the immunotherapeutic activity of Mycobacterium brumae, we designed different emulsions and demonstrated their efficacy. The best formulation was initially selected based on homogeneity and stability. Both olive oil (OO)- and mineral oil-in-water emulsions better preserved the mycobacteria viability and provided higher disaggregation rates compared to the others. But, among both emulsions, the OO emulsion increased the mycobacteria capacity to induce cytokines’ production in bladder tumor cell cultures. The OO-mycobacteria emulsion properties: less hydrophobic, lower pH, more neutralized zeta potential, and increased affinity to fibronectin than non-emulsified mycobacteria, indicated favorable conditions for reaching the bladder epithelium in vivo. Finally, intravesical OO-M. brumae-treated mice showed a significantly higher systemic immune response, together with a trend toward increased tumor-bearing mouse survival rates compared to the rest of the treated mice. The physicochemical characteristics and the induction of a robust immune response in vitro and in vivo highlight the potential of the OO emulsion as a good delivery vehicle for the mycobacterial treatment of bladder cancer.

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Crespo, Anna, Pedraz, Lucas, Astola, Josep, Torrents, Eduard, (2016). Pseudomonas aeruginosa exhibits deficient biofilm formation in the absence of class II and III ribonucleotide reductases due to hindered anaerobic growth Frontiers in Microbiology 7, Article 688

Chronic lung infections by the ubiquitous and extremely adaptable opportunistic pathogen Pseudomonas aeruginosa correlate with the formation of a biofilm, where bacteria grow in association with an extracellular matrix and display a wide range of changes in gene expression and metabolism. This leads to increased resistance to physical stress and antibiotic therapies, while enhancing cell-to-cell communication. Oxygen diffusion through the complex biofilm structure generates an oxygen concentration gradient, leading to the appearance of anaerobic microenvironments. Ribonucleotide reductases (RNRs) are a family of highly sophisticated enzymes responsible for the synthesis of the deoxyribonucleotides, and they constitute the only de novo pathway for the formation of the building blocks needed for DNA synthesis and repair. P. aeruginosa is one of the few bacteria encoding all three known RNR classes (Ia, II, and III). Class Ia RNRs are oxygen dependent, class II are oxygen independent, and class III are oxygen sensitive. A tight control of RNR activity is essential for anaerobic growth and therefore for biofilm development. In this work we explored the role of the different RNR classes in biofilm formation under aerobic and anaerobic initial conditions and using static and continuous-flow biofilm models. We demonstrated the importance of class II and III RNR for proper cell division in biofilm development and maturation. We also determined that these classes are transcriptionally induced during biofilm formation and under anaerobic conditions. The molecular mechanism of their anaerobic regulation was also studied, finding that the Anr/Dnr system is responsible for class II RNR induction. These data can be integrated with previous knowledge about biofilms in a model where these structures are understood as a set of layers determined by oxygen concentration and contain cells with different RNR expression profiles, bringing us a step closer to the understanding of this complex growth pattern, essential for P. aeruginosa chronic infections.

JTD Keywords: Pseudomonas aeruginosa, Ribonucleotide Reductases, Vitamin B 12, Anaerobic metabolism, Biofilm formation, DNA Synthesis, Oxygen diffusion, nrd genes.


Baelo, Aida, Julián, Esther, Torrents, Eduard, (2016). Methyl-hydroxylamine specifically inhibits ribonucleotide reductase activity in pathogenic bacteria New Biotechnology Biotech Annual Congress (BAC 2015) , Elsevier (Salamanca, Spain) 33, (3), 417

Infectious diseases constitute a tenacious and major public-health problem all over the world; the emergence and increasing prevalence of multi-drug resistant bacteria demand the discovery of new therapeutic approaches. Bacterial DNA synthesis opens new horizons in the discovery of new antibacterial targets due to remarkable differences to the eukaryotic system. During the course of an infection, a great number of bacteria need to multiply inside the body and, for that, active DNA synthesis with a balanced supply of deoxyribonucleotides (dNTPs) is required. RiboNucleotide Reductase (RNR) is the key enzyme that provides the nucleotide precursors for DNA replication and repair. This enzyme is a suitable target candidate for bacterial growth inhibition. In this work we have firstly identified the radical scavenger methyl-hydroxylamine (M-HA) as an efficacious antimicrobial agent that inhibits gram-negative and gram-positive pathogenic bacteria, targeting the RNR enzyme. Later, we have focused our work studying the ability of M-HA to inhibit the intracellular growth of Mycobacteria in macrophages, and the formation of Pseudomonas aeruginosa biofilms.

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Pedraz, Lucas, Crespo, Anna, Torrents, Eduard, (2016). A single transcription factor behind all bacterial dNTP synthesis revealed as a novel antimicrobial target New Biotechnology Biotech Annual Congress (BAC 2015) , Elsevier (Salamanca, Spain) 33, (3), 410

Nowadays, the fear of infectious diseases is again increasing. Antibiotic-resistant bacterial strains are appearing worldwide, and so there is an urgent need to develop new antimicrobial drugs. Ribonucleotide Reductases (RNRs) are essential enzymes that catalyse the reduction of ribonucleotides (NTPs) to their corresponding deoxyribonucleotides (dNTPs), thereby forming the building blocks for DNA synthesis and repair. A drug able to inhibit bacterial Ribonucleotide Reductase activity would completely inhibit bacterial growth. Behind bacterial Ribonucleotide Reductase activity there is a complex regulon; although eukaryotic cells codify only for one RNR enzyme, bacteria can use three different RNR classes, granting them a huge adaptability. Pseudomonas aeruginosa is a major human opportunistic pathogen, causing severe lung chronic infections in cystic fibrosis and COPD patients. It codifies for all three RNR classes, in a complex regulon necessary for its adaptability and virulence. The main focus of this work is a transcription factor, called NrdR, which is present in almost all bacterial species, and completely absent in eukaryotic organisms. This factor acts as a central regulator of all RNR enzymes in bacteria, hence being behind all dNTP synthesis. We have studied how NrdR regulates RNR activity in P. aeruginosa, being able to this point to propose a first model of the NrdR regulon, and being a step closer to new antimicrobial therapies.

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Julián, E., Rabanal, R. M., Secanella-Fandos, S., Torrents, E., Luquin, M., Noguera-Ortega, E., (2016). Eficacia de micobacterias Gamma-irradiadas en el tratamiento de cancer vesical no-músculo invasivo Enfermedades Infecciosas y Microbiología Clínica XX Congreso de la Sociedad Española de Enfermedades Infecciosas y Microbiología Clínica (SEIMC) , Elsevier (Barcelona, Spain) 34, (SE1), 229

Las micobacterias son las únicas bacterias utilizadas en el tratamiento del cáncer. Concretamente Mycobacterium bovis BCG se instila intravesicalmente en pacientes de cáncer vesical no-músculo invasivo, tras la resección del tumor, con el fin de evitar recidivas. A pesar de su eficacia, BCG presenta numerosos efectos adversos, entre ellos casos de infección por BCG. En nuestro laboratorio hemos desarrollado dos estrategias para evitar el riesgo de infección. Por un lado, hemos mostrado la capacidad antitumoral in vitro de BCG muerta mediante gamma-irradiación. Por otro lado, hemos demostrado la capacidad antitumoral de Mycobacterium brumae viva, tanto en modelos in vitro como en el modelo animal de la enfermedad. Aun así, se desconoce el potencial antitumoral de estas micobacterias irradiadas in vivo, y si su eficacia es comparable. El objetivo fue evaluar la capacidad antitumoral de BCG y M. brumae gamma-irradiadas en el modelo murino de cáncer vesical.

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Torrents, E., Baelo, Aida, Levato, R., Julián, E., Crespo, Anna, Astola, Josep, Gavaldà, J., Engel, E., Mateos-Timoneda, M.A., (2016). Mejora en la administración antibiotic para el tratamiento de infecciones en forma de biofilm con el uso de nanopartículas que disgregan la matriz extracellular Enfermedades Infecciosas y Microbiología Clínica XX Congreso de la Sociedad Española de Enfermedades Infecciosas y Microbiología Clínica (SEIMC) , Elsevier (Barcelona, Spain) 34, (SE1), 31

Las infecciones causadas por bacterias formadoras de biopelículas o biofilms son una amenaza importante para los pacientes hospitalizados y suponen la principal causa de infecciones crónicas, como las producidas en la enfermedad pulmonar obstructiva crónica (EPOC) y la fibrosis quística. Existe una necesidad urgente de desarrollar nuevos antibióticos o nuevos enfoques terapéuticos que permitan el tratamiento de este tipo de infecciones ya que los antibióticos convencionales no logran eliminar las bacterias que están formando biofilms

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Baelo, Aida, Levato, Riccardo, Julián, Esther, Crespo, Anna, Astola, José, Gavaldà, Joan, Engel, Elisabeth, Mateos-Timoneda, Miguel Angel, Torrents, Eduard, (2015). Disassembling bacterial extracellular matrix with DNase-coated nanoparticles to enhance antibiotic delivery in biofilm infections Journal of Controlled Release 209, 150-158

Abstract Infections caused by biofilm-forming bacteria are a major threat to hospitalized patients and the main cause of chronic obstructive pulmonary disease and cystic fibrosis. There is an urgent necessity for novel therapeutic approaches, since current antibiotic delivery fails to eliminate biofilm-protected bacteria. In this study, ciprofloxacin-loaded poly(lactic-co-glycolic acid) nanoparticles, which were functionalized with DNase I, were fabricated using a green-solvent based method and their antibiofilm activity was assessed against Pseudomonas aeruginosa biofilms. Such nanoparticles constitute a paradigm shift in biofilm treatment, since, besides releasing ciprofloxacin in a controlled fashion, they are able to target and disassemble the biofilm by degrading the extracellular DNA that stabilize the biofilm matrix. These carriers were compared with free-soluble ciprofloxacin, and ciprofloxacin encapsulated in untreated and poly(lysine)-coated nanoparticles. DNase I-activated nanoparticles were not only able to prevent biofilm formation from planktonic bacteria, but they also successfully reduced established biofilm mass, size and living cell density, as observed in a dynamic environment in a flow cell biofilm assay. Moreover, repeated administration over three days of DNase I-coated nanoparticles encapsulating ciprofloxacin was able to reduce by 95% and then eradicate more than 99.8% of established biofilm, outperforming all the other nanoparticle formulations and the free-drug tested in this study. These promising results, together with minimal cytotoxicity as tested on J774 macrophages, allow obtaining novel antimicrobial nanoparticles, as well as provide clues to design the next generation of drug delivery devices to treat persistent bacterial infections.

JTD Keywords: Pseudomonas aeruginosa, Biofilm, Ciprofloxacin, DNase I, Nanoparticles


Dreux, Nicolas, Cendra, Maria del Mar, Massier, Sébastien, Darfeuille-Michaud, Arlette, Barnich, Nicolas, Torrents, Eduard, (2015). Ribonucleotide reductase NrdR as a novel regulator for motility and chemotaxis during adherent-invasive Escherichia coli infection Infection and Immunity , 83, (4), 1305-1317

A critical step in the life cycle of all organisms is the duplication of the genetic material during cell division. Ribonucleotide reductases (RNRs) are essential enzymes for this step because they control the de novo production of the deoxyribonucleotides required for DNA synthesis and repair. Enterobacteriaceae have three functional classes of RNRs (Ia, Ib and III), which are transcribed from separate operons and encoded, respectively by the genes nrdAB, nrdHIEF and nrdDG. Here, we investigated the role of RNRs in the virulence of adherent-invasive E. coli (AIEC) isolated from Crohn's disease (CD) patients. Interestingly, the LF82 strain of AIEC harbors four different RNRs (two class Ia, one class Ib and one class III). Although the E. coli RNR enzymes have been extensively characterized both biochemically and enzymatically, little is known about their roles during bacterial infection. We found that RNR expression was modified in AIEC LF82 bacteria during cell infection, suggesting that RNRs play an important role in AIEC virulence. Knockout of the nrdR and nrdD genes, which encodes a transcriptional regulator of RNRs and class III anaerobic RNR respectively, decreased AIEC LF82's ability to colonize the gut mucosa of transgenic mice that express human CEACAM6 (carcinoembryonic antigen-related cell-adhesion molecule 6). Microarray experiments demonstrated that NrdR plays an indirect role in AIEC virulence by interfering with bacterial motility and chemotaxis. Thus, the development of drugs targeting RNR classes, in particular NrdR and NrdD, could be a promising new strategy to control gut colonization by AIEC bacteria in CD patients.

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Barreiros dos Santos, M., Azevedo, S., Agusil, J. P., Prieto-Simón, B., Sporer, C., Torrents, E., Juárez, A., Teixeira, V., Samitier, J., (2015). Label-free ITO-based immunosensor for the detection of very low concentrations of pathogenic bacteria Bioelectrochemistry , 101, 146-152

Abstract Here we describe the fabrication of a highly sensitive and label-free ITO-based impedimetric immunosensor for the detection of pathogenic bacteria Escherichia coli O157:H7. Anti-E. coli antibodies were immobilized onto ITO electrodes using a simple, robust and direct methodology. First, the covalent attachment of epoxysilane on the ITO surface was demonstrated by Atomic Force Microscopy and cyclic voltammetry. The immobilization of antibody on the epoxysilane layer was quantified by Optical Waveguide Lightmode Spectroscopy, obtaining a mass variation of 12 ng cm− 2 (0.08 pmol cm− 2). Microcontact printing and fluorescence microscopy were used to demonstrate the specific binding of E. coli O157:H7 to the antibody-patterned surface. We achieved a ratio of 1:500 Salmonella typhimurium/E. coli O157:H7, thus confirming the selectivity of the antibodies and efficiency of the functionalization procedure. Finally, the detection capacity of the ITO-based immunosensor was evaluated by Electrochemical Impedance Spectroscopy. A very low limit of detection was obtained (1 CFU mL− 1) over a large linear working range (10–106 CFU mL− 1). The specificity of the impedimetric immunosensor was also examined. Less than 20% of non-specific bacteria (S. typhimurium and E. coli K12) was observed. Our results reveal the applicability of ITO for the development of highly sensitive and selective impedimetric immunosensors.

JTD Keywords: E. coli O157:H7, Electrochemical Impedance Spectroscopy, Immunosensor, Indium tin oxide, Label-free detection


Crespo, A., Pedraz, L., Torrents, E., (2015). Function of the Pseudomonas aeruginosa NrdR transcription factor: Global transcriptomic analysis and its role on ribonucleotide reductase gene expression PLoS ONE 10, (4), e0123571

Ribonucleotide reductases (RNRs) are a family of sophisticated enzymes responsible for the synthesis of the deoxyribonucleotides (dNTPs), the building blocks for DNA synthesis and repair. Although any living cell must contain one RNR activity to continue living, bacteria have the capacity to encode different RNR classes in the same genome, allowing them to adapt to different environments and growing conditions. Pseudomonas aeruginosa is well known for its adaptability and surprisingly encodes all three known RNR classes (Ia, II and III). There must be a complex transcriptional regulation network behind this RNR activity, dictating which RNR class will be expressed according to specific growing conditions. In this work, we aim to uncover the role of the transcriptional regulator NrdR in P. aeruginosa. We demonstrate that NrdR regulates all three RNR classes, being involved in differential control depending on whether the growth conditions are aerobic or anaerobic. Moreover, we also identify for the first time that NrdR is not only involved in controlling RNR expression but also regulates topoisomerase I (topA) transcription. Finally, to obtain the entire picture of NrdR regulon, we performed a global transcriptomic analysis comparing the transcription profile of wild-type and nrdR mutant strains. The results provide many new data about the regulatory network that controls P. aeruginosa RNR transcription, bringing us a step closer to the understanding of this complex system.

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Julián, E., Baelo, A., Gavaldà, J., Torrents, E., (2015). Methyl-hydroxylamine as an efficacious antibacterial agent that targets the ribonucleotide reductase enzyme PLoS ONE 10, (3), e0122049

The emergence of multidrug-resistant bacteria has encouraged vigorous efforts to develop antimicrobial agents with new mechanisms of action. Ribonucleotide reductase (RNR) is a key enzyme in DNA replication that acts by converting ribonucleotides into the corresponding deoxyribonucleotides, which are the building blocks of DNA replication and repair. RNR has been extensively studied as an ideal target for DNA inhibition, and several drugs that are already available on the market are used for anticancer and antiviral activity. However, the high toxicity of these current drugs to eukaryotic cells does not permit their use as antibacterial agents. Here, we present a radical scavenger compound that inhibited bacterial RNR, and the compound's activity as an antibacterial agent together with its toxicity in eukaryotic cells were evaluated. First, the efficacy of N-methyl-hydroxylamine (M-HA) in inhibiting the growth of different Gram-positive and Gram-negative bacteria was demonstrated, and no effect on eukaryotic cells was observed. M-HA showed remarkable efficacy against Mycobacterium bovis BCG and Pseudomonas aeruginosa. Thus, given the M-HA activity against these two bacteria, our results showed that M-HA has intracellular antimycobacterial activity against BCG-infected macrophages, and it is efficacious in partially disassembling and inhibiting the further formation of P. aeruginosa biofilms. Furthermore, M-HA and ciprofloxacin showed a synergistic effect that caused a massive reduction in a P. aeruginosa biofilm. Overall, our results suggest the vast potential of M-HA as an antibacterial agent, which acts by specifically targeting a bacterial RNR enzyme.

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Barniol-Xicota, M., Escandell, A., Valverde, E., Julián, E., Torrents, E., Vázquez, S., (2015). Antibacterial activity of novel benzopolycyclic amines Bioorganic and Medicinal Chemistry , 23, (2), 290-296

Staphylococcus aureus, especially strains resistant to multiple antibiotics, is a major pathogen for humans and animals. In this paper we have synthesized and evaluated the antibacterial activity of a new series of benzopolycyclic amines. Some of them exhibited μM MIC values against Staphylococcus aureus and other bacteria, including methicillin-resistant S. aureus MRSA. Compound 8 that displayed a good selectivity index, showed to be active in eliminating bacterial cells forming a preexisting biofilm.

JTD Keywords: Antibacterials, Minimal biofilm inhibitory concentration, Polycyclic compounds, Staphylococcus aureus


Jaramillo, Maria del Carmen, Huttener, Mario, Alvarez, Juan Manuel, Homs-Corbera, Antoni, Samitier, Josep, Torrents, Eduard, Juárez, Antonio, (2015). Dielectrophoresis chips improve PCR detection of the food-spoiling yeast Zygosaccharomyces rouxii in apple juice Electrophoresis , 36, (13), 1471-1478

DEP manipulation of cells present in real samples is challenging. We show in this work that an interdigitated DEP chip can be used to trap and wash a population of the food-spoiling yeast Zygosaccharomyces rouxii that contaminates a sample of apple juice. By previously calibrating the chip, the yeast population loaded is efficiently trapped, washed and recovered in a small-volume fraction which, in turn, can be used for efficient PCR detection of this yeast. DEP washing of yeast cells gets rid of PCR inhibitors present in apple juice and facilitates PCR analysis. This and previous works on the use of DEP chips to improve PCR analysis show that a potential use of DEP is to be used as a treatment of real samples prior to PCR.

JTD Keywords: Dielectrophoresis, PCR, Saccharomyces, Yeast


Basas, J., Rojo, E., Gomis, X., Sierra, J.M., Torrents, E., Almirante, B., Gavaldà, J., (2015). Actividad de anidulafungia vs. anfotericina b liposomal frente a C. Parapsilopsis creciendo en biopelículas en distintos materiales Enfermedades Infecciosas y Microbiología Clínica XIX Congreso de la Sociedad Española de Enfermedades Infecciosas y Microbiología Clínica (SEIMC) , Elsevier (Sevilla, Spain) 33, 37

La infección del catéter venoso central está estrechamente relacionada con la capacidad de los microorganismos para producir biopelículas. Existen metodologías distintas para el estudio in vitro de la sensibilidad antibiótica de microorganismos creciendo en biopelículas; con placas de microtitulación (poliestireno) y con diferentes materiales (discos silicona, placas titanio...). Se ha descrito que las especies de Candida crecen con morfologías diferentes dependiendo del sustrato donde se implantan. Por tanto, la elección del material donde crecen las biopelículas podría tener su importancia en los estudios de sensibilidad in vitro. Previamente, en un modelo experimental de infección de catéter por C. parapsilopsis observamos que el sellado con anidulafungina (And) era más eficaz que con anfotericina B liposomal (LAmB). Teniendo en cuenta estas consideraciones el mejor sustrato para valorar la eficacia in vitro sería en discos de silicona (utilizado para la fabricación de catéteres) y no en placas de microtitulación (técnica estándar).

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Torrents, E., (2015). Tratamientos antimicrobianos dirigidos. ¿Es posible la nanomedicina en las enfermedades infecciosas? Enfermedades Infecciosas y Microbiología Clínica XIX Congreso de la Sociedad Española de Enfermedades Infecciosas y Microbiología Clínica (SEIMC) , Elsevier (Sevilla, Spain) 33, 6

A lo largo del siglo XX, los avances en el desarrollo de los antibióticos han jugado un papel de gran importancia en la lucha contra las enfermedades infecciosas. Sin embargo, el uso inadecuado de éstos está conduciendo a la aparición de resistencias a múltiples fármacos (multidrug resistance, MDR) en diversos patógenos. El gran costo y complejidad asociados al descubrimiento de nuevos fármacos agrava la situación, propiciando que un número muy reducido de nuevos antibióticos se haya descubierto en los últimos 40 años. Esta situación provocará, si no se toman acciones para evitarlo, un gran problema de salud pública global durante el siglo XXI. En la última década se ha producido, en cambio, un gran avance en el campo de la nanotecnología, permitiendo el diseño de nanopartículas con propiedades fisicoquímicas deseables para su uso en microbiología. La escala de estas partículas ofrece un gran incremento en su relación superficie/volumen respecto a otras formas de liberación de fármacos, lo que ha permitido reconsiderar el uso de antiguas sustancias antimicrobianas, como la plata, el cobre o el zinc. Las nanopartículas se están así proyectando como una nueva línea de defensa contra los patógenos bacterianos, en especial los multirresistentes. Se comentarán los avances recientes en el diseño de nanopartículas, demostrando el potencial de éstas en la lucha contra las infecciones bacterianas. Igualmente, se comentarán nuevas estrategias, como la combinación diferentes fármacos y/o antibióticos encapsulados en nanopartículas (nanoantibióticos). Por último, explicaremos nuestra propia experiencia en el uso de nanopartículas de PLGA, o ácido poli(láctico-co-glicólico) modificadas, para la lucha contra la bacteria Pseudomonas aeruginosa creciendo en forma de biofilm.

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Cendra, M. M., Torrents, E., (2014). Enzims essencials per a la vida Treballs de la Societat Catalana de Biologia , 65, 64-67

Les ribonucleòtid-reductases (RNR) són enzims essencials per a tota cèllula, perquè fan la transformació dels ribonucleòtids a desoxiribonucleòtids, els quals són necessaris per a la síntesi de l’àcid desoxiribonucleic (DNA). És evident que les RNR són enzims ancestrals i clau en l’evolució del material genètic que hi ha actualment, i són essencials per a l’evolució de tots els organismes que hi ha sobre la Terra. A causa de l’essencialitat de la reacció que fan aquests enzims, es poden considerar una diana ideal per al disseny de compostos que inhibeixen la replicació cel·lular, ja sigui en cèl·lules eucariòtiques (incloent-hi cèl·lules cancerígenes), com agents bacterians infecciosos.

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Oliva, A. M., Homs-Corbera, A., Torrents, E., Juarez, A., Samitier, J., (2014). Synergystic effect of temperature and electric field intensity in Escherichia coli inactivation Micro and Nanosystems , 6, (2), 79-86

Electric Fields are increasingly used to manipulate bacteria. However, there is no systematic and definitive study on how the different electric parameters change bacteria viability. Here we present a study on the effects of electric field intensity and temperature to bacterial cultures. Escherichia coli colonies have been exposed to different electric field intensities at 1MHz during 5 minutes by means of a microfluidic device specially designed for the experiment. From the analysis of the results it is possible to see that Escherichia coli survival rate diminishes when applying field intensities as low as 220V during 5 minutes. Death rates also increase when stronger fields are applied. However, viability of survived bacteria is maintained. Additionally, temperature shows a synergistic effect with voltage. When temperature was increased, results showed a stronger sensitivity of cells to the electric field. Moreover, the expression patterns of Outer Membrane Protein A and Ribosomal Proteins differ in control and treated samples, suggesting changes in bacterial metabolism and structure.

JTD Keywords: E. coli, Electric field, Temperature, Viability


Torrents, Eduard, (2014). Ribonucleotide reductases: Essential Enzymes for bacterial life Frontiers in Cellular and Infection Microbiology , 4, 1-9

Ribonucleotide reductase (RNR) is a key enzyme that mediates the synthesis of deoxyribonucleotides, the DNA precursors, for DNA synthesis in every living cell. This enzyme converts ribonucleotides to deoxyribonucleotides, the building blocks for DNA replication, and repair. Clearly, RNR enzymes have contributed to the appearance of genetic material that exists today, being essential for the evolution of all organisms on Earth. The strict control of RNR activity and dNTP pool sizes is important, as pool imbalances increase mutation rates, replication anomalies, and genome instability. Thus, RNR activity should be finely regulated allosterically and at the transcriptional level. In this review we examine the distribution, the evolution, and the genetic regulation of bacterial RNRs. Moreover, this enzyme can be considered an ideal target for anti-proliferative compounds designed to inhibit cell replication in eukaryotic cells (cancer cells), parasites, viruses, and bacteria.

JTD Keywords: Anaerobiosis, Transcription Factors, Evolution, Gene regulation, Ribonucleotide reductase, DNA Synthesis, NrdR,nrd


Oliva, A. M., Homs, A., Torrents, E., Juarez, A., Samitier, J., (2014). Effect of electric field and temperature in E.Coli viability IFMBE Proceedings XIII Mediterranean Conference on Medical and Biological Engineering and Computing 2013 (ed. Roa Romero, Laura M.), Springer (Seville, Spain) 41, 1833-1836

Electromagnetic Fields are increasingly used to manipulate bacteria. However, there is no systematic and definitive study on how the different electric parameters change bacteria viability. Here we present preliminary data on the effect of electric field intensity and temperature applica- tion. E. Coli colonies have been exposed to different voltages at 1MHz during 5 minutes by means of a custom-made micro- fluidic device. Results show that E.Coli survival rate is already reduced by applying field intensities as low as 220V/cm during 5 minutes. The use of stronger fields resulted in death rates increase also. Viability of survived bacteria was maintained. On the other hand, temperature has shown a synergistic effect with voltage. When temperature is increased results seem to indicate stronger sensitivity of cells to the electric field. It is necessary to continue studying the contribution of other para- meters as intensity, time, frequency or concentration, to study further synergies.

JTD Keywords: E. Coli, Electromagnetic Field, Temperature, Viability


Jaramillo, M. C., Martínez-Duarte, R., Hüttener, M., Renaud, P., Torrents, E., Juárez, A., (2013). Increasing PCR sensitivity by removal of polymerase inhibitors in environmental samples by using dielectrophoresis Biosensors and Bioelectronics 43, (1), 297-303

Dielectrophoresis (DEP) is a powerful tool to manipulate cells and molecules in microfluidic chips. However, few practical applications using DEP exist. An immediate practical application of a carbon-electrode DEP system, in removing PCR inhibitors from a sample, is reported in this work. We use a high throughput carbon-electrode DEP system to trap yeast cells from a natural sample (fermented grape must) and then in situ remove contaminants that interfere with PCR analysis. Retrieval of this enriched and purified yeast population from the DEP system then allows for a significant increase of sensitivity during PCR analysis. Furthermore, the fact that DEP can discriminate between viable and non-viable cells minimizes the number of false positives commonly obtained when using PCR alone. Experimental results provide clear evidence that the carbon-electrode DEP-based sample preparation step can readily and effectively clean environmental samples from natural contaminants and improve PCR sensitivity.

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Otero, J., Baños, R., González, L., Torrents, E., Juárez, A., Puig-Vidal, M., (2013). Quartz tuning fork studies on the surface properties of Pseudomonas aeruginosa during early stages of biofilm formation Colloids and Surfaces B: Biointerfaces 102, 117-123

Scanning probe microscopy techniques are powerful tools for studying the nanoscale surface properties of biofilms, such as their morphology and mechanical behavior. Typically, these studies are conducted using atomic force microscopy probes, which are force nanosensors based on microfabricated cantilevers. In recent years, quartz tuning fork (QTF) probes have been used in morphological studies due to their better performance in certain experiments with respect to standard AFM probes. In the present work QTF probes were used to measure not only the morphology but also the nanomechanical properties of Pseudomonas aeruginosa during early stages of biofilm formation. Changes in bacterium size and the membrane spring constant were determined in biofilms grown for 20, 24 and 28. h on gold with and without glucose in the culture media. The results obtained using the standard AFM and QTF probes were compared. Both probes showed that the bacteria forming the biofilm increased in size over time, but that there was no dependence on the presence of glucose in the culture media. On the other hand, the spring constant increased over time and there was a clear difference between biofilms grown with and without glucose. This is the first time that QTF probes have been used to measure the nanomechanical properties of microbial cell surfaces and the results obtained highlight their potential for studying biological samples beyond topographic measurements.

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Cendra, M. M., Juárez, A., Madrid, C., Torrents, E., (2013). H-NS is a novel transcriptional modulator of the ribonucleotide reductase genes in escherichia coli Journal of Bacteriology , 195, (18), 4255-4263

Ribonucleotide reductases (RNRs) are essential enzymes for DNA synthesis because they are responsible for the production of the four deoxyribonucleotides (dNTPs) from their corresponding ribonucleotides. Escherichia coli contains two classes of aerobic RNRs, encoded by the nrdAB (class Ia) and nrdHIEF (class Ib) operons, and a third RNR class, which is functional under anaerobic conditions and is encoded by the nrdDG (class III) operon. Because cellular imbalances in the amounts of the four dNTPs cause an increase in the rate of mutagenesis, the activity and the expression of RNRs must be tightly regulated during bacterial chromosome replication. The transcriptional regulation of these genes requires several transcription factors (including DnaA, IciA, FIS [factor for inversion stimulation], Fnr, Fur, and NrdR), depending on the RNR class; however, the factors that dictate the expression of some RNR genes in response to different environmental conditions are not known. We show that H-NS modulates the expression of the nrdAB and nrdDG operons. H-NS represses expression both in aerobically and in anaerobically growing cells. Under aerobic conditions, repression occurs at the exponential phase of growth as well as at the transition from the exponential to the stationary phase, a period when no dNTPs are needed. Under anoxic conditions, repression occurs mainly in exponentially growing cells. Electrophoretic mobility assays performed with two DNA fragments from the regulatory region of the nrdAB operon demonstrated the direct interaction of H-NS with these sequences.

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Cendra, M. d M., Juárez, A., Torrents, E., (2012). Biofilm modifies expression of ribonucleotide reductase genes in Escherichia coli PLoS ONE 7, (9), e46350

Ribonucleotide reductase (RNR) is an essential enzyme for all living organisms since is the responsible for the last step in the synthesis of the four deoxyribonucleotides (dNTPs) necessary for DNA replication and repair. In this work, we have investigated the expression of the three-RNR classes (Ia, Ib and III) during Escherichia coli biofilm formation. We show the temporal and spatial importance of class Ib and III RNRs during this process in two different E. coli wild-type strains, the commensal MG1655 and the enteropathogenic and virulent E2348/69, the prototype for the enteropathogenic E. coli (EPEC). We have established that class Ib RNR, so far considered cryptic, play and important role during biofilm formation. The implication of this RNR class under the specific growth conditions of biofilm formation is discussed.

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Crona, Mikael, Torrents, Eduard, Rohr, Asmund K., Hofer, Anders, Furrer, Ernst, Tomter, Ane B., Andersson, K. Kristoffer, Sahlin, Margareta, Sjoberg, Britt-Marie, (2011). NrdH-redoxin protein mediates high enzyme activity in manganese-reconstituted ribonucleotide reductase from bacillus anthracis Journal of Biological Chemistry , 286, (38), 33053-33060

Bacillus anthracis is a severe mammalian pathogen encoding a class Ib ribonucleotide reductase (RNR). RNR is a universal enzyme that provides the four essential deoxyribonucleotides needed for DNA replication and repair. Almost all Bacillus spp. encode both class Ib and class III RNR operons, but the B. anthracis class III operon was reported to encode a pseudogene, and conceivably class Ib RNR is necessary for spore germination and proliferation of B. anthracis upon infection. The class Ib RNR operon in B. anthracis encodes genes for the catalytic NrdE protein, the tyrosyl radical metalloprotein NrdF, and the flavodoxin protein NrdI. The tyrosyl radical in NrdF is stabilized by an adjacent Mn(2)(III) site (Mn-NrdF) formed by the action of the NrdI protein or by a Fe(2)(III) site (Fe-NrdF) formed spontaneously from Fe(2+) and O(2). In this study, we show that the properties of B. anthracis Mn-NrdF and Fe-NrdF are in general similar for interaction with NrdE and NrdI. Intriguingly, the enzyme activity of Mn-NrdF was approximately an order of magnitude higher than that of Fe-NrdF in the presence of the class Ib-specific physiological reductant NrdH, strongly suggesting that the Mn-NrdF form is important in the life cycle of B. anthracis. Whether the Fe-NrdF form only exists in vitro or whether the NrdF protein in B. anthracis is a true cambialistic enzyme that can work with either manganese or iron remains to be established.

JTD Keywords: Escherichia-coli, Corynebacterium-ammoniagenes, Crystal-structure, Cofactor, Cubunit, Growth, Genes


Sjoberg, B. M., Torrents, E., (2011). Shift in ribonucleotide reductase gene expression in pseudomonas aeruginosa during infection Infection and Immunity , 79, (7), 2663-2669

The roles of different ribonucleotide reductases (RNRs) in bacterial pathogenesis have not been studied systematically. In this work we analyzed the importance of the different Pseudomonas aeruginosa RNRs in pathogenesis using the Drosophila melanogaster host-pathogen interaction model. P. aeruginosa codes for three different RNRs with different environmental requirements. Class II and III RNR chromosomal mutants exhibited reduced virulence in this model. Translational reporter fusions of RNR gene nrdA, nrdJ, or nrdD to the green fluorescent protein were constructed to measure the expression of each class during the infection process. Analysis of the P. aeruginosa infection by flow cytometry revealed increased expression of nrdJ and nrdD and decreased nrdA expression during the infection process. Expression of each RNR class fits with the pathogenicities of the chromosomal deletion mutants. An extended understanding of the pathogenicity and physiology of P. aeruginosa will be important for the development of novel drugs against infections in cystic fibrosis patients.

JTD Keywords: Broad-host-range, Anaerobic growth, Drosophila-melanogaster, Bacterial biofilms, Escherichia-coli, Cystic-fibrosis, Model host, Virulence, Promoter, Vectors


Adrados, B., Julian, E., Codony, F., Torrents, E., Luquin, M., Morato, J., (2011). Prevalence and concentration of non-tuberculous Mycobacteria in cooling towers by means of quantitative PCR: A prospective study Current Microbiology , 62, (1), 313-319

There is an increasing level of interest in non-tuberculous mycobacteria (NTM) due to the increasing reported rates of diseases caused by them. Although it is well known that NTM are widely distributed in the environment it is necessary to identify its reservoirs to prevent possible infections. In this study, we aimed to investigate the occurrence and levels of NTM in cooling towers to provide evidences for considering these settings as possible sources of respiratory infections. In the current study, we detected and quantified the presence of NTM by means of a rapid method in water samples taken from 53 cooling towers of an urban area (Barcelona, Spain). A genus-specific quantitative PCR (Q-PCR) assay with a quantification limit (QL) of 500 cells l(-1) was used. 56% (30) of samples were positive with a concentration range from 4.6 x 10(3) to 1.79 x 10(6) cells l(-1). In some cases (9/30), samples were positive but with levels below the QL. The colonization rate confirmed that cooling towers could be considered as a potential reservoir for NTM. This study also evaluated Q-PCR as a useful method to detect and quantify NTM in samples coming from environmental sources.

JTD Keywords: Real-time PCR, Disease, Identification, Tuberculosis, Pathogens, Waters


Lundin, Daniel, Gribaldo, Simonetta, Torrents, Eduard, Sjoberg, Britt-Marie, Poole, Anthony, (2010). Ribonucleotide reduction - horizontal transfer of a required function spans all three domains BMC Evolutionary Biology , 10, (1), 383

BACKGROUND:Ribonucleotide reduction is the only de novo pathway for synthesis of deoxyribonucleotides, the building blocks of DNA. The reaction is catalysed by ribonucleotide reductases (RNRs), an ancient enzyme family comprised of three classes. Each class has distinct operational constraints, and are broadly distributed across organisms from all three domains, though few class I RNRs have been identified in archaeal genomes, and classes II and III likewise appear rare across eukaryotes. In this study, we examine whether this distribution is best explained by presence of all three classes in the Last Universal Common Ancestor (LUCA), or by horizontal gene transfer (HGT) of RNR genes. We also examine to what extent environmental factors may have impacted the distribution of RNR classes.RESULTS:Our phylogenies show that the Last Eukaryotic Common Ancestor (LECA) possessed a class I RNR, but that the eukaryotic class I enzymes are not directly descended from class I RNRs in Archaea. Instead, our results indicate that archaeal class I RNR genes have been independently transferred from bacteria on two occasions. While LECA possessed a class I RNR, our trees indicate that this is ultimately bacterial in origin. We also find convincing evidence that eukaryotic class I RNR has been transferred to the Bacteroidetes, providing a stunning example of HGT from eukaryotes back to Bacteria. Based on our phylogenies and available genetic and genomic evidence, class II and III RNRs in eukaryotes also appear to have been transferred from Bacteria, with subsequent within-domain transfer between distantly-related eukaryotes. Under the three-domains hypothesis the RNR present in the last common ancestor of Archaea and eukaryotes appears, through a process of elimination, to have been a dimeric class II RNR, though limited sampling of eukaryotes precludes a firm conclusion as the data may be equally well accounted for by HGT.CONCLUSIONS:Horizontal gene transfer has clearly played an important role in the evolution of the RNR repertoire of organisms from all three domains of life. Our results clearly show that class I RNRs have spread to Archaea and eukaryotes via transfers from the bacterial domain, indicating that class I likely evolved in the Bacteria. However, against the backdrop of ongoing transfers, it is harder to establish whether class II or III RNRs were present in the LUCA, despite the fact that ribonucleotide reduction is an essential cellular reaction and was pivotal to the transition from RNA to DNA genomes. Instead, a general pattern of ongoing horizontal transmission emerges wherein environmental and enzyme operational constraints, especially the presence or absence of oxygen, are likely to be major determinants of the RNR repertoire of genomes.

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Torrents, E., Sjoberg, B. M., (2010). Antibacterial activity of radical scavengers against class Ib ribonucleotide reductase from Bacillus anthracis Biological Chemistry , 391, (2-3), 229-234

Bacillus anthracis is a severe mammalian pathogen. The deoxyribonucleotides necessary for DNA replication and repair are provided via the ribonucleotide reductase (RNR) enzyme. RNR is also important for spore germination and cell proliferation upon infection. We show that the expression of B. anthracis class Ib RNR responds to the environment that the pathogen encounters upon infection. We also show that several anti-proliferative agents (radical scavengers) specifically inhibit the B. anthracis RNR. Owing to the importance of RNR in the pathogenic infection process, our results highlight a promising potential to inhibit the growth of B. anthracis early during infection.

JTD Keywords: Anthrax, Antibacterial drug, Antibacterial target, Enzyme inhibition


Jaramillo, M. D., Torrents, E., Martinez-Duarte, R., Madou, M. J., Juarez, A., (2010). On-line separation of bacterial cells by carbon-electrode dielectrophoresis Electrophoresis , 31, (17), 2921-2928

Dielectrophoresis (DEP) represents a powerful approach to manipulate and study living cells. Hitherto, several approaches have used 2-D DEP chips. With the aim to increase sample volume, in this study we used a 3-D carbon-electrode DEP chip to trap and release bacterial cells. A continuous flow was used to plug an Escherichia coli cell suspension first, to retain cells by positive DEP, and thereafter to recover them by washing with peptone water washing solution. This approach allows one not only to analyze DEP behavior of living cells within the chip, but also to further recover fractions containing DEP-trapped cells. Bacterial concentration and flow rate appeared as critical parameters influencing the separation capacity of the chip. Evidence is presented demonstrating that the setup developed in this study can be used to separate different types of bacterial cells.

JTD Keywords: Bacteria, Carbon electrode, Dielectrophoresis, E. coli, Separation


Johansson, R., Torrents, E., Lundin, D., Sprenger, J., Sahlin, M., Sjöberg, B. M., Logan, D. T., (2010). High-resolution crystal structures of the flavoprotein NrdI in oxidized and reduced states – an unusual flavodoxin FEBS Journal , 277, (20), 4265-4277

The small flavoprotein NrdI is an essential component of the class Ib ribonucleotide reductase system in many bacteria. NrdI interacts with the class Ib radical generating protein NrdF. It is suggested to be involved in the rescue of inactivated diferric centres or generation of active dimanganese centres in NrdF. Although NrdI bears a superficial resemblance to flavodoxin, its redox properties have been demonstrated to be strikingly different. In particular, NrdI is capable of two-electron reduction, whereas flavodoxins are exclusively one-electron reductants. This has been suggested to depend on a lesser destabilization of the negatively-charged hydroquinone state than in flavodoxins. We have determined the crystal structures of NrdI from Bacillus anthracis, the causative agent of anthrax, in the oxidized and semiquinone forms, at resolutions of 0.96 and 1.4 Å, respectively. These structures, coupled with analysis of all curated NrdI sequences, suggest that NrdI defines a new structural family within the flavodoxin superfamily. The conformational behaviour of NrdI in response to FMN reduction is very similar to that of flavodoxins, involving a peptide flip in a loop near the N5 atom of the flavin ring. However, NrdI is much less negatively charged than flavodoxins, which is expected to affect its redox properties significantly. Indeed, sequence analysis shows a remarkable spread in the predicted isoelectric points of NrdIs, from approximately pH 4–10. The implications of these observations for class Ib ribonucleotide reductase function are discussed.

JTD Keywords: Crystal structure, Flavin mononucleotide, Flavodoxin, NrdI, Ribonucleotide reductase


Lundin, Daniel, Torrents, Eduard, Poole, Anthony, Sjoberg, Britt-Marie, (2009). RNRdb, a curated database of the universal enzyme family ribonucleotide reductase, reveals a high level of misannotation in sequences deposited to Genbank BMC Genomics 10, (1), 589

BACKGROUND:Ribonucleotide reductases (RNRs) catalyse the only known de novo pathway for deoxyribonucleotide synthesis, and are therefore essential to DNA-based life. While ribonucleotide reduction has a single evolutionary origin, significant differences between RNRs nevertheless exist, notably in cofactor requirements, subunit composition and allosteric regulation. These differences result in distinct operational constraints (anaerobicity, iron/oxygen dependence and cobalamin dependence), and form the basis for the classification of RNRs into three classes.DESCRIPTION:In RNRdb (Ribonucleotide Reductase database), we have collated and curated all known RNR protein sequences with the aim of providing a resource for exploration of RNR diversity and distribution. By comparing expert manual annotations with annotations stored in Genbank, we find that significant inaccuracies exist in larger databases. To our surprise, only 23% of protein sequences included in RNRdb are correctly annotated across the key attributes of class, role and function, with 17% being incorrectly annotated across all three categories. This illustrates the utility of specialist databases for applications where a high degree of annotation accuracy may be important. The database houses information on annotation, distribution and diversity of RNRs, and links to solved RNR structures, and can be searched through a BLAST interface. RNRdb is accessible through a public web interface at http://rnrdb.molbio.su.se.CONCLUSION:RNRdb is a specialist database that provides a reliable annotation and classification resource for RNR proteins, as well as a tool to explore distribution patterns of RNR classes. The recent expansion in available genome sequence data have provided us with a picture of RNR distribution that is more complex than believed only a few years ago; our database indicates that RNRs of all three classes are found across all three cellular domains. Moreover, we find a number of organisms that encode all three classes.

JTD Keywords: Enzymology (Biochemistry and Molecular Biophysics), Computer Applications (Computational Biology)


Torrents, E., Sahlin, M., Sjöberg, B., (2009). The ribonucleotide reductase family: genetics and genomics Nova Biomedical (ed. Andersson, K.K.), Nova Science Publishers (New York, USA) , 99

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Roca, Ignasi, Torrents, Eduard, Sahlin, Margareta, Gibert, Isidre, Sjoberg, Britt-Marie, (2008). NrdI essentiality for class Ib ribonucleotide reduction in streptococcus pyogenes Journal of Bacteriology , 190, (14), 4849-4858

The Streptococcus pyogenes genome harbors two clusters of class Ib ribonucleotide reductase genes, nrdHEF and nrdF*I*E*, and a second stand-alone nrdI gene, designated nrdI2. We show that both clusters are expressed simultaneously as two independent operons. The NrdEF enzyme is functionally active in vitro, while the NrdE*F* enzyme is not. The NrdF* protein lacks three of the six highly conserved iron-liganding side chains and cannot form a dinuclear iron site or a tyrosyl radical. In vivo, on the other hand, both operons are functional in heterologous complementation in Escherichia coli. The nrdF*I*E* operon requires the presence of the nrdI* gene, and the nrdHEF operon gained activity upon cotranscription of the heterologous nrdI gene from Streptococcus pneumoniae, while neither nrdI* nor nrdI2 from S. pyogenes rendered it active. Our results highlight the essential role of the flavodoxin NrdI protein in vivo, and we suggest that it is needed to reduce met-NrdF, thereby enabling the spontaneous reformation of the tyrosyl radical. The NrdI* flavodoxin may play a more direct role in ribonucleotide reduction by the NrdF*I*E* system. We discuss the possibility that the nrdF*I*E* operon has been horizontally transferred to S. pyogenes from Mycoplasma spp.

JTD Keywords: Group-a streptococcus, Bacillus-subtilis genes, Escherichia-coli, Corynebacterium-ammoniagenes, Mycobacterium-tuberculosis, Expression analysis, Genome sequence, Small-subunit, Salmonella-typhimurium, Iron center