by Keyword: Expansion
Oliver-Vila, I, Sesma-Herrero, E, Belda, F, Seriola, A, Ojosnegros, S, (2025). Robust differentiation and potent immunomodulation of human mesenchymal stromal cells cultured with a xeno-free GMP protein supplement Cytotherapy 27, 552-561
Background/aims: Human mesenchymal stromal cells (hMSC) are multipotent adult cells commonly used in regenerative medicine as advanced therapy medicinal products. The expansion of these cells in xeno-free supplements is highly encouraged by regulatory agencies due to safety concerns. However, the number of supplements with robust performance and consistency for hMSC expansion are limited. Here, we evaluate a xeno-free human plasma-derived protein supplement (Plastem, Grifols) for the expansion and functional evaluation of hMSCs. Methods: hMSC from bone marrow, adipose tissue and umbilical cord were obtained from two suppliers and cultured in Dulbecco's modified Eagle's medium (DMEM/F-12) supplemented with fetal bovine serum 10% (FBS), human platelet lysate 5% (hPL) or Plastem 10%+ hPL0.5%. Cell proliferation was evaluated after culturing hMSC for 13 days with trypan blue exclusion. hMSC immunophenotype was assessed by flow cytometry of surface markers expression. Multipotentiality assay determined the ability of hMSC to differentiate into osteogenic, chondrogenic and adipogenic lineages after 21 days, by using specific staining. Immunomodulatory properties of hMSC were analyzed by measuring suppression of human peripheral blood mononuclear cell (PBMC) proliferation in co-culture with hMSC. Results: Plastem 10% + hPL 0.5% supported robust and sustained hMSC growth with a similar efficiency to the reference supplement FBS 10%. hMSC cultured with the xeno-free supplement presented a similar morphology comparable to FBS-supplemented cells and maintained typical expression of markers: positive (>95%) for CD90, CD73 and CD105; and negative (
JTD Keywords: Animal serum, Bone-marrow, Cell culture media, Cell therapy manufacturing, Expansion, Human mesenchymal stromal cells, Human platelet lysate, Immunomodulation, International-society, Multipotentiality, Proliferation, Serum-free media, Stem-cells, Substitut, Therapy, Xeno-fre
Garcia-Guerra, A, Ellerington, R, Gaitzsch, J, Bath, J, Kye, M, Varela, MA, Battaglia, G, Wood, MJA, Manzano, R, Rinaldi, C, Turberfield, AJ, (2023). A modular RNA delivery system comprising spherical nucleic acids built on endosome-escaping polymeric nanoparticles Nanoscale Advances 5, 2941-2949
Polymeric spherical nucleic acids comprise pH-sensitive, polymer-conjugated oligonucleotides that self-assemble into nanoparticles with the ability to escape endosomes, overcoming a major obstacle in nucleic acid delivery.
JTD Keywords: c9orf72, cellular uptake, dna, encapsulation, expansion, ph, stability, trafficking, vesicles, Hexanucleotide repeat
Wauters, AC, Scheerstra, JF, Vermeijlen, IG, Hammink, R, Schluck, M, Woythe, L, Wu, HL, Albertazzi, L, Figdor, CG, Tel, J, Abdelmohsen, LKEA, van Hest, JCM, (2022). Artificial Antigen-Presenting Cell Topology Dictates T Cell Activation Acs Nano 16, 15072-15085
Nanosized artificial antigen-presenting cells (aAPCs), synthetic immune cell mimics that aim to activate T cells ex or in vivo, offer an effective alternative to cellular immunotherapies. However, comprehensive studies that delineate the effect of nano-aAPC topology, including nanoparticle morphology and ligand density, are lacking. Here, we systematically studied the topological effects of polymersome-based aAPCs on T cell activation. We employed an aAPC library created from biodegradable poly(ethylene glycol)-block-poly(d,l-lactide) (PEG-PDLLA) polymersomes with spherical or tubular shape and variable sizes, which were functionalized with αCD3 and αCD28 antibodies at controlled densities. Our results indicate that high ligand density leads to enhancement in T cell activation, which can be further augmented by employing polymersomes with larger size. At low ligand density, the effect of both polymersome shape and size was more pronounced, showing that large elongated polymersomes better activate T cells compared to their spherical or smaller counterparts. This study demonstrates the capacity of polymersomes as aAPCs and highlights the role of topology for their rational design.
JTD Keywords: antibody density, artificial antigen-presenting cells, biodegradable polymersomes, design, expansion, immunotherapy, nano-immunotherapy, nanoparticle morphology, t cell activation, Biodegradable polymersomes, Nanoparticle morphology, Synthetic dendritic cells
Raymond, Y, Johansson, L, Thorel, E, Ginebra, MP, (2022). Translation of three-dimensional printing of ceramics in bone tissue engineering and drug delivery Mrs Bulletin 47, 59-69
JTD Keywords: augmentation, calcium-phosphate, expansion, fabrication, hydroxyapatite, made artificial bones, osteogenesis, reconstruction, regeneration, 3-d printing, 3d printers, 3d printing, 3d-printing, Abstracting, Additives, Biomaterial, Bone, Bone regeneration, Bone substitution, Bone tissue engineering, Ceramic, Ceramics, Clinic, Controlled drug delivery, Personalized medicines, Surgical planning, Targeted drug delivery, Three-dimensional-printing, Tricalcium phosphate scaffolds
Rubí-Sans, G, Nyga, A, Rebollo, E, Pérez-Amodio, S, Otero, J, Navajas, D, Mateos-Timoneda, MA, Engel, E, (2021). Development of Cell-Derived Matrices for Three-Dimensional in Vitro Cancer Cell Models Acs Applied Materials & Interfaces 13, 44108-44123
Most morphogenetic and pathological processes are driven by cells responding to the surrounding matrix, such as its composition, architecture, and mechanical properties. Despite increasing evidence for the role of extracellular matrix (ECM) in tissue and disease development, many in vitro substitutes still fail to effectively mimic the native microenvironment. We established a novel method to produce macroscale (>1 cm) mesenchymal cell-derived matrices (CDMs) aimed to mimic the fibrotic tumor microenvironment surrounding epithelial cancer cells. CDMs are produced by human adipose mesenchymal stem cells cultured in sacrificial 3D scaffold templates of fibronectin-coated poly-lactic acid microcarriers (MCs) in the presence of macromolecular crowders. We showed that decellularized CDMs closely mimic the fibrillar protein composition, architecture, and mechanical properties of human fibrotic ECM from cancer masses. CDMs had highly reproducible composition made of collagen types I and III and fibronectin ECM with tunable mechanical properties. Moreover, decellularized and MC-free CDMs were successfully repopulated with cancer cells throughout their 3D structure, and following chemotherapeutic treatment, cancer cells showed greater doxorubicin resistance compared to 3D culture in collagen hydrogels. Collectively, these results support the use of CDMs as a reproducible and tunable tool for developing 3D in vitro cancer models.
JTD Keywords: 3d cell-derived matrices, adipose mesenchymal stem cells, collagen matrix, colorectal adenocarcinoma, cytotoxicity assay, deposition, expansion, extracellular microenvironment, extracellular-matrix, fibronectin, growth, macromolecular crowders, microcarriers, scaffolds, tissue, 3d cell-derived matrices, Adipose mesenchymal stem cells, Antineoplastic agents, Cell culture techniques, three dimensional, Cell line, tumor, Cell survival, Cytotoxicity assay, Decellularized extracellular matrix, Doxorubicin, Drug resistance, neoplasm, Extracellular microenvironment, Humans, Macromolecular crowders, Mesenchymal stem cells, Mesenchymal stem-cells, Microcarriers, Models, biological, Proof of concept study, Tissue scaffolds, Tumor microenvironment
Pilat, N, Lefsihane, K, Brouard, S, Kotsch, K, Falk, C, Steiner, R, Thaunat, O, Fusil, F, Montserrat, N, Amarelli, C, Casiraghi, F, (2021). T- and B-cell therapy in solid organ transplantation: current evidence and future expectations Transplant International 34, 1594-1606
Cell therapy has emerged as an attractive therapeutic option in organ transplantation. During the last decade, the therapeutic potency of Treg immunotherapy has been shown in various preclinical animal models and safety was demonstrated in first clinical trials. However, there are still critical open questions regarding specificity, survival, and migration to the target tissue so the best Treg population for infusion into patients is still under debate. Recent advances in CAR technology hold the promise for Treg-functional superiority. Another exciting strategy is the generation of B-cell antibody receptor (BAR) Treg/cytotoxic T cells to specifically regulate or deplete alloreactive memory B cells. Finally, B cells are also capable of immune regulation, making them promising candidates for immunomodulatory therapeutic strategies. This article summarizes available literature on cell-based innovative therapeutic approaches aiming at modulating alloimmune response for transplantation. Crucial areas of investigation that need a joined effort of the transplant community for moving the field toward successful achievement of tolerance are highlighted.
JTD Keywords: allograft, autoimmune, b-cell antibody receptor t cells, chimeric antigen receptor tregs, expansion, expression, identification, infectious tolerance, mouse, prevention, regulatory b cells, regulatory t cells, signature, B-cell antibody receptor t cells, Chimeric antigen receptor tregs, Kidney-transplantation, Regulatory b cells, Regulatory t cells