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Publications

by Keyword: HIV-1

Izquierdo-Useros, Nuria, Esteban, Olga, Rodriguez-Plata, Maria T., Erkizia, Itziar, Prado, Julia G., Blanco, Julia, Garcia-Parajo, Maria F., Martinez-Picado, Javier, (2011). Dynamic imaging of cell-free and cell-associated viral capture in mature dendritic cells Traffic , 12, (12), 1702-1713

Dendritic cells (DCs) capture human immunodeficiency virus (HIV) through a non-fusogenic mechanism that enables viral transmission to CD4(+) T cells, contributing to in vivo viral dissemination. Although previous studies have provided important clues to cell-free viral capture by mature DCs (mDCs), dynamic and kinetic insight on this process is still missing. Here, we used three-dimensional videomicroscopy and single-particle tracking approaches to dynamically dissect both cell-free and cell-associated viral capture by living mDCs. We show that cell-free virus capture by mDCs operates through three sequential phases: virus binding through specific determinants expressed in the viral particle, polarized or directional movements toward concrete regions of the cell membrane and virus accumulation in a sac-like structure where trapped viral particles display a hindered diffusive behavior. Moreover, real-time imaging of cell-associated viral transfer to mDCs showed a similar dynamics to that exhibited by cell-free virus endocytosis leading to viral accumulation in compartments. However, cell-associated HIV type 1 transfer to mDCs was the most effective pathway, boosted throughout enhanced cellular contacts with infected CD4(+) T cells. Our results suggest that in lymphoid tissues, mDC viral uptake could occur either by encountering cell-free or cell-associated virus produced by infected cells generating the perfect scenario to promote HIV pathogenesis and impact disease progression.

JTD Keywords: Dendritic cells, HIV-1, Live cell imaging, Trans-infection


Sánchez-Martín, M. J., Urbán, P., Pujol, M., Haro, I., Alsina, M. A., Busquets, M. A., (2011). Biophysical investigations of GBV-C E1 peptides as potential inhibitors of HIV-1 fusion peptide ChemPhysChem , 12, (15), 2816-2822

Five peptide sequences corresponding to the E1 protein of GBV-C [NCCAPEDIGFCLEGGCLV (P7), APEDIGFCLEGGCLVALG (P8), FCLEGGCLVALGCTICTD (P10), QAGLAVRPGKSAAQLVGE (P18), and AQLVGELGSLYGPLSVSA (P22)] were synthesized because they were capable of interfering with the HIV-1 fusion peptide (HIV-1 FP)-vesicle interaction. In this work the interaction of these peptides with the HIV-1 FP, as well as with membrane models, was analyzed to corroborate their inhibition ability and to understand if the interaction with the fusion peptide takes place in solution or at the membrane level. Several studies were carried out on aggregation and membrane fusion, surface Plasmon resonance, and conformational analysis by circular dichroism. Moreover, in vitro toxicity assays, including cytotoxicity studies in 3T3 fibroblasts and hemolysis assays in human red blood cells, were performed to evaluate if these peptides could be potentially used in anti-HIV-1 therapy. Results show that P10 is not capable of inhibiting membrane fusion caused by HIV-1 and it aggregates liposomes and fuses membranes, thus we decided to discard it for futures studies. P18 and P22 do not inhibit membrane fusion, but they inhibit the ability of HIV-1 FP to form pores in bilayers, thus we have not discarded them yet. P7 and P8 were selected as the best candidates for future studies because they are capable of inhibiting membrane fusion and the interaction of HIV-1 FP with bilayers. Therefore, these peptides could be potentially used in future anti-HIV-1 research. Part of the gang: Liposomes are deposited on a surface plasmon resonance chip (see AFM image of the chip) to observe the interaction of peptides corresponding to the E1 envelop protein of the hepatitis G virus with membranes to show how they reduce the interaction of the HIV-1 fusion peptide.

JTD Keywords: HIV-1 fusion protein, Liposomes, Membranes, Peptides, Viruses