A clathrin-dynamin-dependent endocytic pathway for the uptake of HIV-1 by direct T cell-T cell transmission.

A clathrin-dynamin-dependent endocytic pathway for the uptake of HIV-1 by direct T cell-T cell transmission.

Data de publicació online: 03/07/2008

Abstract:

Cellular contacts between HIV-1-infected cells and target primary T CD4+ lymphocytes trigger the formation of a structure known as the virological synapse. As a consequence, viral production in HIV-1-infected cells is polarized towards the virological synapse and nascent viral particles are directly transferred to target T CD4+ lymphocytes. In this study, we performed short time cocultures of target primary T CD4+ lymphocytes with effector T cells infected by either HIV-1 NL4-3 or BaL. Using flow cytometry and immuno-confocal analyses, we investigated the transfer of HIV-1 virion antigens. We found that after 3h of coculture, unstimulated T CD4+ lymphocytes captured complete HIV-1 virions from infected T cells during cell-cell contacts. Virus transfer occurred through a dynamin-dependent pathway and could be inhibited by chlorpromazine, an inhibitor of clathrin-dependent endocytosis. Transferred HIV-1 virions were located in compartments close to the surface of the target cell in a polarized manner. These compartments were positive for clathrin and the early endosomal marker EEA1 but were negative for caveolin-1. Furthermore, the great majority of internalized HIV-1 particles did not colocalize with Lamp1, a well-known marker for the lysosomal-degradative pathway. Similar results were observed when stimulated primary T CD4+ lymphocytes were the target cells. Our results suggest a mechanism of cell to cell HIV-1 transfer through a clathrin- and dynamin-dependent early endocytic pathway where internalized HIV-1 particles would not reach Lamp1 positive compartments, suggesting that during HIV-1 transfer by cell-cell contacts, virions can be taken up by endocytosis but not be degraded in lysosomes.

Autors: Bosch, B., Grigorov, B., Senserrich, J., Clotet, B., Darlix, J. L., Muriaux, D., and Este, J. A.
  • Codi Doi: Antiviral Res 80, 185-193.

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