OBJECTIVE: Few studies have examined the efficacy of antiretroviral therapy (ART) in the context of cell-to-cell transmission. We aimed to determine whether the activity of ART is limited by the mode of HIV-1 spread between cells and the type of immune cell implicated in transmission, or is independent of these variables. DESIGN: ART activity was evaluated in primary cells using in-vitro cell-free and cell to-cell HIV-1 infection systems. METHODS: HIV-1 cell-free or cell-to-cell transmission between infected monocyte-derived macrophages (MDMs) and autologous target CD4+ T cells was measured in the presence or absence of reverse transcriptase and integrase inhibitors. Viral infection was evaluated using luciferase-reporter infectious molecular HIV-1 clones carrying macrophage-tropic envelope glycoproteins (Envs). Cell-free HIV-1 was titrated to yield different multiplicities of CD4+ T-cell infection. RESULTS: Whereas cell-free infection of CD4+ T cells was substantially reduced by all inhibitors, cell-to-cell spread from macrophages to CD4+ T cells was largely resistant to inhibition. However, when multiplicity of infection was controlled for, we observed no difference in antiretroviral inhibition of cell-to-cell or cell-free infection. CONCLUSION: Cell-to-cell spread of HIV-1 reduces the probability of antiretroviral inhibition, but it is the number of infectious viruses transferred between cells rather than the specific mode of viral spread or transmitting cell type that governs antiretroviral activity. High multiplicity infection in vivo is more likely to occur by cell-to-cell transmission, and these data will inform use of ART against viral reservoirs.
OBJECTIVE: Few studies have examined the efficacy of antiretroviral therapy (ART) in the context of cell-to-cell transmission. We aimed to determine whether the activity of ART is limited by the mode of HIV-1 spread between cells and the type of immune cell implicated in transmission, or is independent of these variables. DESIGN: ART activity was evaluated in primary cells using in-vitro cell-free and cell to-cell HIV-1 infection systems. METHODS: HIV-1 cell-free or cell-to-cell transmission between infected monocyte-derived macrophages (MDMs) and autologous target CD4+ T cells was measured in the presence or absence of reverse transcriptase and integrase inhibitors. Viral infection was evaluated using luciferase-reporter infectious molecular HIV-1 clones carrying macrophage-tropic envelope glycoproteins (Envs). Cell-free HIV-1 was titrated to yield different multiplicities of CD4+ T-cell infection. RESULTS: Whereas cell-free infection of CD4+ T cells was substantially reduced by all inhibitors, cell-to-cell spread from macrophages to CD4+ T cells was largely resistant to inhibition. However, when multiplicity of infection was controlled for, we observed no difference in antiretroviral inhibition of cell-to-cell or cell-free infection. CONCLUSION: Cell-to-cell spread of HIV-1 reduces the probability of antiretroviral inhibition, but it is the number of infectious viruses transferred between cells rather than the specific mode of viral spread or transmitting cell type that governs antiretroviral activity. High multiplicity infection in vivo is more likely to occur by cell-to-cell transmission, and these data will inform use of ART against viral reservoirs.
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