Kenta Matsuda scite author profile

Chronic phase HIV/SIV replication is reduced by as much as 10,000-fold in elite controllers (EC) compared to typical progressors, but sufficient viral replication persists in EC tissues to allow viral sequence evolution and induce excess immune activation. Here, we show that productive SIV infection in rhesus monkey EC is strikingly restricted to follicular helper CD4+ T cells (TFH), suggesting that while the potent SIV-specific CD8+ T cells of these monkeys can effectively clear productive infection from extra-follicular sites, their relative exclusion from B cell follicles limits elimination of infected TFH. Indeed, CD8+ lymphocyte depletion of EC monkeys resulted in a dramatic re-distribution of productive SIV infection to non-TFH, with TFH restriction resuming upon CD8+ T cell recovery. Thus, B cell follicles constitute sanctuaries for persistent SIV replication in the presence of potent anti-viral CD8+ T cell responses, potentially complicating efforts to cure HIV infection with therapeutic vaccination or T cell immunotherapy.

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Early short-term treatment with neutralizing human monoclonal antibodies halts SHIV infection in infant macaques

Hessell

Jaworski

Epson

et al. 2016

Nat Med

169

164

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Prevention of mother to child transmission (MTCT) of HIV remains a major objective where antenatal care is not readily accessible. We tested anti-HIV-1 human neutralizing monoclonal antibodies (NmAb) as post-exposure therapy in an infant macaque model for intrapartum MTCT. One-month-old rhesus macaques were inoculated orally with SHIVSF162P3. On days 1, 4, 7, and 10 after virus exposure, we injected animals subcutaneously with NmAbs and quantified systemic distribution of NmAbs in multiple tissues within 24 h following administration. Replicating virus was found in multiple tissues by day 1 in animals without treatment. All NmAb-treated macaques were free of virus in blood and tissues at 6 months post-exposure. We detected no anti-SHIV T cell responses in blood or tissues at necropsy, and no virus emerged following CD8+ T cell depletion. These results suggest early passive immunotherapy can eliminate early viral foci and thereby prevent the establishment of viral reservoirs.

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Tissue Myeloid Cells in SIV-Infected Primates Acquire Viral DNA through Phagocytosis of Infected T Cells

et al. 2014

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Summary The viral accessory protein Vpx, expressed by certain simian and human immunodeficiency viruses (SIVs and HIVs), is thought to improve viral infectivity of myeloid cells. We infected 35 Asian macaques and African green monkeys with viruses that do or do not express Vpx, and examined viral targeting of cells in vivo. While lack of Vpx expression affected viral dynamics in vivo, with decreased viral loads and infection of CD4+ T cells, Vpx expression had no detectable effect on infectivity of myeloid cells. Moreover, viral DNA was only observed within myeloid cells in tissues not massively depleted of CD4+ T-cells. Myeloid cells containing viral DNA also showed evidence of T cell phagocytosis in vivo, suggesting their viral DNA may be attributed to phagocytosis of SIV-infected T cells. These data suggest that myeloid cells are not a major source of SIV in vivo, irrespective of Vpx expression.

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Kenta Matsuda

B cell follicle sanctuary permits persistent productive simian immunodeficiency virus infection in elite controllers

Early short-term treatment with neutralizing human monoclonal antibodies halts SHIV infection in infant macaques

Tissue Myeloid Cells in SIV-Infected Primates Acquire Viral DNA through Phagocytosis of Infected T Cells

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