The HIV pandemic continues unabated. In most HIV-infected persons, chronic infection is associated with weak effector anti-HIV T cell responses, but the molecular basis for such impaired T cell responses are still largely unknown. Studies of the mechanisms underlying defective immune control of HIV infection are still critically needed for the development of novel therapeutic strategies. The crucial role of natural regulatory T cells (Treg), a specialized subset of CD4+ T cells, in defective immune control of HIV infection has been proposed, based on the fact that the depletion of Treg from the peripheral blood mononuclear cells from HIV- infected individuals' results in increased anti-HIV T cell responses. Our preliminary studies of mechanism suggest that viral replication is associated with Treg accumulation in lymphoid tissues of HIV-infected patients. Importantly, similar Treg accumulation occurs in the lymphoid tissues of SIV-infected macaques, validating the SIV/macaque experimental system as a relevant model in which the functional role of tissue Treg can be studied. Our preliminary data also suggest that HIV-CD4 interactions cause such Treg accumulation by providing a survival signal to Treg.
The aim of the current proposal is to define the mechanisms and consequences of Treg accumulation in lymphoid organs of HIV-infected donors. The underlying hypotheses are that: (a) the level of viral replication directly influences Treg accumulation in lymphoid tissues; (b) HIV itself causes this accumulation by promoting Treg survival and/or Treg expansion; and (c) Treg accumulation negatively affects T-cell mediated control of virus replication. To test these hypotheses, we aim to: (1) determine whether natural, as well as HAART-mediated, control of viral replication affects Treg accumulation in lymphoid tissues of HIV-infected individuals; (2) define the mechanisms underlying HIV-mediated Treg accumulation in lymphoid tissues, using the in vitro model of exposure of CD4+ T cells to HIV; and (3) determine the mechanistic role of Treg in regulating anti-viral T cell responses in the simian model of HIV. ? ? ?
Moreno-Fernandez, Maria E; Joedicke, Jara J; Chougnet, Claire A (2014) Regulatory T Cells Diminish HIV Infection in Dendritic Cells - Conventional CD4(+) T Cell Clusters. Front Immunol 5:199 |
Kong, Ling; Welge, Jeffrey A; Powell, Eleanor A et al. (2014) HIV infection of hepatocytes results in a modest increase in hepatitis C virus expression in vitro. PLoS One 9:e83728 |
Presicce, Pietro; Moreno-Fernandez, Maria E; Rusie, Laura K et al. (2012) In vitro HIV infection impairs the capacity of myeloid dendritic cells to induce regulatory T cells. PLoS One 7:e42802 |
Presicce, Pietro; Shaw, Julia M; Miller, Christopher J et al. (2012) Myeloid dendritic cells isolated from tissues of SIV-infected Rhesus macaques promote the induction of regulatory T cells. AIDS 26:263-73 |
Moreno-Fernandez, Maria E; Rueda, Cesar Mauricio; Velilla, Paula A et al. (2012) cAMP during HIV infection: friend or foe? AIDS Res Hum Retroviruses 28:49-53 |
Moreno-Fernandez, Maria E; Presicce, Pietro; Chougnet, Claire A (2012) Homeostasis and function of regulatory T cells in HIV/SIV infection. J Virol 86:10262-9 |
Lages, Celine S; Simmons, Julia; Chougnet, Claire A et al. (2012) Regulatory T cells control the CD8 adaptive immune response at the time of ductal obstruction in experimental biliary atresia. Hepatology 56:219-27 |
Rueda, Cesar Mauricio; Velilla, Paula Andrea; Chougnet, Claire A et al. (2012) HIV-induced T-cell activation/exhaustion in rectal mucosa is controlled only partially by antiretroviral treatment. PLoS One 7:e30307 |
Kong, Ling; Cardona Maya, Walter; Moreno-Fernandez, Maria E et al. (2012) Low-level HIV infection of hepatocytes. Virol J 9:157 |
Chougnet, Claire A; Tripathi, Pulak; Lages, Celine S et al. (2011) A major role for Bim in regulatory T cell homeostasis. J Immunol 186:156-63 |
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