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Vpu inhibits NK cell function through down regulation of NTB-A

$350,876R56FY2011AINIH

Rush University Medical Center, Chicago IL

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Abstract

Natural killer (NK) cells are innate lymphocytes that are crucial in the immune surveillance against viruses. However, NK cells fail to control HIV-1. NK cells do not effectively lyse HIV-infected cells despite the ability of HIV-1 Nef to down modulate the ligands for NK cell inhibitory receptors, HLA-A and -B. Moreover, HIV-1 Vpr induces ligands to the activation receptor, NKG2D. The actions of Nef and Vpr are sufficient to activate NK cells but insufficient to trigger NK cells to release their cytolytic granules. For NK cells to degranulate they require the engagement of two receptors, NKG2D and NTB-A. Under normal conditions, NTB-A on NK cells is triggered by NTB-A on CD4+ T-cells. However, HIV-1 Vpu is able to down modulate NTB-A from the infected cells surface and in doing so prevents the responding NK cells from degranulating. Thus, Vpu protects the infected cell from lysis by NK cells. In order to understand Vpu[unreadable]s modulation of NTB-A and its consequence on the NK cell cytolytic response we will: 1) determine the mechanism by which Vpu, through NTB-A down modulation, suppresses NK cytolytic response, 2) determine how Vpu down modulates NTB-A and 3) determine whether and how Vpu from various subtypes and groups of HIV-1 and SIV strains are able to down modulate NTB-A. In the first aim, we will test the hypothesis that Vpu down modulation of NTB-A on HIVinfected target cells prevents the ability of specific intracellular signals originating from NTB-A on NK cells from inducing down stream signaling events involved in facilitating the release of lytic granules. In the second aim, we will test the hypothesis that Vpu[unreadable]s cytoplasmic tail interferes with host cell proteins that are involved in transporting NTB-A from the trans Golgi network to the plasma membrane. In the second Aim we will also determine whether and how the transmembrane (TM) portion of Vpu interacts with the TM portion of NTB-A. In the last aim, we will test the hypothesis that Vpu from specific HIV-1 subtypes and groups will have different efficiencies in modulating NTB-A. Moreover, we will determine whether Vpu[unreadable]s down modulation of NTB-A is limited to HIV-1 or whether SIV Vpu down modulates simian and human NTB-A as well. Knowledge of these mechanisms will undoubtedly lead to novel therapeutic interventions aimed at restoring the effectiveness of the NK compartment during HIV-1 infection.

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