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Differential Regulation of host cellular gene expression by HIV-1 Viral protein R (Vpr): Implications for host cell function

The HIV/AIDS epidemic is one of the most important public health problems facing this generation. The failure of recent vaccine trials and growing resistance to anti-retroviral drugs underscores the need for novel therapeutic strategies. Design of such therapies will depend on a detailed understanding of the mechanism of action of the HIV-1 gene products. To further that goal, we have undertaken a detailed investigation of the HIV-1 viral protein R (Vpr). We employed cDNA microarray and antibody array analyses using isogenic virus with or without Vpr to determine the effect on host cellular gene expression. Vpr induced differential regulation of 109 cellular genes representing diverse families of signaling molecules. Two gene products, NHE1 and TNF alpha, were further studied for their potential roles in Vpr-mediated apoptosis. NHE1 expression was decreased by 50% at both the protein and mRNA levels in the presence of Vpr. Vpr-mediated NHE1 downregulation correlated with a dose dependent decrease in intracellular pH as well as a decrease in the active form of the pro-survival kinase Akt. The loss of these anti-apoptotic functions of NHE1 is proposed to contribute to the apoptotic role of Vpr. The pro-inflammatory cytokine TNF alpha may also play a part in Vpr-mediated apoptosis. Macrophages infected with vpr-expressing virus secreted 1.1-8.5 fold more soluble TNF alpha in response to LPS stimulation than their counterparts infected with isogenic virus lacking Vpr expression. Fold upregulation of TNF alpha directly correlated with induction of apoptosis in uninfected lymphocytes, implicating TNF alpha regulation by Vpr in bystander cell death. Two polymorphisms in the TNF alpha promoter, positions -238 and -963, were found at a higher prevalence in donors showing the lowest and highest effect of Vpr on the TNF alpha response. These results suggest that host genetic determinants may affect bystander cell death and thus the course of HIV pathogenesis. Together, the results of this study present a molecular basis for changes induced in the host cell by HIV-1 Vpr and elucidate two potential pathways for the design of anti-retroviral therapeutics targeting HIV-1 Vpr.

Identiferoai:union.ndltd.org:PITT/oai:PITTETD:etd-12092005-195447
Date16 February 2006
CreatorsJanket, Michelle L
ContributorsThomas Smithgall, Ph.D., Jeremy Martinson, Ph.D., Todd A. Reinhart, Sc.D., Velpandi Ayyavoo, Ph.D.
PublisherUniversity of Pittsburgh
Source SetsUniversity of Pittsburgh
LanguageEnglish
Detected LanguageEnglish
Typetext
Formatapplication/pdf
Sourcehttp://etd.library.pitt.edu/ETD/available/etd-12092005-195447/
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