Destruction of CD4+ T cells, the hallmark of AIDS, is caused in part by HIV-1-induced apoptosis of both infected cells and noninfected "bystander" cells. The HIV-1 auxiliary regulatory protein Vpr has been shown to harbor a pro-apoptotic activity that may contribute to cellular and tissue damage during AIDS pathogenesis. The biochemical mechanism of this Vpr function remains unclear. In this report, substitutions of a single amino acid residue Leu64 with Pro, Ala, or Arg are shown to dramatically enhance the pro-apoptotic activity of Vpr, as evidenced by the degradation of cellular DNA into fragments of 200-bp increments. Substitutions of Leu64 with conservative residues have no effect. The pro-apoptotic activity of the VprL64P mutant also requires activation of caspase(s) and is inhibited by the secondary mutation I61A, indicating a high specificity for Vpr-induced apoptosis. Among the three HIV-1 subtypes examined, a subtype B Vpr and an A/G subtype recombinant Vpr have a moderate level of pro-apoptotic activity, whereas a subtype D Vpr has no detectable activity. However, the L64P mutation efficiently enhances the pro-apoptotic potential of the subtype B and subtype D Vpr molecules but not that of the A/G recombinant Vpr. It is hypothesized that Vpr molecules from different HIV-1 subtypes as well as Vpr variants that emerge during HIV-1 infection may have different pro-apoptotic potentials and contribute to the diversity of AIDS pathogenesis.
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