Abstract
The 96-amino acid protein Vpr functions as a regulator of cellular processes involved in human immunodeficiency virus, type 1 (HIV-1) life cycle, in particular by interrupting cells division in the G2 phase. Incorporation of Vpr in the virion was reported to be mediated by the C-terminal domain of the Pr55(Gag) polyprotein precursor, which includes NCp7, a protein involved in the genomic RNA encapsidation and p6, a protein required for particle budding. To precisely define the Gag and Vpr sequences involved in this protein-protein interaction, NCp7, p6, and Vpr as well as a series of derived peptides were synthesized using Fmoc (N-(9-fluorenyl)methoxycarbonyl) chemistry. Binding assays were carried out by Far Western experiments and by competition studies using (52-96)Vpr immobilized onto agarose beads. The results show that interaction between NCp7 and Vpr occurs in vitro by a recognition mechanism requiring the zinc fingers of NCp7 and the last 16 amino acids of Vpr. Moreover, NCp10, the equivalent of NCp7 in Moloney murine leukemia virus but not polysine inhibits Vpr-NCp7 complexation. Interestingly enough, Vpr was found to interact with Gag, NCp15, and NCp7 but not with mature p6 in vitro. In vivo mutations in NCp7 zinc fingers in an HIV-1 molecular clone led to viruses with important defects in Vpr encapsidation. Together, these results suggest that NCp7 cooperates with p6 to induce Vpr encapsidation in HIV-1 mature particles. The NCp7-Vpr complex could also be important for interaction of Vpr with cellular proteins involved in cell division.
Highlights
The protein Vpr, which contains 96 amino acids and could form oligomers, was reported to enhance virus replication, by inducing arrest in cell cycle in the G2 phase (1– 6)
All the chimeric HIV-1 Gag polyproteins leading to Vpr incorporation contained NCp12 from avian leukosis sarcoma virus or NCp10 from MoMuLV in place of the native NCp7, suggesting that the presence of a nucleocapsid protein preceding the p6 sequence could play a role in incorporation of Vpr in virions
The NCp7-Vpr complex could play a role in the functions of both proteins during virus replication as recently shown for the activation of the phosphatase protein phosphatase 2A involved in cell division (26)
Summary
The protein Vpr, which contains 96 amino acids (see Fig. 1A) and could form oligomers, was reported to enhance virus replication, by inducing arrest in cell cycle in the G2 phase (1– 6). All the chimeric HIV-1 Gag polyproteins leading to Vpr incorporation contained NCp12 from avian leukosis sarcoma virus or NCp10 from MoMuLV in place of the native NCp7, suggesting that the presence of a nucleocapsid protein preceding the p6 sequence could play a role in incorporation of Vpr in virions. This hypothesis is supported by the observed replacement of a NC protein by another nucleocapsid protein in some steps of the retroviral life cycle (21, 22) and by the similarities in the tridimensional structure of NCp7 and NCp10 (16, 23). The NCp7-Vpr complex could play a role in the functions of both proteins during virus replication as recently shown for the activation of the phosphatase protein phosphatase 2A involved in cell division (26)
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