Mamata Patel scite author profile

The vpr gene product of human immunodeficiency virus type 1 (HIV-1) is a virion-associated protein that is essential for efficient viral replication in monocytes/macrophages. Vpr is primarily localized in the nucleus when expressed in the absence of other viral proteins. Vpr is packaged efficiently into viral particles through interactions with the p6 domain of the Gag precursor polyprotein p55 gag. We developed a panel of expression vectors encoding Vpr molecules mutated in the amino-terminal helical domain, leucine-isoleucine (LR) domain, and carboxy-terminal domain to map the different functional domains and to define the interrelationships between virion incorporation, nuclear localization, cell cycle arrest, and differentiation functions of Vpr. We observed that substitution mutations in the N-terminal domain of Vpr impaired both nuclear localization and virion packaging, suggesting that the helical structure may play a vital role in modulating both of these biological properties. The LR domain was found to be involved in the nuclear localization of Vpr. In contrast, cell cycle arrest appears to be largely controlled by the C-terminal domain of Vpr. The LR and C-terminal domains do not appear to be essential for virion incorporation of Vpr. Interestingly, we found that two Vpr mutants harboring single amino acid substitutions (A30L and G75A) retained the ability to translocate to the nucleus but were impaired in the cell cycle arrest function. In contrast, mutation of Leu68 to Ser resulted in a protein that localizes in the cytoplasm while retaining the ability to arrest host cell proliferation. We speculate that the nuclear localization and cell cycle arrest functions of Vpr are not interrelated and that these functions are mediated by separable putative functional domains of Vpr.

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HIV-1 Vpr interacts with a human 34-kDa mov34 homologue, a cellular factor linked to the G ₂ /M phase transition of the mammalian cell cycle

Mahalingam

Ayyavoo²,

Patel³

et al. 1998

Proc. Natl. Acad. Sci. U.S.A.

100

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Several important and possibly interrelated functions have been identified for the HIV-1 accessory gene product Vpr. These include import of the HIV reverse transcription complex into the nucleus of nondividing cells, cellular differentiation including cell cycle arrest at the G 2 ͞M phase border, immune suppression, and enhancement of virus replication. We have cloned a candidate Vpr ligand, termed human Vpr interacting protein (hVIP͞MOV34), by using a yeast twohybrid assay. This gene is homologous to a simultaneously identified 34-kDa human mov34 homologue. The MOV34 family includes proteins that function as transcriptional and proteolytic regulators of cell growth and differentiation. We demonstrate direct interactions between the putative ligand hVIP͞MOV34 and Vpr in vitro and in vivo. hVIP͞MOV34 localizes to the nucleus and appears to function as a component of the cell cycle cascade. We observe an association between the induction of cell cycle arrest at the G 2 ͞M phase border by Vpr and a change in the subcellular localization of hVIP͞MOV34 from a nuclear to a perinuclear localization. This was further associated with the inhibition of maturation promoting factor-associated histone H1 kinase activity. We conclude that hVIP͞MOV34 is involved in the regulation of the cell cycle and a likely cellular cofactor for HIV-1 Vpr.

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Functional Analysis of HIV-1 Vpr: Identification of Determinants Essential for Subcellular Localization

et al. 1995

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Vpr is a conserved HIV-1 auxiliary protein that localizes to the nuclear region of cells. Vpr is also present in virions, and it is directed into the assembling virus when coexpressed with Gag. Each of these two localization activities may be important for Vpr function, and we recently identified regions of Vpr that are critical for virion incorporation. In this study we analyzed the Vpr domains involved in subcellular localization. Immunofluorescence staining of transfected cells showed that wild-type Vpr localized exclusively to the nuclear region. Mutations in the N-terminal domain that were designed to disrupt a predicted alpha-helical structure resulted in aberrant localization, while conservative substitutions showed a wild-type pattern. A region in the central portion of the protein also has the potential for helical structure, and mutagenesis of two conserved amino acids in this domain (A59, H71) impaired localization, while substitution of a third (Q65) did not. In contrast, neither the conserved Gly and Cys at positions 75-76 nor the C-terminal basic residues (R87, K95) were necessary for nuclear localization. In addition, two-residue insertions within and between the two putative helices disrupted localization but insertion in the C-terminal region did not. Thus, Vpr's subcellular localization function depends on the two putative helical domains but is independent of the conserved Gly-Cys motif and of specific C-terminal basic residues.

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Mamata Patel

Nuclear import, virion incorporation, and cell cycle arrest/differentiation are mediated by distinct functional domains of human immunodeficiency virus type 1 Vpr

HIV-1 Vpr interacts with a human 34-kDa mov34 homologue, a cellular factor linked to the G ₂ /M phase transition of the mammalian cell cycle

Functional Analysis of HIV-1 Vpr: Identification of Determinants Essential for Subcellular Localization

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Mamata Patel

Nuclear import, virion incorporation, and cell cycle arrest/differentiation are mediated by distinct functional domains of human immunodeficiency virus type 1 Vpr

HIV-1 Vpr interacts with a human 34-kDa mov34 homologue, a cellular factor linked to the G 2 /M phase transition of the mammalian cell cycle

Functional Analysis of HIV-1 Vpr: Identification of Determinants Essential for Subcellular Localization

Contact Info

Product

Resources

About

HIV-1 Vpr interacts with a human 34-kDa mov34 homologue, a cellular factor linked to the G ₂ /M phase transition of the mammalian cell cycle