Role of Vif in human immunodeficiency virus type 1 reverse transcription

Goncalves, J; Korin, Yael; Zack, Jerome A.; Gabuzda, Dana

doi:10.1128/jvi.70.12.8701-8709.1996

Cited by 110 publications

(38 citation statements)

References 43 publications

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“…Virus particles expressed in the absence of a functional Vif protein are able to bind to and penetrate susceptible cells but are severely debilitated in their capacity to establish proviruses (Sova and Volsky, 1993; von Schwedler et al ., 1993; Simon and Malim, 1996). Consistent with this, it has been proposed that the defect in vif ‐deficient infections may be manifested as the post‐entry instability of viral nucleoprotein complexes (Goncalves et al ., 1996; Simon and Malim, 1996). Significantly, challenges with vif ‐deficient viruses cannot be rescued back to productivity by the presence of Vif in the target cells (Gabuzda et al ., 1992; von Schwedler et al ., 1993).…”

Section: Introductionmentioning

confidence: 59%

“…The critical contribution of the Vif family of proteins to virus infectivity and replication has been established for a variety of primate and non‐primate lentiviruses. Although the precise mechanism by which Vif regulates infectivity remains to be defined, the prevailing view is that late steps of the virus life cycle (assembly, maturation and/or budding) are manipulated such that ensuing virions are able to complete reverse transcription and establish proviruses following penetration into susceptible cells (Gabuzda et al ., 1992; Sova and Volsky, 1993; von Schwedler et al ., 1993; Goncalves et al ., 1996; Simon and Malim, 1996). In an endeavor to understand Vif function in greater detail, we have been investigating the patterns of cross‐complementation between the Vif proteins of divergent lentiviruses.…”

Section: Discussionmentioning

confidence: 99%

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The regulation of primate immunodeficiency virus infectivity by Vif is cell species restricted: a role for Vif in determining virus host range and cross-species transmission

et al. 1998

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The primate immunodeficiency virus Vif proteins are essential for replication in appropriate cultured cell systems and, presumably, for the establishment of productive infections in vivo. We describe experiments that define patterns of complementation between human and simian immunodeficiency virus (HIV and SIV) Vif proteins and address the determinants that underlie functional specificity. Using human cells as virus producers, it was found that the HIV-1 Vif protein could modulate the infectivity of HIV-1 itself, HIV-2 and SIV isolated from African green monkeys (SIVAGM). In contrast, the Vif proteins of SIVAGM and SIV isolated from Sykes' monkeys (SIVSYK) were inactive for all HIV and SIV substrates in human cells even though, at least for the SIVAGM protein, robust activity could be demonstrated in cognate African green monkey cells. These observations suggest that species-specific interactions between Vif and virus-producing cells, as opposed to between Vif and virus components, may govern the functional consequences of Vif expression in terms of inducing virion infectivity. The finding that the replication of murine leukemia virus could also be stimulated by HIV-1 Vif expression in human cells further supported this notion. We speculate that species restrictions to Vif function may have contributed to primate immunodeficiency virus zoonosis.

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Section: Introductionmentioning

confidence: 59%

Section: Discussionmentioning

confidence: 99%

The regulation of primate immunodeficiency virus infectivity by Vif is cell species restricted: a role for Vif in determining virus host range and cross-species transmission

et al. 1998

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“…The early, post-entry block to HIV-1 infection seen in Old World monkeys does not appear to be operative in New World monkeys. Cellular cofactors in New World monkey cells must be able to interact functionally with the HIV-1 Tat, Rev, and Vif proteins to allow successful completion of the late phase of virus replication (71)(72)(73)(74). Likewise, New World monkey HP68 and cyclophilin A are apparently compatible with HIV-1 Gag components to allow capsid formation and the attainment of virion infectivity, respectively (75)(76)(77)(78).…”

Section: Discussionmentioning

confidence: 99%

Blockade of HIV-1 Infection of New World Monkey Cells Occurs Primarily at the Stage of Virus Entry

LaBonte

Babcock

Patel

et al. 2002

The Journal of Experimental Medicine

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HIV-1 naturally infects chimpanzees and humans, but does not infect Old World monkeys because of replication blocks that occur after virus entry into the cell. To understand the species-specific restrictions operating on HIV-1 infection, the ability of HIV-1 to infect the cells of New World monkeys was examined. Primary cells derived from common marmosets and squirrel monkeys support every phase of HIV-1 replication with the exception of virus entry. Efficient HIV-1 entry typically requires binding of the viral envelope glycoproteins and host cell receptors, CD4 and either CCR5 or CXCR4 chemokine receptors. HIV-1 did not detectably bind or utilize squirrel monkey CD4 for entry, and marmoset CD4 was also very inefficient compared with human CD4. A marmoset CD4 variant, in which residues 48 and 59 were altered to the amino acids found in human CD4, supported HIV-1 entry efficiently. The CXCR4 molecules of both marmosets and squirrel monkeys supported HIV-1 infection, but the CCR5 proteins of both species were only marginally functional. These results demonstrate that the CD4 and CCR5 proteins of New World monkeys represent the major restriction against HIV-1 replication in these primates. Directed adaptation of the HIV-1 envelope glycoproteins to common marmoset receptors might allow the development of New World monkey models of HIV-1 infection.

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“…Cell lysates, virion lysates and immunoprecipitates were subjected to gel electrophoresis and then transferred to a nitrocellulose membrane. The membranes were probed with a mouse monoclonal antibody specific for the HIV-1 capsid protein (Chesebro et al, 1992) or rabbit polyclonal antisera specific for the HA epitope tag (Covance), HIV-1 Vif (Goncalves et al, 1996) or the N-peptide tag (Wiegand et al, 2003). Reactive proteins were detected using the Lumi-Light Western Blotting Substrate (Roche), as previously described (Bogerd et al, 2004).…”

Section: Western Blot Analysismentioning

confidence: 99%

A second human antiretroviral factor, APOBEC3F, is suppressed by the HIV-1 and HIV-2 Vif proteins

Wiegand

Doehle

Bogerd

et al. 2004

EMBO J

436

510

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The HIV‐1 Vif protein suppresses the inhibition of viral replication caused by the human antiretroviral factor APOBEC3G. As a result, HIV‐1 mutants that do not express the Vif protein are replication incompetent in ‘nonpermissive’ cells, such as primary T cells and the T‐cell line CEM, that express APOBEC3G. In contrast, Vif‐defective HIV‐1 replicates effectively in ‘permissive’ cell lines, such as a derivative of CEM termed CEM‐SS, that do not express APOBEC3G. Here, we show that a second human protein, APOBEC3F, is also specifically packaged into HIV‐1 virions and inhibits their infectivity. APOBEC3F binds the HIV‐1 Vif protein specifically and Vif suppresses both the inhibition of virus infectivity caused by APOBEC3F and virion incorporation of APOBEC3F. Surprisingly, APOBEC3F and APOBEC3G are extensively coexpressed in nonpermissive human cells, including primary lymphocytes and the cell line CEM, where they form heterodimers. In contrast, both genes are quiescent in the permissive CEM derivative CEM‐SS. Together, these data argue that HIV‐1 Vif has evolved to suppress at least two distinct but related human antiretroviral DNA‐editing enzymes.

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Role of Vif in human immunodeficiency virus type 1 reverse transcription

Cited by 110 publications

References 43 publications

The regulation of primate immunodeficiency virus infectivity by Vif is cell species restricted: a role for Vif in determining virus host range and cross-species transmission

The regulation of primate immunodeficiency virus infectivity by Vif is cell species restricted: a role for Vif in determining virus host range and cross-species transmission

Blockade of HIV-1 Infection of New World Monkey Cells Occurs Primarily at the Stage of Virus Entry

A second human antiretroviral factor, APOBEC3F, is suppressed by the HIV-1 and HIV-2 Vif proteins

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