F. Bibollet-Ruche scite author profile

Mandrillus sphinx, a large primate living in Cameroon and Gabon and belonging to the Papionini tribe, was reported to be infected by a simian immunodeficiency virus (SIV) (SIVmndGB1) as early as 1988. Here, we have identified a second, highly divergent SIVmnd (designated SIVmnd-2). Genomic organization differs between the two viral types; SIVmnd-2 has the additional vpx gene, like other SIVs naturally infecting the Papionini tribe (SIVsm and SIVrcm) and in contrast to the other SIVmnd type (here designated SIVmnd-1), which is more closely related to SIVs infecting l'hoest (Cercopithecus lhoesti lhoesti) and sun-tailed (Cercopithecus lhoesti solatus) monkeys. Importantly, our epidemiological studies indicate a high prevalence of both types of SIVmnd; all 10 sexually mature wild-living monkeys and 3 out of 17 wild-born juveniles tested were infected. The geographic distribution of SIVmnd seems to be distinct for the two types: SIVmnd-1 viruses were exclusively identified in mandrills from central and southern Gabon, whereas SIVmnd-2 viruses were identified in monkeys from northern and western Gabon, as well as in Cameroon. SIVmnd-2 full-length sequence analysis, together with analysis of partial sequences from SIVmnd-1 and SIVmnd-2 from wild-born or wild-living mandrills, shows that the gag and pol regions of SIVmnd-2 are closest to those of SIVrcm, isolated from red-capped mangabeys (Cercocebus torquatus), while the env gene is closest to that of SIVmnd-1. pol and env sequence analyses of SIV from a related Papionini species, the drill (Mandrillus leucophaeus), shows a closer relationship of SIVdrl to SIVmnd-2 than to SIVmnd-1. Epidemiological surveys of human immunodeficiency virus revealed a case in Cameroon of a human infected by a virus serologically related to SIVmnd, raising the possibility that mandrills represent a viral reservoir for humans similar to sooty mangabeys in Western Africa and chimpanzees in Central Africa.

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Vif Proteins from Diverse Primate Lentiviral Lineages Use the Same Binding Site in APOBEC3G

Letko

Silvestri

Hahn

et al. 2013

J Virol

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f APOBEC3G (A3G) is a cytidine deaminase that restricts human immunodeficiency virus type 1 (HIV-1) and other lentiviruses. Most of these viruses encode a Vif protein that directly binds A3G and leads to its proteasomal degradation. Both Vif proteins of HIV-1 and African green monkey simian immunodeficiency virus (SIVagm) bind residue 128 of A3G. However, this position does not control the A3G degradation by Vif variants derived from HIV-2 and SIVmac, which both originated from SIV of sooty mangabey monkeys (SIVsmm), suggesting that the A3G binding site for Vif proteins of the SIVsmm/HIV-2 lineage differs from that of HIV-1. To map the SIVsmm Vif binding site of A3G, we performed immunoprecipitations of individual A3G domains, Vif/A3G degradation assays and a detailed mutational analysis of human A3G. We show that A3G residue 129, but not the adjacent position 128, confers susceptibility to degradation by SIVsmm Vif. An artificial A3G mutant, the P129D mutant, was resistant to degradation by diverse Vifs from HIV-1, HIV-2, SIVagm, and chimpanzee SIV (SIVcpz), suggesting a conserved lentiviral Vif binding site. Gorilla A3G naturally contains a glutamine (Q) at position 129, which makes its A3G resistant to Vifs from diverse lineages. We speculate that gorilla A3G serves as a barrier against SIVcpz strains. In summary, we show that Vif proteins from distinct lineages bind to the same A3G loop, which includes positions 128 and 129. The multiple adaptations within this loop among diverse primates underscore the importance of counteracting A3G in lentiviral evolution.

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Primate Lentivirus Capsid Sensitivity to TRIM5 Proteins

Kratovac

Virgen

Bibollet-Ruche

et al. 2008

J Virol

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Mammalian cells express several factors that inhibit lentiviral infection and that have been under strong selective pressure. One of these factors, TRIM5, targets the capsid protein of incoming retrovirus particles and inhibits subsequent steps of the replication cycle. By substituting human immunodeficiency virus type 1 capsid, we were able to show that a set of divergent primate lentivirus capsids was generally not susceptible to restriction by TRIM5 proteins from higher primates. TRIM5␣ proteins from other primates exhibited distinct restriction specificities for primate lentivirus capsids. Finally, we identified novel primate lentiviral capsids that are targeted by TRIMCyp proteins.Primates have been colonized by retroviruses at various times during their evolution, leading to the selection of species-specific variants of genes encoding restriction factors that defend host cells from infection. Reciprocally, in order to colonize a particular species, retroviruses have evolved resistance to these species-specific barriers by changing their protein sequences to avoid interactions with restriction factors or by expressing small proteins that specifically neutralize them. However, the specialization involved in overcoming restriction factors present in one host species can come at the expense of acquiring susceptibility to those of another. This could, in principle, limit cross-species transmission. For example, endogenous levels of the capsid (CA)-targeting restriction factor TRIM5␣ do not inhibit human immunodeficiency virus type 1 (HIV-1) replication in humans, yet rhesus TRIM5␣ is a major barrier to HIV-1 replication in rhesus macaque cells (10,12,14,20,24,32). To explore whether TRIM5␣ is a general barrier to cross-species primate lentivirus transmission, we determined the abilities of TRIM5 proteins from various primate species to restrict divergent primate lentiviruses.A limiting factor in undertaking studies of diverse primate lentiviruses is that the complete genome sequence and infectious molecular clones are not yet available for a number of these lentiviruses. Furthermore, the generation of virus isolates and infectious molecular clones often involves passage in human cells, which might lead to the selection of mutations that alter sensitivity to human restriction factors such as TRIM5␣. However, TRIM5 proteins target the viral CA pro-* Corresponding author. Mailing address:

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CO20 - Chimpanzés, réservoirs des formes pandémiques et non pandémiques du VIH-1

Keele

Heuverswyn

et al. 2007

Annales de Dermatologie et de Vénéréologie

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Intact and replication-competent reservoir virus populations differ from each other and rebound plasma viruses

Bar

Mampe

Monroy

et al. 2019

Journal of Virus Eradication

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F. Bibollet-Ruche

Wild Mandrillus sphinx Are Carriers of Two Types of Lentivirus

Vif Proteins from Diverse Primate Lentiviral Lineages Use the Same Binding Site in APOBEC3G

Primate Lentivirus Capsid Sensitivity to TRIM5 Proteins

CO20 - Chimpanzés, réservoirs des formes pandémiques et non pandémiques du VIH-1

Intact and replication-competent reservoir virus populations differ from each other and rebound plasma viruses

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