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Query: UMLS:C0021051 (immunodeficiency)
71,517 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Several innate cellular antiviral factors exist in mammalian cells that prevent the replication of retroviruses. Among them, the tripartite motif protein (TRIM)5alpha has been shown to block human immunodeficiency virus type 1 (HIV-1) infection in several types of Old World monkey cells. Here we report a novel HIV-1 chronically infected monkey B cell line, F6/HIV-1, characterized by very low levels of TRIM5alpha expression that allows HIV-1 to overcome the restriction. Virus produced by F6/HIV-1 cells fails to infect monkey cells but retains the ability to infect human peripheral blood mononuclear cells (PBMCs) and T cell lines, although with a reduced infectivity compared to the input virus. Ultrastructural analyses revealed the presence of budding virions at the F6/HIV-1 cells plasma membrane characterized by a typical conical core shell. To our knowledge F6/HIV-1 is the first monkey cell line chronically infected by HIV-1 and able to release infectious particles thus representing a useful tool to gain further insights into the molecular mechanisms of HIV-1 pathogenesis.
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PMID:Generation of a human immunodeficiency virus type 1 chronically infected monkey B cell line expressing low levels of endogenous TRIM5alpha. 1974 18

Viral tropism, replication, and pathogenesis are determined by multiple interactions between the pathogen and the host. In the case of retroviruses, and in particular, the human immunodeficiency virus, the specific interaction of the envelope protein with the host receptors and co-receptors is essential to gain entry in the cells. After entry, the success of retroviruses to complete their life cycle depends on a complex interplay between the virus and host proteins. Indeed, the cell environment is endowed with a number of factors that actively block distinct stage(s) in the microbial life cycle. Among these restriction factors, Tripartite Motif-5 alpha (TRIM5 alpha) has been extensively studied; however, other TRIM family members have been demonstrated to be anti-retroviral effector proteins. This article reviews, in particular, the current knowledge on the anti-retroviral effects of TRIM5 alpha and TRIM22.
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PMID:Restriction factors of retroviral replication: the example of Tripartite Motif (TRIM) protein 5 alpha and 22. 1994 74

Human immunodeficiency virus type 1 (HIV-1) shows a very narrow host range limited to humans and chimpanzees. Experimentally, HIV-1 does not infect Old World monkeys, such as rhesus (Rh) and cynomolgus (CM) monkeys, and fails to replicate in activated CD4 positive T lymphocytes obtained from these monkeys. In contrast, simian immunodeficiency virus isolated from a macaque monkey (SIVmac) can replicate well in both Rh and CM. In 2004, tripartite motif 5 alpha (TRIM5 alpha) was identified as a host factor which plays an important role in the restricted host range of HIV-1. Rh and CM TRIM5 alpha restrict HIV-1 infection but not SIVmac, while in comparison, anti-viral activity of human TRIM5 alpha against those viruses is very weak. TRIM5 alpha consists of the RING, B-box 2, coiled-coil and SPRY (B30.2) domains. The RING domain is frequently found in E3 ubiquitin ligase and TRIM5 alpha is degraded via the ubiquitin-proteasome pathway during HIV-1 restriction. TRIM5 alpha recognises the multimerised capsid (viral core) of an incoming virus by its alpha-isoform specific SPRY domain and is believed to be involved in innate immunity to control retroviral infection. Differences in amino acid sequences in the SPRY domain of TRIM5 alpha of different monkey species were found to affect species-specific restriction of retrovirus infection, while differences in amino acid sequences in the viral capsid protein determine viral sensitivity to restriction. Accurate structural analysis of the binding surface between the viral capsid protein and TRIM5 alpha SPRY is thus required for the development of new antiretroviral drugs that enhance anti-HIV-1 activity of human TRIM5 alpha.
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PMID:Anti-retroviral activity of TRIM5 alpha. 2004 4

Tripartite motif (TRIM) protein TRIM5alpha has been shown to restrict human immunodeficiency virus, type 1 infection in Old World monkey cells at the early post-entry step by poorly understood mechanisms. Currently, the physiological function of TRIM5alpha is not known. In this study, we showed that transiently overexpressed TRIM5alpha causes a morphological change in HEK293T cells. A proteomics analysis of the protein complexes that were pulled down with hemagglutinin-tagged TRIM5alpha suggested that the heat shock protein 70 (Hsp70) may serve as a TRIM5alpha-binding partner. The interaction between Hsp70 and TRIM5alpha was confirmed by co-localization and co-immunoprecipitation assays. Co-expression of Hsp70 reversed the TRIM5alpha-induced morphological change in HEK293T cells. Another heat shock protein Hsc70 also bound to TRIM5alpha, but unlike Hsp70, Hsc70 was not able to reverse the TRIM5alpha-induced morphological change, suggesting that Hsp70 specifically reverses the morphological change caused by TRIM5alpha. Studies using a series of TRIM5alpha deletion mutants demonstrate that, although the PRYSPRY domain is critical for binding to Hsp70, the entire TRIM5alpha structure is necessary to induce the morphological change of cells. When the ATPase domain of Hsp70 was mutated, the mutated Hsp70 could not counteract the morphological change induced by TRIM5alpha, indicating that the catalytic activity of Hsp70 protein is important for this function. Co-expression of Hsp70 elevated the levels of TRIM5alpha in the detergent-soluble fraction with a concomitant decrease in the detergent-insoluble fraction. Together these results suggest that Hsp70 plays critical roles in the cellular management against the TRIM5alpha-induced cellular insults.
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PMID:Hsp70 interacts with the retroviral restriction factor TRIM5alpha and assists the folding of TRIM5alpha. 2005 85

Old World monkey TRIM5alpha proteins are known to block the replication of human immunodeficiency virus and other retroviruses in a species-specific fashion. In this report, we show that specific forms of simian TRIM5alpha proteins can restrict herpes simplex virus (HSV) infection. To define the effect of TRIM5alpha on HSV replication, we examined HSV infection in HeLa cell lines that stably express simian and human orthologs of TRIM5alpha proteins. We demonstrated that several simian TRIM5alpha proteins can restrict HSV replication, with the TRIM5alpha protein of rhesus macaques showing the strongest inhibition of HSV infection. We also found that the level of the inhibition of virus replication was viral strain-specific. TRIM5alpha is likely to inhibit HSV at the early stage of infection; however, at later times of infection, the levels of TRIM5alpha are significantly decreased. Thus, some TRIM5alpha proteins exhibit antiviral effects that extend beyond retroviral infections, but HSV may be able to reduce this restriction by reducing TRIM5alpha levels during the later phases of virus replication. Our results also argue that TRIM5alpha is only part of the reduced level of HSV replication in rhesus macaques, which are known to be less susceptible to HSV infection than other primates.
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PMID:Simian TRIM5alpha proteins reduce replication of herpes simplex virus. 2006 Sep 96

The cytoplasmic TRIM5alpha proteins of certain mammalian lineages efficiently recognize the incoming capsids of particular retroviruses and potently restrict infection in a species-specific manner. Successful retroviruses have evolved capsids that are less efficiently recognized by the TRIM5alpha proteins of the natural hosts. To address whether TRIM5alpha contributes to the outcome of retroviral infection in a susceptible host species, we investigated the impact of TRIM5 polymorphisms in rhesus monkeys on the course of a simian immunodeficiency virus (SIV) infection. Full-length TRIM5alpha cDNAs were derived from each of 79 outbred monkeys and sequenced. Associations were explored between the expression of particular TRIM5 alleles and both the permissiveness of cells to SIV infection in vitro and clinical sequelae of SIV infection in vivo. Natural variation in the TRIM5alpha B30.2(SPRY) domain influenced the efficiency of SIVmac capsid binding and the in vitro susceptibility of cells from the monkeys to SIVmac infection. We also show the importance in vivo of the interaction of SIVmac with different allelic forms of TRIM5, demonstrating that particular alleles are associated with as much as 1.3 median log difference in set-point viral loads in SIVmac-infected rhesus monkeys. Moreover, these allelic forms of TRIM5 were associated with the extent of loss of central memory (CM) CD4+ T cells and the rate of progression to AIDS in the infected monkeys. These findings demonstrate a central role for TRIM5alpha in limiting the replication of an immunodeficiency virus infection in a primate host.
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PMID:TRIM5alpha Modulates Immunodeficiency Virus Control in Rhesus Monkeys. 2010 97

The anti-retroviral restriction factor TRIM5alpha contains the RING domain, which is frequently observed in E3 ubiquitin ligases. It was previously proposed that TRIM5alpha restricts human immunodeficiency virus type 1 (HIV-1) via proteasome-dependent and -independent pathways. Here we examined the effects of RING domain mutations on retrovirus restriction by TRIM5alpha in various combinations of virus and host species. Simian immunodeficiency virus isolated from macaque (SIVmac) successfully avoided attacks by RING mutants of African green monkey (AGM)-TRIM5alpha that could still restrict HIV-1. Addition of proteasome inhibitor did not affect the anti-HIV-1 activity of AGM-TRIM5alpha, whereas it disrupted at least partly its anti-SIVmac activity. In the case of mutant human TRIM5alpha carrying proline at the position 332, however, both HIV-1 and SIVmac restrictions were eliminated as a result of RING domain mutations. These results suggested that the mechanisms of retrovirus restriction by TRIM5alpha vary depending on the combination of host and virus.
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PMID:Contribution of RING domain to retrovirus restriction by TRIM5alpha depends on combination of host and virus. 2011 98

TRIM5 proteins mediate a potent block to the cross-species transmission of retroviruses, the most well known being the TRIM5alpha protein from rhesus macaques, which potently inhibits human immunodeficiency virus type 1 (HIV-1) infection. This restriction occurs at an early stage in the replication cycle and is mediated by the binding of TRIM5 proteins to determinants present in the retroviral capsid. TRIM5alpha, as well as other TRIM family proteins, has been shown to be regulated by interferons (IFN). Here we show that TRIM5alpha associates with another IFN-induced gene, sequestosome-1/p62 (p62). p62 plays a role in several signal transduction cascades that are important for maintaining the antiviral state of cells. Here we demonstrate that p62 localizes to both human and rhesus macaque TRIM5alpha cytoplasmic bodies, and fluorescence resonance energy transfer (FRET) analysis demonstrates that these proteins closely associate in these structures. When p62 expression was knocked down via small interfering RNA (siRNA), the number of TRIM5alpha cytoplasmic bodies and the level of TRIM5alpha protein expression were reduced in cell lines stably expressing epitope-tagged versions of TRIM5alpha. In accordance with these data, p62 knockdown resulted in reduced TRIM5alpha-mediated retroviral restriction in cells expressing epitope-tagged TRIM5alpha or expressing endogenously expressed human TRIM5alpha. p62 may therefore operate to enhance TRIM5alpha-mediated retroviral restriction, contributing to the antiviral state of cells following IFN treatment.
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PMID:p62/sequestosome-1 associates with and sustains the expression of retroviral restriction factor TRIM5alpha. 2035 94

Rhesus macaque tripartite motif (TRIM)5alpha potently inhibits early stages of human immunodeficiency virus (HIV)-1 replication, while the human orthologue has little effect on this virus. We used PCR-based random mutagenesis to construct a large library of human TRIM5alpha variants containing mutations in the PRYSPRY domain. We then applied a functional screen to isolate human cells made resistant to HIV-1 infection by the expression of a mutated TRIM5alpha. This protocol led to the characterization of a human TRIM5alpha variant containing a mutation at arginine 335 as conferring resistance to HIV-1 infection. The level of protection stemming from expression of this mutant was comparable to that of previously described mutations at position 332. R332/R335 double mutants decreased permissiveness to HIV-1 and to other lentiviruses by 20- to 50-fold in TE671 fibroblasts and in the T-cell line SUP-T1, and prevented HIV-1 spreading infection as efficiently as the rhesus macaque TRIM5alpha orthologue did. The finding that only two substitutions in human TRIM5alpha can confer resistance to HIV-1 at levels as high as one of the most potent natural orthologues of TRIM5alpha removes a roadblock toward the use of this restriction factor in human gene therapy applications.
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PMID:Generation of human TRIM5alpha mutants with high HIV-1 restriction activity. 2035 30

Simian immunodeficiency viruses of sooty mangabeys (SIVsm) are the source of multiple, successful cross-species transmissions, having given rise to HIV-2 in humans, SIVmac in rhesus macaques, and SIVstm in stump-tailed macaques. Cellular assays and phylogenetic comparisons indirectly support a role for TRIM5alpha, the product of the TRIM5 gene, in suppressing interspecies transmission and emergence of retroviruses in nature. Here, we investigate the in vivo role of TRIM5 directly, focusing on transmission of primate immunodeficiency viruses between outbred primate hosts. Specifically, we retrospectively analyzed experimental cross-species transmission of SIVsm in two cohorts of rhesus macaques and found a significant effect of TRIM5 genotype on viral replication levels. The effect was especially pronounced in a cohort of animals infected with SIVsmE543-3, where TRIM5 genotype correlated with approximately 100-fold to 1,000-fold differences in viral replication levels. Surprisingly, transmission occurred even in individuals bearing restrictive TRIM5 genotypes, resulting in attenuation of replication rather than an outright block to infection. In cell-culture assays, the same TRIM5 alleles associated with viral suppression in vivo blocked infectivity of two SIVsm strains, but not the macaque-adapted strain SIVmac239. Adaptations appeared in the viral capsid in animals with restrictive TRIM5 genotypes, and similar adaptations coincide with emergence of SIVmac in captive macaques in the 1970s. Thus, host TRIM5 can suppress viral replication in vivo, exerting selective pressure during the initial stages of cross-species transmission.
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PMID:TRIM5 suppresses cross-species transmission of a primate immunodeficiency virus and selects for emergence of resistant variants in the new species. 2080 77

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