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Query: UMLS:C0019693 (
HIV
)
170,526
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
HIV
-1 infects immature dendritic cells (iDCs), but infection is inefficient compared with activated CD4+ T cells and only involves a small subset of iDCs. We analyzed whether this could be attributed to specific cellular restrictions during the viral life cycle. To study env-independent restriction to
HIV
-1 infection, we used a single-round infection assay with
HIV
-1 pseudotyped with vesicular stomatitis virus G protein (HIV-VSVG). Small interfering RNA-mediated depletion of APOBEC3G/3F (A3G/3F), but not TRIM5alpha, enhanced
HIV
-1 infection of iDCs, indicating that A3G/3F controls the sensitivity of iDCs to
HIV
-1 infection. Furthermore, sequences of
HIV
reverse transcripts revealed G-to-A hypermutation of
HIV
genomes during iDC infection, demonstrating A3G/3F
cytidine deaminase
activity in iDCs. When we separated the fraction of iDCs that was susceptible to
HIV
, we found the cells to be deficient in A3G messenger RNA and protein. We also noted that during DC maturation, which further reduces susceptibility to infection, A3G levels increased. These findings highlight a role for A3G/3F in explaining the resistance of most DCs to
HIV
-1 infection, as well as the susceptibility of a fraction of iDCs. An increase in the A3G/3F-mediated intrinsic resistance of iDCs could result in a block of
HIV infection
at its mucosal point of entry.
...
PMID:APOBEC3G/3F mediates intrinsic resistance of monocyte-derived dendritic cells to HIV-1 infection. 1714 55
Vif is an
HIV
accessory protein whose primary function is to negate the action of APOBEC3G, a naturally occurring cellular inhibitor of
HIV
replication. Vif acts by binding to APOBEC3G, inducing its protein degradation within infected cells and reducing its levels in progeny virions. Interventions that interfere with the Vif-APOBEC3G interaction, raise intracellular or virion associated levels of APOBEC3G, or reduce intracellular levels of Vif, all could hold promise as potential therapeutic approaches aimed at enhancing the cells innate antiviral activity. Levels of APOBEC3G might be increased or Vif levels decreased, by strategies targeting protein synthesis, protein degradation or cellular localisation and function, and properties of APOBEC3G and Vif relevant to these strategies are discussed. Recent data have suggested that Vif may have other mechanisms of action apart from the above activities against APOBEC3G, including effects against other anti-viral mechanisms independent of APOBEC3G
cytidine deaminase
activity. In addition to interaction with APOBEC3G, Vif may have other accessory functions, which are discussed in relation to potential therapies that may affect multiple stages of the
HIV
life cycle. Future development of strategies that combine enhancement of APBOEC3G functional with inhibition of multiple Vif functions may become useful tools for
HIV
therapy.
...
PMID:Cellular interactions of virion infectivity factor (Vif) as potential therapeutic targets: APOBEC3G and more? 1716 33
The editing process may play an essential role in the antiviral cell defense. The human
cytidine deaminase
APOBEC3G, that catalyses the deoxycytidine to deoxyuridine deamination reaction in the reverse transcript of the
HIV
-1 genome, leads to instability of the viral DNA, if only
HIV
-1 virion is defective and lacks the Vif protein. This mechanism has an affect on G-A hipermutation appearing in the provirus DNA and defective
HIV
-1 viral RNA, yielded in infected cell. Such hipermutation has previously been discovered in the viral
HIV
-1 genome, produced in peripheral blood mononuclears that were long-term cultured after collection from infected patient. Probably, the deamination reaction that is inhibited in the wild type
HIV
-1 by the Vif protein, occurs rarely during infection and thus increases viral diversity and drug's resistance. In this review, we present the results of latest studies concerning the mechanism of viral DNA deamination, specifity of this process and APOBEC3G -
HIV
-1 Vif interactions, that may be useful in designing the new anti-
HIV
therapies.
...
PMID:[The innate antiretroviral defense of human cells, based on the DNA editing]. 1720 Oct 59
Human T cell leukemia virus type 1 (HTLV-1) has evolved a remarkable strategy to thwart the antiviral effects of the cellular
cytidine deaminase
APOBEC3G (hA3G). HTLV-1 infects T lymphocytes in vivo, where, like
HIV
-1, it is likely to encounter hA3G.
HIV
-1 counteracts the innate antiviral activity of hA3G by producing an accessory protein, Vif, which hastens the degradation of hA3G. In contrast, HTLV-1 does not encode a Vif homologue; instead, HTLV-1 has evolved a cis-acting mechanism to prevent hA3G restriction. We demonstrate here that a peptide motif in the C terminus of the HTLV-1 nucleocapsid (NC) domain inhibits hA3G packaging into nascent virions. Mutation of amino acids within this region resulted in increased levels of hA3G incorporation into virions and increased susceptibility to hA3G restriction. Elements within the C-terminal extension of the NC domain are highly conserved among the primate T cell leukemia viruses, but this extension is absent in all other retroviral NC proteins.
...
PMID:Resistance of human T cell leukemia virus type 1 to APOBEC3G restriction is mediated by elements in nucleocapsid. 1729 50
Apolipoprotein B mRNA-editing enzyme, catalytic polypeptide-like 3G (APOBEC3G), a human
cytidine deaminase
, is a potent inhibitor of
HIV
replication. To explore a possible role of this protein in modulating in vivo susceptibility to
HIV infection
, we analyzed APOBEC3G expression in
HIV
-exposed seronegative individuals,
HIV
-seropositive patients, and healthy control subjects. The results showed that the expression of APOBEC3G is significantly increased in peripheral blood mononuclear cells (PBMCs)--mainly CD14(+) cells--and in cervical tissues of
HIV
-exposed seronegative individuals. Higher APOBEC3G expression correlated with a reduced susceptibility of PBMCs to in vitro infection with the
HIV
-1(Ba-L) R5 strain. APOBEC3G could be important in modulating in vivo susceptibility to sexually transmitted
HIV infection
.
...
PMID:Apolipoprotein B mRNA-editing enzyme, catalytic polypeptide-like 3G: a possible role in the resistance to HIV of HIV-exposed seronegative individuals. 1733 Jul 85
APOBEC3G (A3G) is a single-stranded DNA
cytidine deaminase
that targets retroviral minus-strand DNA and has potent antiviral activity against diverse retroviruses. However, the mechanisms of A3G antiviral functions are incompletely understood. Here we demonstrate that A3G, A3F, and, to a lesser extent, the noncatalytic A3GC291S block human immunodeficiency virus type 1 (HIV-1) replication by interfering with proviral DNA formation. In
HIV
-1 virions, A3G interacted with
HIV
-1 integrase and nucleocapsid, key viral factors for reverse transcription and integration. Unlike A3G, the weak antiviral A3C
cytidine deaminase
did not interact with either of these factors and did not affect viral reverse transcription or proviral DNA formation. Thus, multiple steps of the
HIV
-1 replication cycle, most noticeably the formation of proviral DNA, are inhibited by both cytidine deamination-dependent and -independent mechanisms.
...
PMID:Cytidine deaminases APOBEC3G and APOBEC3F interact with human immunodeficiency virus type 1 integrase and inhibit proviral DNA formation. 1742 47
The mammalian APOBEC3 proteins are cytidine deaminases that function as inhibitors of retrovirus replication and retrotransposon mobility. An issue that has remained controversial is whether the editing of deoxycytidine residues to deoxyuridine is necessary and sufficient for this inhibition or whether APOBEC3 proteins also exert a second, distinct inhibitory mechanism. Here, we present an analysis of the ability of mutants of APOBEC3G and APOBEC3B, both of which contain two consensus
cytidine deaminase
active sites, to inhibit the replication of human immunodeficiency virus. Our data confirm that APOBEC3G only contains a single, carboxy-terminal active site but, surprisingly, reveal that both
cytidine deaminase
consensus sequences in APOBEC3B are enzymatically active. Enzymatically inactive mutant forms of APOBEC3G and APOBEC3B were found to retain the ability to inhibit the infectivity of
HIV
-1 virions produced in their presence by approximately 4-fold and approximately 8-fold, respectively. While this inhibition was significantly less than the level seen with wild-type forms of A3G or A3B, these data, nevertheless argue that the inhibition of
HIV
-1 by APOBEC3 proteins is at least partly independent of DNA editing.
...
PMID:The intrinsic antiretroviral factor APOBEC3B contains two enzymatically active cytidine deaminase domains. 1743 55
Human immunodeficiency virus type 1 (HIV-1) Vif counteracts the antiviral activity of the human
cytidine deaminase
APOBEC3G (APO3G) by inhibiting its incorporation into virions. This has been attributed to the Vif-induced degradation of APO3G by cytoplasmic proteasomes. We recently demonstrated that although APO3G has a natural tendency to form RNA-dependent homo-multimers, multimerization was not essential for encapsidation into
HIV
-1 virions or antiviral activity. We now demonstrate that a multimerization-defective APO3G variant (APO3G C97A) is able to assemble into RNase-sensitive high-molecular-mass (HMM) complexes, suggesting that homo-multimerization of APO3G and assembly into HMM complexes are unrelated RNA-dependent processes. Interestingly, APO3G C97A was highly resistant to Vif-induced degradation even though the two proteins were found to interact in coimmunoprecipitation experiments and exhibited partial colocalization in transfected HeLa cells. Surprisingly, encapsidation and antiviral activity of APO3G C97A were both inhibited by Vif despite resistance to degradation. These results demonstrate that targeting of APO3G to proteasome degradation and interference with viral encapsidation are distinct functional properties of Vif.
...
PMID:Human immunodeficiency virus type 1 Vif inhibits packaging and antiviral activity of a degradation-resistant APOBEC3G variant. 1752 11
Discovery of activation-induced cytidine deaminase (AID) paved a new path to unite two genetic alterations induced by antigen stimulation; class switch recombination (CSR) and somatic hypermutation (SHM). AID is now established to cleave specific target DNA and to serve as engraver of these genetic alterations. AID of a 198-residue protein has four important domains: nuclear localization signal and SHM-specific region at the N-terminus; the alpha-helical segment (residue 47-54) responsible for dimerization; catalytic domain (residues 56-94) shared by all the other
cytidine deaminase
family members; and nuclear export signal overlapping with class switch-specific domain at the C-terminus. Two alternative models have been proposed for the mode of AID action; whether AID directly attacks DNA or indirectly through RNA editing. Lines of evidence supporting RNA editing hypothesis include homology in various aspects with APOBEC1, a bona fide RNA editing enzyme as well as requirement of de novo protein synthesis for DNA cleavage by AID in CSR and SHM. This chapter critically evaluates DNA deamination hypothesis and describes evidence to indicate UNG is involved not in DNA cleavage but in DNA repair of CSR. In addition, UNG appears to have a noncanonical function through interaction with an
HIV
Vpr-like protein at the WXXF motif. Taken together, RNA editing hypothesis is gaining the ground.
...
PMID:Discovery of activation-induced cytidine deaminase, the engraver of antibody memory. 1756 Feb 70
Human immunodeficiency virus tyoe 1 (HIV-1) Vif counteracts host restriction
cytidine deaminase
(APOBEC3G) A3G by co-opting the cellular ubiquitin-proteasome machinery. Vif utilizes a viral-specific BC-box to recruit ElonginB-ElonginC and a novel zinc-binding HCCH motif to recruit Cullin5 (Cul5) to form an E3 ubiquitin ligase targeting A3G for polyubiquitination and subsequently proteasomal degradation. To determine the structural requirements in
HIV
-1 Vif HCCH motif for Cul5 binding and Vif function, we investigated the arrangement of the His and Cys residues, the role of the spacing between them, and the requirement for the conserved residues. Our data demonstrate that exchanging Cys for His and vice versa in the highly conserved Zn-coordinating HCCH motif disrupted Vif function and interaction with Cul5. Moreover, the maintenance of both conserved residues and spacing within the HCCH motif is critical for Vif function. We have identified a "viral Cul5 box" with consensus Hx2YFxCFx4Phix2APhix7-8Cx5H that is required for Cul5 selection and subsequent A3G degradation. This novel motif may represent a potential new target for anti-viral drug development.
...
PMID:Characterization of a novel Cullin5 binding domain in HIV-1 Vif. 1786 71
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