UMLS:C0021051 - FACTA Search

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

Herpesviruses and poxviruses are known to encode the DNA repair enzyme uracil-DNA glycosylase (UNG), an enzyme involved in the base excision repair pathway that specifically removes the RNA base uracil from DNA, while at least one retrovirus (human immunodeficiency virus type 1) packages cellular UNG into virus particles. In these instances, UNG is implicated as being important in virus replication. However, a clear understanding of the role(s) of UNG in virus replication remains elusive. Herpesviruses, poxviruses and some retroviruses encode dUTPase, an enzyme that can minimize the misincorporation of uracil into DNA. The encoding of dUTPase by these viruses also implies their importance in virus replication. An understanding at the molecular level of how these viruses replicate in non-dividing cells should provide clues to the biological relevance of UNG and dUTPase function in virus replication.
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PMID:Roles of uracil-DNA glycosylase and dUTPase in virus replication. 1223 14

Several retroviruses, including equine infectious anemia virus (EIAV), visna virus, caprine arthritis-encephalitis virus (CAEV) and feline immunodeficiency virus (FIV) encode dUTPase. The role of this enzyme in the replication of these viruses has been scrutinized, with particular emphasis on potential roles for dUTPase in virulence and viral mutation rate. Overall, the results of these studies have indicated a central role for dUTPase in facilitating productive viral replication in non-dividing cells. The requirement for dUTPase in EIAV, which replicates exclusively in macrophages, may be the most stringent. Studies of dUTPase mutants of virulent EIAV clones suggest that the enzyme is a major determinant of virulence. In contrast, FIV readily replicates in dividing cell populations such as CD4+ and CD8+ T cells, and B cells as well as in non-dividing macrophages. Thus, the virus burden and disease sequelae are lowered in cats infected with a dUTPase-minus FIV relative to cats infected with wild type FIV, but not totally abrogated. Growth in macrophages is attenuated with the DU-minus FIV with evidence of a 5 to 8-fold increase in G-->A transition mutations in viral integrants present in macrophages. These findings are consistent with an increase in uracil misincorporation in the absence of dUTPase, resulting in transition mutations that cripple the virus. Effects on virus replication and disease production have also been noted for dUTPase-deleted CEAV and visna virus. While HIV and SIV do not encode dUTPase some reports suggest that other viral and host cell factors may substitute for its activity. Betaretroviruses also encode dUTPase and while several of these cause significant disease, the role of dUTPase in their replication and pathogenesis is currently unknown.
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PMID:The role of retroviral dUTPases in replication and virulence. 1237 97

Many retroviruses either encode dUTP pyrophosphatase (dUTPase) or package host-derived uracil DNA glycosylase as a means to limit the accumulation of uracil in DNA strands, suggesting that uracil is detrimental to one or more steps in the viral life cycle. In the present study, the effects of DNA uracilation on (-) strand DNA synthesis, RNase H activity, and (+) strand DNA synthesis were investigated in a cell-free system. This system uses the activities of purified human immunodeficiency virus type 1 (HIV-1) reverse transcriptase to convert single-stranded RNA to double-stranded DNA in a single reaction mixture. Substitution of dUTP for dTTP had no effect on (-) strand synthesis but significantly decreased yields of (+) strand DNA. Mapping of nascent (+) strand 5' ends revealed that this was due to decreased initiation from polypurine tracts with a concomitant increase in initiation at non-polypurine tract sites. Aberrant initiation correlated with a change in RNase H cleavage specificity when assayed on preformed RNA-DNA duplexes containing uracilated DNA, suggesting that appropriate "selection" of the (+) strand primer is affected. Collectively, these data suggest that accumulation of uracil in retroviral DNA may disrupt the viral life cycle by altering the specificity of (+) strand DNA synthesis initiation during reverse transcription.
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PMID:Incorporation of uracil into minus strand DNA affects the specificity of plus strand synthesis initiation during lentiviral reverse transcription. 1245 16

In the pol gene of bovine immunodeficiency virus (BIV) there is a sequence, located between the reverse-transcriptase and integrase (IN)-encoding sequences, that is not found in HIV-1 pol gene and encodes a 74-residue polypeptide with homology to dUTPases. We have expressed two BIV IN versions that differ in their amino termini. The longer version, containing the 74-residue sequence, did not show any detectable 3'-end processing and strand transfer IN activities and performed only the IN-associated disintegration. Consequently, the shorter version, lacking the dUTPase-related residues, performed all three activities and is most likely similar to the viral enzyme. A comparison between BIV IN and the well-studied HIV-1 IN, with substrates that mimic the U5 LTR sequences of BIV, HIV-1 and another bovine lentivirus, Jembrana disease virus, revealed that the extra 3'-end sequence beyond the conserved "CA" is probably less important for IN activities than the sequence upstream to the "CA".
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PMID:Expression and characterization of the integrase of bovine immunodeficiency virus. 1797 81

Feline immunodeficiency virus (FIV)-infected cats enter a clinically asymptomatic phase during chronic infection. Despite the lack of overt clinical disease, the asymptomatic phase is characterized by persistent immunologic impairment. In the peripheral blood obtained from cats experimentally infected with FIV-C for approximately 5 years, we identified a persistent inversion of the CD4/CD8 ratio. We cloned and sequenced the FIV-C long terminal repeat containing the viral promoter from cells infected with the inoculating virus and from in vivo-derived peripheral blood mononuclear cells and CD4 T cells isolated at multiple time points throughout the asymptomatic phase. Relative to the inoculating virus, viral sequences amplified from cells isolated from all of the infected animals demonstrated multiple single nucleotide mutations and a short deletion within the viral U3, R and U5 regions. A transcriptionally inactivating proviral mutation in the U3 promoter AP-1 site was identified at multiple time points from all of the infected animals but not within cell-associated viral RNA. In contrast, no mutations were identified within the sequence of the viral dUTPase gene amplified from PBMC isolated at approximately 5 years post-infection relative to the inoculating sequence. The possible implications of these mutations to viral pathogenesis are discussed.
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PMID:Peripheral immunophenotype and viral promoter variants during the asymptomatic phase of feline immunodeficiency virus infection. 2429 Dec 88

Retroviruses are among the best studied viruses in last decades due to their pivotal involvement in cellular processes and, most importantly, in causing human diseases, most notably-acquired immunodeficiency syndrome (AIDS) that is triggered by human immunodeficiency viruses types 1 and 2 (HIV-1 and HIV-2, respectively). Numerous studied were conducted to understand the involvement of the three cardinal retroviral enzymes, reverse transcriptase, integrase and protease, in the life cycle of the viruses. These studies have led to the development of many inhibitors of these enzymes as anti-retroviral specific drugs that are used for routine treatments of HIV/AIDS patients. Interestingly, a fourth virus-encoded enzyme, the deoxyuridine 5'-triphosphate nucleotidohydrolase (dUTPase) is also found in several major retroviral groups. The presence and the importance of this enzyme to the life cycle of retroviruses were usually overlooked by most retrovirologists, although the occurrence of dUTPases, particularly in beta-retroviruses and in non-primate retroviruses, is known for more than 20 years. Only more recently, retroviral dUTPases were brought into the limelight and were shown in several cases to be essential for viral replication. Therefore, it is likely that future studies on this enzyme will advance our knowledge to a level that will allow designing novel, specific and potent anti-dUTPase drugs that are effective in combating retroviral diseases. The aim of this review is to give concise background information on dUTPases in general and to summarize the most relevant data on retroviral dUTPases and their involvement in the replication processes and pathogenicity of the viruses, as well as in possibly-associated human diseases.
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PMID:dUTPase: the frequently overlooked enzyme encoded by many retroviruses. 2637 May 46

This study was stimulated by our previous research of the dUTPase-related protein from bovine immunodeficiency virus (BIV) (Voronin et al., 2014). Despite the lack of detectable enzymatic BIV dUTPase activity (both of the recombinant protein and in virions), mutating the dUTPase gene was deleterious to viral production. However, cDNA synthesis and integration were apparently unaffected. Consequently, we have studied here two important issues. First, we showed that in cDNA produced by the dUTPase-mutated virions, the incidence of mutations was not higher than that found in wild-type BIV-infected cells. Second, single mutations, introduced in preserved dUTPase residues Asp48 and Asn57 (in the putative dUTPase active site or close to it), have led to abortive BIV infections (except for the conservative Asp48Glu mutation). Therefore, we postulate that the BIV dUTPase-related protein has a critical role in retroviral replication at steps that take place after viral cDNA synthesis and integration.
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PMID:Insights into the molecular and biological features of the dUTPase-related gene of bovine immunodeficiency virus. 2834 88

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