Virion-associated Uracil DNA Glycosylase-2 and Apurinic/Apyrimidinic Endonuclease Are Involved in the Degradation of APOBEC3G-edited Nascent HIV-1 DNA

Yang, Bin; Chen, Keyang; Zhang, Chune; Huang, Sophia; Zhang, Hui

doi:10.1074/jbc.m606864200

Cited by 121 publications

(127 citation statements)

References 52 publications

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“…One well-characterized mechanism is the enzymatic deamination of cytosine in the minus strand of HIV-1 cDNA by members of the APOBEC3 subfamily (APOBEC3D, -F, -G, and -H) to generate C/G→U/A transition mutations after plus strand synthesis (43,44). This deamination mechanism leads to lethal hypermutation of the viral genome and potent restriction of viral infection, but there are conflicting reports as to whether UNG2 excision of uracils is part of the restriction mechanism (45)(46)(47). In contrast, the dUTP-mediated mechanism elaborated here results in nonmutagenic incorporation of uracil on both strands of the viral DNA and requires hUNG2 to prevent viral integration.…”

Section: Discussionmentioning

confidence: 99%

Uracil DNA glycosylase initiates degradation of HIV-1 cDNA containing misincorporated dUTP and prevents viral integration

Weil

Ghosh²,

Zhou

et al. 2013

Proc. Natl. Acad. Sci. U.S.A.

119

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Significance Misincorporation of dUTP into DNA is detrimental to eukaryotes, prokaryotes, and viruses. This study reveals the fate of uracilated HIV-1 DNA in human cells. Early stages of the viral life cycle are unaffected, but integration of uracilated viral DNA into the host genome is prevented. This effect is wholly dependent on the presence of UNG2, a nuclear enzyme that excises uracil from DNA. This study establishes that UNG2 is a restriction factor for uracilated HIV-1 DNA and explains why this pathway is not fully engaged in CD4+ T cells and macrophages.

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Section: Discussionmentioning

confidence: 99%

Uracil DNA glycosylase initiates degradation of HIV-1 cDNA containing misincorporated dUTP and prevents viral integration

Weil

Ghosh²,

Zhou

et al. 2013

Proc. Natl. Acad. Sci. U.S.A.

119

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“…1a). These plasmids were transfected into 293T cells, which naturally do not express A3G (22,27), with or without an A3G-HA-expressing plasmid. Fig.…”

Section: A3g Counteracts Mirna-mediated Repression Of Proteinmentioning

confidence: 99%

“…A3G can be incorporated into HIV-1 particles and cause extensive C to U conversion in the viral minusstranded DNA during reverse transcription (24 -26), which can trigger its degradation by virion-associated uracil DNA glycosylase-2 (UNG2) and apurinic/apyrimidinic endonucleases (APE) or lethal hypermutation in the HIV-1 genome (26,27). However, accumulating evidence indicates that A3G protein carrying mutations in the catalytic domain of the cytidine deaminase retains substantial anti-HIV-1 activity (24, 28 -31).…”

mentioning

confidence: 99%

Derepression of MicroRNA-mediated Protein Translation Inhibition by Apolipoprotein B mRNA-editing Enzyme Catalytic Polypeptide-like 3G (APOBEC3G) and Its Family Members

Huang

Liang

Yang

et al. 2007

Journal of Biological Chemistry

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113

100

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The apolipoprotein B mRNA-editing enzyme catalytic polypeptide-like 3G (APOBEC3G or A3G) and its fellow cytidine deaminase family members are potent restrictive factors for human immunodeficiency virus type 1 (HIV-1) and many other retroviruses. A3G interacts with a vast spectrum of RNAbinding proteins and is located in processing bodies and stress granules. However, its cellular function remains to be further clarified. Using a luciferase reporter gene and green fluorescent protein reporter gene, we demonstrate that A3G and other APOBEC family members can counteract the inhibition of protein synthesis by various microRNAs (miRNAs) such as mir-10b, mir-16, mir-25, and let-7a. A3G could also enhance the expression level of miRNA-targeted mRNA. Further, A3G facilitated the association of microRNA-targeted mRNA with polysomes rather than with processing bodies. Intriguingly, experiments with a C288A/C291A A3G mutant indicated that this function of A3G is separable from its cytidine deaminase activity. Our findings suggest that the major cellular function of A3G, in addition to inhibiting the mobility of retrotransposons and replication of endogenous retroviruses, is most likely to prevent the decay of miRNA-targeted mRNA in processing bodies. MicroRNAs (miRNAs)2 are 20 -22-nt regulatory RNAs that participate in the regulation of various biological functions in numerous eukaryotic lineages, including plants, insects, vertebrate, and mammals (1-3). More than 474 miRNAs have been identified in humans so far, and ϳ30% of the genes in the human genome are predicted to be subject to miRNA regulation (4). The expression of many miRNAs is usually specific to a tissue or developmental stage, and the miRNA expression pattern is altered during the development of many diseases (3). Mature miRNAs are generated from RNA polymerase II-transcribed primary miRNAs that are processed sequentially by the nucleases Drosha and Dicer. Although miRNA can guide mRNA cleavage, the basic function of miRNA is to mediate inhibition of protein translation (1, 5-8) through miRNA-induced silencing complexes (miRISCs). The guiding strand of miRNA in a miRISC interacts with a complementary sequence in the 3Ј-untranslated region (3Ј-UTR) of its target mRNA by partial sequence complementarities, resulting in translational inhibition (1). A 7-nucleotide "seed" sequence (at positions 2-8 from the 5Ј-end) in miRNAs seems to be essential for this action (4). The composition of the miRISC is similar to that of the RNA-induced silencing complex (RISC), which is responsible for mRNA cleavage guided by small interfering RNAs (siRNAs) (1, 3, 7). Nevertheless, some differences exist between miRISCs and siRNA RISCs. For example, the major Argonaute protein in siRNA RISC is Ago-2, whereas all four of the Ago proteins (Ago1-4) are found in miRISC (3,8). Further, the siRNA RISC may be associated with various RNA-binding proteins such as fragile-X mental retardation protein (FMRP), TAR RNA-binding protein (TRBP), and the human homolog of the Drosophila helicase Arm...

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“…However, it is notable that although some reports have indicated a role for the UNG as well as possibly the SMUG1 uracil DNA glycosylase (42,50), APOBEC3-mediated restriction is actually unaffected by a deficiency of UNG activity (24,34). Consistent with this result, we find that expression of Ugi, a potent and irreversible inhibitor of UNG, in human 293T cells does not influence the antiviral properties of APOBEC3G on HIV ⌬Vif infection whether the inhibitor is expressed in the producer cells and/or in the target cells (Fig.…”

mentioning

confidence: 99%

Human APOBEC3G Can Restrict Retroviral Infection in Avian Cells and Acts Independently of both UNG and SMUG1

Langlois

Neuberger

2008

J Virol

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APOBEC3 proteins are mammal-specific cytidine deaminases that can restrict retroviral infection. The exact mechanism of the restriction remains unresolved, but one model envisions that uracilated retroviral cDNA, generated by cytidine deamination, is the target of cellular glycosylases. While restriction is unaffected by UNG deficiency, it has been suggested that the SMUG1 glycosylase might provide a backup. We found that retroviral restriction can be achieved by introducing human APOBEC3G into chicken cells (consistent with the components necessary for APOBEC3-mediated restriction predating mammalian evolution) and used this assay to show that APOBEC3G-mediated restriction can occur in cells deficient in both UNG and SMUG1.

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Virion-associated Uracil DNA Glycosylase-2 and Apurinic/Apyrimidinic Endonuclease Are Involved in the Degradation of APOBEC3G-edited Nascent HIV-1 DNA

Cited by 121 publications

References 52 publications

Uracil DNA glycosylase initiates degradation of HIV-1 cDNA containing misincorporated dUTP and prevents viral integration

Uracil DNA glycosylase initiates degradation of HIV-1 cDNA containing misincorporated dUTP and prevents viral integration

Derepression of MicroRNA-mediated Protein Translation Inhibition by Apolipoprotein B mRNA-editing Enzyme Catalytic Polypeptide-like 3G (APOBEC3G) and Its Family Members

Human APOBEC3G Can Restrict Retroviral Infection in Avian Cells and Acts Independently of both UNG and SMUG1

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