APOBEC3G Regulation of the Evolutionary Race Between Adaptive Immunity and Viral Immune Escape Is Deeply Imprinted in the HIV Genome

Borzooee, Faezeh; Joris, Krista D.; Grant, Michael D.; Larijani, Mani

doi:10.3389/fimmu.2018.03032

Cited by 6 publications

(16 citation statements)

References 160 publications

(168 reference statements)

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“…Accumulating evidence indicates that A3G induces sub-lethal hypermutations in the Vif-positive HIV-1 genome and plays an important role in the production of defective proviral DNA in the HIV-1 reservoir (Borzooee et al, 2018; Cuevas et al, 2015; De Pasquale et al, 2013; Kieffer et al, 2005). A3G-induced hypermutations in vif and env genes of proviruses in vivo have been reported by several groups (Fourati et al, 2010; Simon et al, 2005).…”

Section: Resultsmentioning

confidence: 99%

“…The development of A3G-mediated sub-lethal hypermutations in the Vif-positive HIV-1 genome in vitro and in vivo has been widely accepted (Borzooee et al, 2018; Cuevas et al, 2015; De Pasquale et al, 2013; Jern et al, 2009; Kieffer et al, 2005; Kim et al, 2010; Mulder et al, 2008; Sadler et al, 2010; Zhang et al, 2003). Given that USP49 protects A3G from the Vif-dependent and Vif-independent degradation pathway, it is important to study the possible correlation between USP49 expression and A3G expression, and subsequently HIV-1 disease progression.…”

Section: Discussionmentioning

confidence: 99%

“…CBF-β can increase the stability of HIV-1 Vif and promote assembly of the Vif-Cullin 5-E3-ubiquitin-ligase complex (Jäger et al, 2011; Zhang et al, 2011). Further, some clinical in vivo analyses of Vif-positive HIV-1 quasispecies indicated that A3G mediates lethal hypermutations and leads to the accumulation of G-to-A hypermutations in the Vif-positive HIV-1 genome, subsequently resulting in a large number of defective proviruses in the viral reservoir (Borzooee et al, 2018; Cuevas et al, 2015; De Pasquale et al, 2013; Kieffer et al, 2005). The expression level of A3G is also correlated with viremia and CD4 counts in the peripheral blood (Amoêdo et al, 2011; Jin et al, 2005; Kourteva et al, 2012; Pace et al, 2006; Ulenga et al, 2008; Vázquez-Pérez et al, 2009).…”

Section: Introductionmentioning

confidence: 99%

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USP49 potently stabilizes APOBEC3G protein by removing ubiquitin and inhibits HIV-1 replication

Pan

Zheng

et al. 2019

eLife

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The antiviral activity of host factor apolipoprotein B mRNA editing enzyme catalytic polypeptide-like 3G (APOBEC3G, A3G) and its degradation mediated by human immunodeficiency virus type 1 (HIV-1) Vif protein are important topics. Although accumulating evidence indicates the importance of deubiquitination enzymes (DUBs) in innate immunity, it is unknown if they participate in A3G stability. Here, we found that USP49 directly interacts with A3G and efficiently removes ubiquitin, consequently increasing A3G protein expression and significantly enhancing its anti-HIV-1 activity. Unexpectedly, A3G degradation was also mediated by a Vif- and cullin-ring-independent pathway, which was effectively counteracted by USP49. Furthermore, clinical data suggested that USP49 is correlated with A3G protein expression and hypermutations in Vif-positive proviruses, and inversely with the intact provirus ratio in the HIV-1 latent reservoir. Our studies demonstrated a mechanism to effectively stabilize A3G expression, which could comprise a target to control HIV-1 infection and eradicate the latent reservoir.

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Section: Resultsmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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USP49 potently stabilizes APOBEC3G protein by removing ubiquitin and inhibits HIV-1 replication

Pan

Zheng

et al. 2019

eLife

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“…It has been found that some A3 proteins may indirectly contribute to retroviral evolution, where the cytidine deaminase activity of the A3 protein helps the virus to acquire mutations that will make it more fit. Studies by Kim [3,5,10]. It was also shown that A3 proteins can mutate viruses so that they can use different receptors on the cell surface for entry into the host cell [5].…”

Section: Retroviral Evolutionmentioning

confidence: 99%

“…Immune escape refers to a situation where a pathogen evades detection by the host's immune system. In the case of retroviruses, this immune escape can be aided by A3 proteins [1,10,13]. As mentioned earlier, A3 proteins may sometimes cause sublethal mutations, which could help the virus to avoid detection by cytotoxic T cells (CTL), which kill infected cells [1,10,13].…”

Section: Immune Escapementioning

confidence: 99%

Effects of APOBEC3G's Cytidine Deaminase Activity on Retroviral Evolution

Obikili

2021

CUSJ

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Apolipoprotein B editing complex (APOBEC3/A3) genes are found in mammalian cells. In primates, there are 7 APOBEC3 genes, namely, 3A, 3B, 3C, 3DE, 3F, 3G, and 3H. Previous research has shown that A3 proteins help to inhibit viral infection via their cytidine deaminase activity. However, it has also been found that A3 proteins could also lead to viral evolution, where viruses such as HIV (Human Immunodeficiency Virus) instead gain beneficial mutations that enable them to overcome the antiviral activity of A3 proteins, gain resistance to certain drugs used for treating viral infections and escape recognition by the immune system. This paper is a review article summarizing the role of A3G on viral infection and evolution, and the potential impact viral evolution could have in treatment of retroviral infections such as HIV.

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APOBECs orchestrate genomic and epigenomic editing across health and disease

et al. 2021

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APOBEC proteins can deaminate cytosine residues in DNA and RNA. This can lead to somatic mutations, DNA breaks, RNA modifications, or DNA demethylation in a selective manner. APOBECs function in various cellular compartments and recognize different nucleic acid motifs and structures. They orchestrate a wide array of genomic and epigenomic modifications, thereby affecting various cellular functions positively or negatively, including immune editing, viral and retroelement restriction, DNA damage responses, DNA demethylation, gene expression, and tissue homeostasis. Furthermore, the cumulative increase in genomic and epigenomic editing with aging could also, at least in part, be attributed to APOBEC function. We synthesize our cumulative understanding of APOBEC activity in a unifying overview and discuss their genomic and epigenomic impact in physiological, pathological, and technological contexts. HighlightsGenomic and epigenomic effects of apolipoprotein B mRNA editing cytosine deaminases (APOBECs) are tightly controlled and are essential for physiological immune and non-immune processes.Pathological APOBEC off-target effects are often observed because of altered catalytic activity or dysregulation, and/or synergies with other predisposing factors such as infections, inflammation, or DNA repair defects.APOBEC mutation signatures are documented in various cancers. They are also involved in autoimmune diseases, triple nucleotide repeat diseases, and diabetes, among others.Possible APOBEC signatures in aging tissues also highlight their potential contribution to this process at the genomic and epigenomic levels.Advances in gene-editing technologies combined with APOBEC mechanistic insights are ushering in the era of APOBECs as therapeutic targets, potentially closing the loop of negative versus positive gene-editing effects.

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APOBEC3G Regulation of the Evolutionary Race Between Adaptive Immunity and Viral Immune Escape Is Deeply Imprinted in the HIV Genome

Cited by 6 publications

References 160 publications

USP49 potently stabilizes APOBEC3G protein by removing ubiquitin and inhibits HIV-1 replication

USP49 potently stabilizes APOBEC3G protein by removing ubiquitin and inhibits HIV-1 replication

Effects of APOBEC3G's Cytidine Deaminase Activity on Retroviral Evolution

APOBECs orchestrate genomic and epigenomic editing across health and disease

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