Quantitative profiling of the full APOBEC3 mRNA repertoire in lymphocytes and tissues: implications for HIV-1 restriction

Refsland, Eric W.; Stenglein, Mark D.; Shindo, Keisuke; Albin, John S.; Brown, William L.; Harris, Reuben S.

doi:10.1093/nar/gkq174

Cited by 339 publications

(480 citation statements)

References 60 publications

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“…mRNA Quantification-A3A mRNA was quantified by quantitative RT-PCR relative to the stable housekeeping transcript, TBP, using highly specific primers, as described previously (5).…”

Section: Methodsmentioning

confidence: 99%

“…These professional phagocytic cells are stationed throughout the body to perform immune surveillance and thus come into contact with a variety of foreign molecules, including DNA. APOBEC3A (A3A) 5 is part of the APOBEC3 family of DNA cytosine deaminases, which in humans is composed of seven members: A, B, C, D, F, G, and H. A3A is the most active of these deaminases (2), but its expression is limited to myeloid lineage cells and therefore likely has a specialized function in these cells (3)(4)(5)(6). A3A is strongly induced by type I interferon (10 -1000-fold) (4, 6 -8) and is also induced by other immunostimulatory molecules such as cytosolic DNA (6).…”

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confidence: 99%

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Endogenous APOBEC3A DNA Cytosine Deaminase Is Cytoplasmic and Nongenotoxic

Land

Law

Carpenter

et al. 2013

Journal of Biological Chemistry

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Background: APOBEC3A is a potentially genotoxic DNA cytosine deaminase expressed in myeloid lineage cells. Results: Exogenous APOBEC3A genotoxicity correlates with expression level and nuclear localization. Endogenous APOBEC3A is nontoxic and cytoplasmic, despite its capacity to be highly induced by interferon. Conclusion: Cytoplasmic localization prevents endogenous APOBEC3A from accessing nuclear DNA. Significance: Endogenous APOBEC3A is not genotoxic.

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“…mRNA Quantification-A3A mRNA was quantified by quantitative RT-PCR relative to the stable housekeeping transcript, TBP, using highly specific primers, as described previously (5).…”

Section: Methodsmentioning

confidence: 99%

mentioning

confidence: 99%

Endogenous APOBEC3A DNA Cytosine Deaminase Is Cytoplasmic and Nongenotoxic

Land

Law

Carpenter

et al. 2013

Journal of Biological Chemistry

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“…CC mutations indicate editing by A3G because A3G is the only A3 protein with a CC preference. In contrast, one cannot definitively attribute mutations that arise in a TC context in vivo to a particular human A3 protein because all six human A3 proteins besides A3G display a preference for editing at TC motifs, and some primary human cell types express more than one A3 protein (47,48). Moreover, little is known about in vivo regulation of A3 proteins, which could affect the ability of A3 proteins to interact with and edit viral DNA.…”

Section: A3mentioning

confidence: 99%

Innate Immune Signaling Induces High Levels of TC-specific Deaminase Activity in Primary Monocyte-derived Cells through Expression of APOBEC3A Isoforms

Thielen

McNevin

McElrath

et al. 2010

Journal of Biological Chemistry

105

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In HIV-1-infected individuals, G-to-A hypermutation is found in HIV-1 DNA isolated from peripheral blood mononuclear cells (PBMCs). These mutations are thought to result from editing by one or more host enzymes in the APOBEC3 (A3) family of cytidine deaminases, which act on CC (APOBEC3G) and TC (other A3 proteins) dinucleotide motifs in DNA (edited cytidine underlined). Although many A3 proteins display high levels of deaminase activity in model systems, only low levels of A3 deaminase activity have been found in primary cells examined to date. In contrast, here we report high levels of deaminase activity at TC motifs when whole PBMCs or isolated primary monocyte-derived cells were treated with interferon-␣ (IFN␣) or IFN␣-inducing toll-like receptor ligands. Induction of TC-specific deaminase activity required new transcription and translation and correlated with the appearance of two APOBEC3A (A3A) isoforms. Knockdown of A3A in monocytes with siRNA abolished TC-specific deaminase activity, confirming that A3A isoforms are responsible for all TC-specific deaminase activity observed. Both A3A isoforms appear to be enzymatically active; moreover, our mutational studies raise the possibility that the smaller isoform results from internal translational initiation. In contrast to the high levels of TC-specific activity observed in IFN␣-treated monocytes, CC-specific activity remained low in PBMCs, suggesting that A3G deaminase activity is relatively inhibited, unlike that of A3A. Together, these findings suggest that deaminase activity of A3A isoforms in monocytes and macrophages may play an important role in host defense against viruses. A33 proteins are cytidine deaminases that are capable of inhibiting replication of retroviruses, DNA viruses, and retroelements (reviewed in Refs. 1-3). The seven A3 proteins in the human genome share a strong preference for deaminating cytidines that are in a CC or TC context in single-stranded DNA (edited cytidine underlined). Although APOBEC3G (A3G), the best understood A3 protein, acts preferentially on CC motifs, the six other human A3 proteins display varying degrees of preference for TC motifs (4 -13). Because other cytidine deaminases, such as activation-induced deaminase and APOBEC1, either display a strong preference for editing deoxycytidines in other dinucleotide contexts or act on TC motifs in RNA (4), mutations that arise in a CC or TC context in DNA constitute signatures of editing by A3 proteins.Much headway has been made in understanding how A3 proteins act on HIV-1 DNA, in part through transfection of A3 plasmids into human epithelium-derived cell lines, such as 293T or HeLa cells, which lack significant endogenous expression of most A3 proteins. From such studies, A3G and APOBEC3F (A3F) are known to be packaged into virus particles when the HIV-1 Vif protein is not expressed and to cause a substantial reduction in virus infectivity (5, 12, 14 -16). Reduced virus infectivity results in part from non-enzymatic inhibition of reverse transcription by A3G and A3F (17-2...

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“…Interferons (IFNs) and hypoxia induce C > U RNA editing in an additive manner in monocytes, increasing the RNA editing levels to above 80% for several tested genes. Gene expression, transfection, knockdown, site-directed mutagenesis studies and in vitro analysis by purified protein showed that APOBEC3A (A3A), a cytidine deaminase which is structurally related to APOBEC1 and expressed primarily in myeloid cells including monocytes and macrophages, 7 catalyzes this RNA editing. 6 Thus, A3A is a novel C > U RNA editing enzyme.…”

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confidence: 99%

Transient overexpression of exogenous APOBEC3A causes C-to-U RNA editing of thousands of genes

et al. 2016

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APOBEC3A cytidine deaminase induces site-specific C-to-U RNA editing of hundreds of genes in monocytes exposed to hypoxia and/or interferons and in pro-inflammatory macrophages. To examine the impact of APOBEC3A overexpression, we transiently expressed APOBEC3A in HEK293T cell line and performed RNA sequencing. APOBEC3A overexpression induces C-to-U editing at more than 4,200 sites in transcripts of 3,078 genes resulting in protein recoding of 1,110 genes. We validate recoding RNA editing of genes associated with breast cancer, hematologic neoplasms, amyotrophic lateral sclerosis, Alzheimer disease and primary pulmonary hypertension. These results highlight the fundamental impact of APOBEC3A overexpression on human transcriptome by widespread RNA editing.

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Quantitative profiling of the full APOBEC3 mRNA repertoire in lymphocytes and tissues: implications for HIV-1 restriction

Cited by 339 publications

References 60 publications

Endogenous APOBEC3A DNA Cytosine Deaminase Is Cytoplasmic and Nongenotoxic

Endogenous APOBEC3A DNA Cytosine Deaminase Is Cytoplasmic and Nongenotoxic

Innate Immune Signaling Induces High Levels of TC-specific Deaminase Activity in Primary Monocyte-derived Cells through Expression of APOBEC3A Isoforms

Transient overexpression of exogenous APOBEC3A causes C-to-U RNA editing of thousands of genes

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