Myeloid differentiation and susceptibility to HIV-1 are linked to APOBEC3 expression

Peng, Gang; Greenwell-Wild, Teresa; Nares, Salvador; Jin, Wenwen; Lei, Ke; Rangel, Zoila G.; Munson, Peter J.; Wahl, Sharon M.

doi:10.1182/blood-2006-10-051763

Cited by 178 publications

(205 citation statements)

References 52 publications

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“…APOBEC3B (A3B) inhibits HIV-1 in cultured cell assays, is resistant to inhibition by Vif (A3B can therefore inhibit wild-type HIV-1), has two CDA domains that are each capable of catalysing deamination, but is barely expressed in human CD4 T cells so is unlikely to impact HIV-1 substantially during natural infection (Bishop et al 2004a;Doehle et al 2005;Bogerd et al 2007). APOBEC3A (A3A) contains a single CDA domain, is expressed in immature monocytes, and has been reported to restrict HIV-1 infection (Peng et al 2007). APOBEC3C (A3C) also contains a single CDA domain, is expressed in CD4 T cells, and can act in target cells to introduce infrequent G-to-A mutations (i.e.…”

Section: Anti-hiv-1 Phenotypes Of Diverse Human Apobec Proteinsmentioning

confidence: 99%

APOBEC proteins and intrinsic resistance to HIV-1 infection

Malim

2008

Phil. Trans. R. Soc. B

245

268

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Members of the APOBEC family of cellular polynucleotide cytidine deaminases, most notably APOBEC3G and APOBEC3F, are potent inhibitors of HIV-1 infection. Wild type HIV-1 infections are largely spared from APOBEC3G/F function through the action of the essential viral protein, Vif. In the absence of Vif, APOBEC3G/F are encapsidated by budding virus particles leading to excessive cytidine (C) to uridine (U) editing of negative sense reverse transcripts in newly infected cells. This registers as guanosine (G) to adenosine (A) hypermutations in plus-stranded cDNA. In addition to this profoundly debilitating effect on genetic integrity, APOBEC3G/F also appear to inhibit viral DNA synthesis by impeding the translocation of reverse transcriptase along template RNA. Because the functions of Vif and APOBEC3G/F proteins oppose each other, it is likely that fluctuations in the Vif–APOBEC balance may influence the natural history of HIV-1 infection, as well as viral sequence diversification and evolution. Given Vif's critical role in suppressing APOBEC3G/F function, it can be argued that pharmacologic strategies aimed at restoring the activity of these intrinsic anti-viral factors in the context of infected cells in vivo have clear therapeutic merit, and therefore deserve aggressive pursuit.

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Section: Anti-hiv-1 Phenotypes Of Diverse Human Apobec Proteinsmentioning

confidence: 99%

APOBEC proteins and intrinsic resistance to HIV-1 infection

Malim

2008

Phil. Trans. R. Soc. B

245

268

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“…Monocytes were purified from the mononuclear cell layer using centrifugal elutriation 18 and divided into three groups for immature monocytes and generation of macrophages and DCs as described 19,20 in three independent experiments with cells from three donors. Freshly isolated monocytes were used immediately after elutriation, whereas donor-matched macrophage and DC studies were initiated after confirmation of differentiation on day 7.…”

Section: Myeloid Cell Preparation and Stimulationmentioning

confidence: 99%

“…Preparation of biotin-labeled cRNA, hybridization, and scanning were performed according to protocol (Affymetrix, Santa Clara, CA) as described. 19 Affymetrix GCOS version 1.2 software was used to calculate signal and present call values that were stored in the NIHLIMS, a database for storage and retrieval of chip data maintained at the National Institutes of Health. The signal values for the 18 chips were subjected to S10 quantile-normalizing transformation.…”

Section: Myeloid Cell Transcriptional Profile Analysismentioning

confidence: 99%

“…The signal values for the 18 chips were subjected to S10 quantile-normalizing transformation. 19 Principal components analysis on the S10-transformed data were also performed to permit the visualization of the samples in bivariate plots of the low-order principal components, to detect possible outliers and to provide a global view of the study results. Statistical tests and data calculations were with MSCL Analyst's Toolbox (http://abs.cit.nih.gov/ main/geneexpression.html).…”

Section: Myeloid Cell Transcriptional Profile Analysismentioning

confidence: 99%

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Rapid Myeloid Cell Transcriptional and Proteomic Responses to Periodontopathogenic Porphyromonas gingivalis

Nares

Moutsopoulos

Angelov

et al. 2009

The American Journal of Pathology

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Long-lived monocytes, macrophages, and dendritic cells (DCs) are Toll-like receptor-expressing, antigenpresenting cells derived from a common myeloid lineage that play key roles in innate and adaptive immune responses. Based on immunohistochemical and molecular analyses of inflamed tissues from patients with chronic destructive periodontal disease, these cells, found in the inflammatory infiltrate, may drive the progressive periodontal pathogenesis. To investigate early transcriptional signatures and subsequent proteomic responses to the periodontal pathogen, Porphyromonas gingivalis, donor-matched human blood monocytes, differentiated DCs, and macrophages were exposed to P. gingivalis lipopolysaccharide (LPS) and gene expression levels were measured by oligonucleotide microarrays. In addition to striking differences in constitutive transcriptional profiles between these myeloid populations, we identify a P. gingivalis LPS-inducible convergent, transcriptional core response of more than 400 annotated genes/ESTs among these populations, reflected by a shared, but quantitatively distinct, proteomic response. Nonetheless, clear differences emerged between the monocytes, DCs, and macrophages. The finding that long-lived myeloid inflammatory cells, particularly DCs, rapidly and aggressively respond to P. gingivalis LPS by generating chemokines, proteases, and cytokines capable of driving T-helper cell lineage polarization without evidence of corresponding immunosuppressive pathways highlights their prominent role in host defense and progressive tissue pathogenesis. The shared, unique, and/or complementary transcriptional and proteomic profiles may frame the context of the host response to P. gingivalis, contributing to the destructive nature of periodontal inflammation.

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“…Contrary to HIV-1, SIV and HIV-2 have evolved a protein, Vpx, that relieves SAMHD1-mediated restriction by targeting SAMHD1 for proteasome-dependent degradation (21)(22)(23). In addition to SAMHD1, other cellular factors, in particular antiviral pathways induced by type I IFN, affect early postentry steps of HIV-1 replication in macrophages (24)(25)(26)(27).…”

mentioning

confidence: 99%

p21-mediated RNR2 repression restricts HIV-1 replication in macrophages by inhibiting dNTP biosynthesis pathway

Allouch

David

Amie

et al. 2013

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

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Macrophages are a major target cell for HIV-1, and their infection contributes to HIV pathogenesis. We have previously shown that the cyclin-dependent kinase inhibitor p21 inhibits the replication of HIV-1 and other primate lentiviruses in human monocyte-derived macrophages by impairing reverse transcription of the viral genome. In the attempt to understand the p21-mediated restriction mechanisms, we found that p21 impairs HIV-1 and simian immunodeficiency virus (SIV)mac reverse transcription in macrophages by reducing the intracellular deoxyribonucleotide (dNTP) pool to levels below those required for viral cDNA synthesis by a SAM domain and HD domain-containing protein 1 (SAMHD1)-independent pathway. We found that p21 blocks dNTP biosynthesis by down-regulating the expression of the RNR2 subunit of ribonucleotide reductase, an enzyme essential for the reduction of ribonucleotides to dNTP. p21 inhibits RNR2 transcription by repressing E2F1 transcription factor, its transcriptional activator. Our findings unravel a cellular pathway that restricts HIV-1 and other primate lentiviruses by affecting dNTP synthesis, thereby pointing to new potential cellular targets for anti-HIV therapeutic strategies.

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Myeloid differentiation and susceptibility to HIV-1 are linked to APOBEC3 expression

Cited by 178 publications

References 52 publications

APOBEC proteins and intrinsic resistance to HIV-1 infection

APOBEC proteins and intrinsic resistance to HIV-1 infection

Rapid Myeloid Cell Transcriptional and Proteomic Responses to Periodontopathogenic Porphyromonas gingivalis

p21-mediated RNR2 repression restricts HIV-1 replication in macrophages by inhibiting dNTP biosynthesis pathway

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