Kate N. Bishop scite author profile

The human cytidine deaminase APOBEC3G edits both nascent human immunodeficiency virus (HIV) and murine leukemia virus (MLV) reverse transcripts, resulting in loss of infectivity. The HIV Vif protein is able to protect both viruses from this innate restriction to infection. Here, we demonstrate that a number of other APOBEC family members from both humans and rodents can mediate anti-HIV effects, through cytidine deamination. Three of these, rat APOBEC1, mouse APOBEC3, and human APOBEC3B, are able to inhibit HIV infectivity even in the presence of Vif. Like APOBEC3G, human APOBEC3F preferentially restricts vif-deficient virus. Indeed, the mutation spectra and expression profile found for APOBEC3F indicate that this enzyme, together with APOBEC3G, accounts for the G to A hypermutation of proviruses described in HIV-infected individuals. Surprisingly, although MLV infectivity is acutely reduced by APOBEC3G, no other family member tested here had this effect. It is especially interesting that although both rodent APOBECs markedly diminish wild-type HIV infectivity, MLV is resistant to these proteins. This implies that MLV may have evolved to avoid deamination by mouse APOBEC3. Overall, our findings show that although APOBEC family members are highly related, they exhibit significantly distinct antiviral characteristics that may provide new insights into host-pathogen interactions.

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DNA Deamination Mediates Innate Immunity to Retroviral Infection

Harris

Bishop

Sheehy

et al. 2003

Cell

1,198

631

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CEM15/APOBEC3G is a cellular protein required for resistance to infection by virion infectivity factor (Vif)-deficient human immunodeficiency virus (HIV). Here, using a murine leukemia virus (MLV)-based system, we provide evidence that CEM15/APOBEC3G is a DNA deaminase that is incorporated into virions during viral production and subsequently triggers massive deamination of deoxycytidine to deoxyuridine within the retroviral minus (first)-strand cDNA, thus providing a probable trigger for viral destruction. Furthermore, HIV Vif can protect MLV from this CEM15/APOBEC3G-dependent restriction. These findings imply that targeted DNA deamination is a major strategy of innate immunity to retroviruses and likely also contributes to the sequence variation observed in many viruses (including HIV).

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DNA Deamination Mediates Innate Immunity to Retroviral Infection

Harris

Bishop

Sheehy

et al. 2004

Cell

395

595

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The May 28, 2003 immediate early online version of this article (Cell 113, 803-809, 13 June 2003) contained one sentence that did not appear in the printed version. In the results subsection entitled "CEM15/APOBEC3G Is Incorporated into MLV Virions," a bracketed sentence appeared in the following context: The CEM15/APOBEC3G-mediated suppression of HIV infection is thought to be accomplished by protein transferred as a virion component from virus producing cells into target cells (curiously, such physical transfer of CEM15/ APOBEC3G appears uninhibitable by Vif) (Sheehy et al., 2002). The bracketed text was removed prior to publication of the definitive printed and corresponding online versions of the manuscript. It was our intention that this correction should have occurred in all versions of the article. The authors and Cell Press apologize for any inconvenience that may have been caused.

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APOBEC3F Can Inhibit the Accumulation of HIV-1 Reverse Transcription Products in the Absence of Hypermutation

Holmes

Koning

Bishop

et al. 2007

Journal of Biological Chemistry

281

294

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APOBEC3F (apolipoprotein B mRNA-editing enzyme catalytic polypeptide 1-like protein 3F) is a cytidine deaminase that, like APOBEC3G, is able to restrict the replication of HIV-1/delta vif. Initial studies revealed high numbers of mutations in the cDNA of viruses produced in the presence of these proteins, suggesting that cytidine deamination underpinned the inhibition of infection. However, we have recently shown that catalytically inactive APOBEC3G proteins, derived through mutation of the C-terminal cytidine deaminase motif, still exert a substantial antiviral effect. Here, we have generated a panel of APOBEC3F mutant proteins and show that the C-terminal cytidine deaminase motif is essential for catalytic activity and that catalytic activity is not necessary for the antiviral effect of APOBEC3F. Furthermore, we demonstrate that the antiviral activities of wild-type and catalytically inactive APOBEC3F and APOBEC3G proteins correspond well with reductions in the accumulation of viral reverse transcription products. Additional comparisons between APOBEC3F and APOBEC3G suggest that the loss of deaminase activity is more detrimental to APOBEC3G function than to APOBEC3F function, as reflected by perturbations to the suppression of reverse transcript accumulation as well as antiviral activity. Taken together, these data suggest that both APOBEC3F and APOBEC3G are able to function as antiviral factors in the absence of cytidine deamination, that this editing-independent activity is an important aspect of APOBEC protein-mediated antiviral phenotypes, but that APOBEC3F may be a better model in which to study it.

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Kate N. Bishop

Cytidine Deamination of Retroviral DNA by Diverse APOBEC Proteins

DNA Deamination Mediates Innate Immunity to Retroviral Infection

DNA Deamination Mediates Innate Immunity to Retroviral Infection

APOBEC3F Can Inhibit the Accumulation of HIV-1 Reverse Transcription Products in the Absence of Hypermutation

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