Apobec3 Encodes Rfv3, a Gene Influencing Neutralizing Antibody Control of Retrovirus Infection (original) (raw)
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Noninfectious Retrovirus Particles Drive the Apobec3/Rfv3 Dependent Neutralizing Antibody Response
PLoS Pathogens, 2011
Members of the APOBEC3 family of deoxycytidine deaminases counteract a broad range of retroviruses in vitro through an indirect mechanism that requires virion incorporation and inhibition of reverse transcription and/or hypermutation of minus strand transcripts in the next target cell. The selective advantage to the host of this indirect restriction mechanism remains unclear, but valuable insights may be gained by studying APOBEC3 function in vivo. Apobec3 was previously shown to encode Rfv3, a classical resistance gene that controls the recovery of mice from pathogenic Friend retrovirus (FV) infection by promoting a more potent neutralizing antibody (NAb) response. The underlying mechanism does not involve a direct effect of Apobec3 on B cell function. Here we show that while Apobec3 decreased titers of infectious virus during acute FV infection, plasma viral RNA loads were maintained, indicating substantial release of noninfectious particles in vivo. The lack of plasma virion infectivity was associated with a significant post-entry block during early reverse transcription rather than G-to-A hypermutation. The Apobec3-dependent NAb response correlated with IgG binding titers against native, but not detergent-lysed virions. These findings indicate that innate Apobec3 restriction promotes NAb responses by maintaining high concentrations of virions with native B cell epitopes, but in the context of low virion infectivity. Finally, Apobec3 restriction was found to be saturable in vivo, since increasing FV inoculum doses resulted in decreased Apobec3 inhibition. By analogy, maximizing the release of noninfectious particles by modulating APOBEC3 expression may improve humoral immunity against pathogenic human retroviral infections.
Journal of Virology, 2010
Several host genes control retroviral replication and pathogenesis through the regulation of immune responses to viral antigens. The Rfv3 gene influences the persistence of viremia and production of virusneutralizing antibodies in mice infected with Friend mouse retrovirus complex (FV). This locus has been mapped within a narrow segment of mouse chromosome 15 harboring the APOBEC3 and BAFF-R loci, both of which show functional polymorphisms among different strains of mice. The exon 5-lacking product of the APOBEC3 allele expressed in FV-resistant C57BL/6 (B6) mice directly restricts viral replication, and mice lacking the B6-derived APOBEC3 exhibit exaggerated pathology and reduced production of neutralizing antibodies. However, the mechanisms by which the polymorphisms at the APOBEC3 locus affect the production of neutralizing antibodies remain unclear. Here we show that the APOBEC3 genotypes do not directly affect the B-cell repertoire, and mice lacking B6-derived APOBEC3 still produce FV-neutralizing antibodies in the presence of primed T helper cells. Instead, higher viral loads at a very early stage of FV infection caused by either a lack of the B6-derived APOBEC3 or a lack of the wild-type BAFF-R resulted in slower production of neutralizing antibodies. Indeed, B cells were hyperactivated soon after infection in the APOBEC3-or BAFF-R-deficient mice. In contrast to mice deficient in the B6-derived APOBEC3, which cleared viremia by 4 weeks after FV infection, mice lacking the functional BAFF-R allele exhibited sustained viremia, indicating that the polymorphisms at the BAFF-R locus may better explain the Rfv3-defining phenotype of persistent viremia.
Journal of Virology, 2010
Several host genes control retroviral replication and pathogenesis through the regulation of immune responses to viral antigens. The Rfv3 gene influences the persistence of viremia and production of virusneutralizing antibodies in mice infected with Friend mouse retrovirus complex (FV). This locus has been mapped within a narrow segment of mouse chromosome 15 harboring the APOBEC3 and BAFF-R loci, both of which show functional polymorphisms among different strains of mice. The exon 5-lacking product of the APOBEC3 allele expressed in FV-resistant C57BL/6 (B6) mice directly restricts viral replication, and mice lacking the B6-derived APOBEC3 exhibit exaggerated pathology and reduced production of neutralizing antibodies. However, the mechanisms by which the polymorphisms at the APOBEC3 locus affect the production of neutralizing antibodies remain unclear. Here we show that the APOBEC3 genotypes do not directly affect the B-cell repertoire, and mice lacking B6-derived APOBEC3 still produce FV-neutralizing antibodies in the presence of primed T helper cells. Instead, higher viral loads at a very early stage of FV infection caused by either a lack of the B6-derived APOBEC3 or a lack of the wild-type BAFF-R resulted in slower production of neutralizing antibodies. Indeed, B cells were hyperactivated soon after infection in the APOBEC3-or BAFF-R-deficient mice. In contrast to mice deficient in the B6-derived APOBEC3, which cleared viremia by 4 weeks after FV infection, mice lacking the functional BAFF-R allele exhibited sustained viremia, indicating that the polymorphisms at the BAFF-R locus may better explain the Rfv3-defining phenotype of persistent viremia.
Fine mapping of the friend retrovirus resistance gene, Rfv3, on mouse chromosome 15
Journal of virology, 1999
Rfv3 is a host resistance gene that operates through an unknown mechanism to control the development of the virus-neutralizing antibody response required for recovery from infection with Friend retrovirus. The Rfv3 gene was previously mapped to an approximately 20-centimorgan (cM) region of chromosome 15. More refined mapping was not possible, due to a lack of microsatellite markers and leakiness in the Rfv3 phenotype, which prevented definitive phenotyping of individual recombinant mice. In the present study, we overcame these difficulties by taking advantage of seven new microsatellite markers in the Rfv3 region and by using progeny tests to accurately determine the Rfv3 phenotype of recombinant mice. Detailed linkage analysis of relevant crossovers narrowed the location of Rfv3 to a 0.83-cM region. Mapping of closely linked genes in an interspecific backcross panel allowed us to exclude two previous candidate genes, Ly6 and Wnt7b. These studies also showed for the first time that...
Cytidine Deamination of Retroviral DNA by Diverse APOBEC Proteins
Current Biology, 2004
APOBEC3G is one member of the mammalian cytidine deaminase family, of which eight others appear to be expressed in humans . To investigate the capacity of diverse APOBEC proteins to regulate retroviral infection, we first tested their Guy's, King's and St Thomas' School of Medicine King's College London effects on HIV. Wild-type or vif-deficient (⌬vif) HIV were produced in the presence of either human APOBEC3G London, SE1 9RT United Kingdom (hA3G), one of six other human APOBECs, murine APO-BEC3 (mA3), rat APOBEC1 (rA1), or a control vector and used in single-cycle challenges of C8166-CCR5/HIV-CAT indicator cells for evaluating relative infectivity (Fig-St. Louis, Missouri 63110 ure 1A). hA3G had a dramatic inhibitory effect on the ⌬vif virus but only a mild (less than 2-fold) effect on its wild-type counterpart [4]. Among the other samples, Summary mA3 [3] and rA1 each had strong inhibitory phenotypes that were not suppressed by Vif, human APOBEC3B The human cytidine deaminase APOBEC3G edits both (hA3B) had a less pronounced effect but was also Vif nascent human immunodeficiency virus (HIV) and muresistant, and human APOBEC3F (hA3F) yielded a Vifrine leukemia virus (MLV) reverse transcripts, resulting sensitive phenotype that, though not quite as dramatic, in loss of infectivity [1-5]. The HIV Vif protein is able resembled that seen for hA3G. We note that two groups to protect both viruses from this innate restriction to have recently reported similar findings for hA3F [16, 17].
Chromosome mapping of Rfv3, a host resistance gene to Friend murine retrovirus
Journal of virology, 1995
Inoculation of adult mice with Friend virus complex usually induces rapid viremia and erythroleukemia, resulting in death in 1 to 3 months. In certain mouse strains, a single host gene, Rfv3, controls the ability to mount a virus-specific neutralizing antibody response which results in elimination of viremia. In this study, microsatellite markers were used to localize the Rfv3 gene to a 20-centimorgan region of mouse chromosome 15 unlinked to immunoglobulin loci, T-cell receptor loci, or the major histocompatibility complex. Potential candidate genes for Rfv3 are several genes expressed in cells of the immune system and previously mapped to the same region, including a T-cell antigen gene, Ly6, and three cytokine receptor genes, IL2rb, IL3rb1, and IL3rb2.
Induction of APOBEC3 In Vivo Causes Increased Restriction of Retrovirus Infection
Journal of Virology, 2009
infection was seen only in mA3 ؉/؉ mice and not in mA3 ؊/؊ mice, arguing that mA3 is the major anti-MMTV restriction factor that is induced upon DC maturation. Thus, increasing the levels of this intrinsic antiretroviral factor in vivo can lead to increased levels of restriction because of higher levels of both cell-intrinsic as well as virion-packaged APOBEC3.
Reassessment of murine APOBEC1 as a retrovirus restriction factor in vivo
Virology, 2014
a b s t r a c t APOBEC1 is a cytidine deaminase involved in cholesterol metabolism that has been linked to retrovirus restriction, analogous to the evolutionarily-related APOBEC3 proteins. In particular, murine APOBEC1 was shown to inhibit Friend retrovirus (FV) in vitro, generating high levels of C-to-T and G-to-A mutations. These observations raised the possibility that FV infection might be altered in APOBEC1-null mice. To examine this question directly, we infected wild-type and APOBEC1-null mice with FV complex and evaluated acute infection levels. Surprisingly, APOBEC1-null mice exhibited similar cellular infection levels and plasma viremia relative to wild-type mice. Moreover, next-generation sequencing analyses revealed that in contrast to APOBEC3, APOBEC1 did not enhance retroviral C-to-T and G-to-A mutational frequencies in genomic DNA. Thus, APOBEC1 neither inhibited nor significantly drove the molecular evolution of FV in vivo. Our findings reinforce that not all retrovirus restriction factors characterized as potent in vitro may be functionally relevant in vivo.
Journal of Virology, 2011
Rfv3 is an autosomal dominant gene that influences the recovery of resistant mice from Friend retrovirus (FV) infection by limiting viremia and promoting a more potent neutralizing antibody response. We previously reported that Rfv3 is encoded by Apobec3, an innate retrovirus restriction factor. However, it was recently suggested that the Rfv3 susceptible phenotype of high viremia at 28 days postinfection (dpi) was more dominantly controlled by the B-cell-activating factor receptor (BAFF-R), a gene that is linked to but located outside the genetically mapped region containing Rfv3. Although one prototypical Rfv3 susceptible mouse strain, A/WySn, indeed contains a dysfunctional BAFF-R, two other Rfv3 susceptible strains, BALB/c and A.BY, express functional BAFF-R genes, determined on the basis of genotyping and B-cell immunophenotyping. Furthermore, transcomplementation studies in (C57BL/6 [B6] ؋ BALB/c)F 1 and (B6 ؋ A.BY)F 1 mice revealed that the B6 Apobec3 gene significantly influences recovery from FV viremia, cellular infection, and disease at 28 dpi. Finally, the Rfv3 phenotypes of prototypic B6, A.BY, A/WySn, and BALB/c mouse strains correlate with reported Apobec3 mRNA expression levels. Overall, these findings argue against the generality of BAFF-R polymorphisms as a dominant mechanism to explain the Rfv3 recovery phenotype and further strengthen the evidence that Apobec3 encodes Rfv3.