Gene conversion (GCV), a mechanism mediated by activation-induced cytidine deaminase (AID) is well established as a mechanism of immunoglobulin diversification in a few species. However, definitive evidence of GCV-like events in human immunoglobulin genes is scarce. The lack of evidence of GCV in human rearranged immunoglobulin gene sequences is puzzling given the presence of highly similar germline donors and the presence of all the enzymatic machinery required for GCV. In this study, we undertook a computational analysis of rearranged IGHV3-23*01 gene sequences from common variable immunodeficiency (CVID) patients, AID-deficient patients, and healthy individuals to survey “GCV-like” activities. We analyzed rearranged IGHV3-23*01 gene sequences obtained from total PBMC RNA and single-cell polymerase chain reaction of individual B cell lysates. Our search identified strong evidence of GCV-like activity. We observed that GCV-like tracts are flanked by AID hotspot motifs. Structural modeling of IGHV3-23*01 gene sequence revealed that hypermutable bases flanking GCV-like tracts are in the single stranded DNA (ssDNA) of stable stem-loop structures (SLSs). ssDNA is inherently fragile and also an optimal target for AID. We speculate that GCV could have been initiated by the targeting of hypermutable bases in ssDNA state in stable SLSs, plausibly by AID. We have observed that the frequency of GCV-like events is significantly higher in rearranged IGHV3-23-*01 sequences from healthy individuals compared to that of CVID patients. We did not observe GCV-like events in rearranged IGHV3-23-*01 sequences from AID-deficient patients. GCV, unlike somatic hypermutation (SHM), can result in multiple base substitutions that can alter many amino acids. The extensive changes in antibody affinity by GCV-like events would be instrumental in protecting humans against pathogens that diversify their genome by antigenic shift

Duvvuri, Bhargavi

Wu, Gillian E.

English

PubMed

Gene conversion (GCV) as a mechanism of immunoglobulin diversification is well established in a few species. However, definitive evidence of GCV-like events in human immunoglobulin genes is scarce. GCV is mediated by activation-induced cytidine deaminase (AID).  The lack of evidence of GCV in human rearranged immunoglobulin gene sequences is puzzling given the presence of highly similar germline donors and all the enzymatic machinery required for GCV. In this study, we undertook a computational analysis of rearranged IGHV3-23*01 gene sequences from common variable immunodeficiency (CVID) patients and healthy individuals to survey ‘GCV-like’ activities. Our search identified strong evidence of GCV-like patterns.  Germline VH sequences were identified as potential donors for clustered mutations in rearranged IGHV3-23*01 gene sequences. We identified minimum and maximum sequence identities between donor and recipient sequences that can serve as targets for GCV and our findings are consistent with those reported in literature.  We observed that GCV-like tracts are flanked by activation-induced cytidine deaminase (AID) hotspot motifs. Structural modeling of IGHV3-23*01 gene sequence revealed that hypermutable bases flanking GCV-like tracts, are in the single stranded DNA (ssDNA) of stable stem-loop structures (SLSs). SsDNA is inherently fragile and also an optimal target for AID. We speculate that GCV could have been initiated by the targeting of hypermutable bases in ssDNA state in stable SLSs, plausibly by AID. We have observed that the frequency of GCV-like events is significantly higher in rearranged IGHV323-*01 sequences from healthy individuals compared to that of CVID patients. GCV, unlike SHM, can result in multiple base substitutions that can alter many amino acids. The extensive changes in antibody affinity by GCV-like events, as identified in this study would be instrumental in protecting humans against pathogens that diversify their genome by antigenic shift

Bhargavi eDuvvuri

Gillian E Wu

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Frontiers in Immunology

Gene conversion-like events in the diversification of human rearranged IGHV3-23*01 gene sequences

Bhargavi Duvvuri

Gillian E. Wu

Crossref

Gene Conversion-Like Events in the Diversification of Human Rearranged IGHV3-23*01 Gene Sequences

A biochemical mechanism for nonrandom mutationsandevolution.J.Bacteriol.182,

A hyperconversionm echanismg eneratesth e chicken light chain preimmune repertoire.

A role for RAD54B in homologous recombination in human cells.

Ablation of XRCC2/3 transforms immunoglobulinV gene conversionintosomatichypermutation.

Activation induced cytidine deaminase deaminates deoxycytidine on single stranded DNA but requires the actionofRNase.Proc.Natl.Acad.Sci.

Activation of memory and virgin B cell clones in hyperimmune animals.

Activation-induced cytidine deaminase (AID) deﬁciency causes the autosomal recessive form of the Hyper-IgM syndrome (HIGM2).

AID associates with single-stranded DNA with high afﬁnity and a long complex half-life in a sequence-independent manner.

AID is essential for immunoglobulinVgeneconversioninaculturedB cell line.

AID is required to initiate Nbs1/gamma-H2AX focus formation and mutations at sites of class switching.

AID mediates hypermutation by deaminating single stranded DNA.

Analysis of sequence transfers resembling geneconversioninamouseantibody transgene.

Analysis of the heavy chain repertoire of human peripheral B cells using single-cell polymerase chain reaction.

Analysis of the human VH gene repertoire. Differential effects of selection and somatic hypermutation on human peripheral CD5(+)/IgM+ and CD5(−)/IgM+ Bcells.J.Clin.Invest.99,2488–2501.

and Hammarström,L.(2006).Disparateroles Frontiers

Antibodies, immunoglobulin genes, and the bursa of fabricius in chicken b cell development.

Antibody engineering for the analysis of afﬁnity maturation of an anti-hapten response.

Antibody repertoire developmentinfetalandneonatalpiglets.

Antigen induced somatic diversiﬁcation of rabbit IgH genes:gene conversion and point mutation.

Avian Bcell development: generation of an immunoglobulin repertoire by gene conversion.

Balancing AID and DNA repair during somatic hypermutation.

Breakpoints of gross deletions coincide with non-B DNA conformations.

Characterization of Ig gene somatic hypermutation in the absence of activation-induced cytidine deaminase.

Chicken Ig L variable region gene conversion display pseudogene donor preference and 5 to 3 polarity.GenesDev.4,548–558.

Chimeric cDNA clones: a novel PCR artifact.

Chromosomal radiosensitivity in common variable immune deﬁciency.

Class switch recombination and hypermutation require activation-induced cytidine deaminase (AID), a potential RNA editing enzyme.

Class switching and Myc translocation: how does DNA break?

Comparable impact of mutational and selective inﬂuences in shaping the expressed repertoire of peripheral IgM+/CD5− and IgM+/CD5+ B cells.

Conversion events in fungi,” in Genetic Recombination, eds

Defect in IgV gene somatic hypermutation in common variable immunodeﬁciency syndrome.

Developmentof theprimaryantibodyrepertoire.

Distribution of allotypic speciﬁcities A1, A2, A14, and A15 among immunoglobulin G molecules.

DNA double-strand breaks: prior to but not sufﬁcient in targeting hypermutation.

DNA doublestrand breaks in immunoglobulin genes undergoing somatic hypermutation.

DNA polymerases and somatic hypermutation of immunoglobulin genes.

Efﬁcient antibody diversiﬁcation by gene conversion in vivo in the absence of selection for V(D)J-encoded determinants.

Evolution of coordinated mutagenesis and somatic hypermutation in VH5.

Formation of the chicken B-cell repertoire: ontogenesis, regulation of Ig gene rearrangement, and diversiﬁcation by gene conversion.

G.(2000).Cell-cycle-regulatedDNA double stranded breaks in somatic hypermutation of immunoglobulin genes.

gene chimeras resembling gene conversion products are generated at high frequency by PCR

Gene conversion and homologous recombination in murine B cells.

Gene conversion and the generationofantibodydiversity.Annu.Rev.

Gene conversion in human rearranged immunoglobulin genes.

Gene conversion in the chicken immunoglobulin locus: a paradigm of homologous recombination in higher eukaryotes.

Gene conversion in the rice genome.

Gene conversion-like events in the diversiﬁcation of human rearranged IGHV3-23*01 gene sequences.

Gene conversion-like sequence transfers between transgenic antibody V genes are independent of RAD54.

Gene conversion-like sequence transfers in a mouse antibody transgene: antigen selection allowssensitivedetectionofVregion interactionsbasedonhomology.Int.

Gene conversion: mechanisms,evolutionandhumandisease.

Gene conversioncausinghumaninherited disease: evidence for involvement of non-B-DNA-formingsequencesand recombination-promoting motifs in DNA breakage and repair.

Generation of heterogeneous rabbit antiDNP antibodies by gene conversion and hypermutation of rearranged VL and VH genes during clonal expansion of B cells in splenic germinal centers.

Genetic recombination: strand transfer and mismatch repair.

Germ line variable regions that match hypermutated sequences in genes encoding murine antihapten antibodies.

Heavy chain variable and constant region allotypes in single rabbit plasma cells.

Homologous recombination in Escherichia coli: dependence on substrate length and homology.

Human immunoglobulin heavychain variable region genes: organization, polymorphism, and expression.

Hypermutation generating the sheep immunoglobulin repertoire is an antigen-independent process.

I VH gene transcription creates stabilized secondary structures for coordinated mutagenesis during somatic hypermutation.

Identiﬁcation of an AID-independent pathway for chromosomaltranslocationsbetweenthe Igh switch region and Myc.

Ig Sgamma3 DNA-speciﬁc double strand breaks are induced in mitogen-activated B cells and are implicated in switch recombination.

Immunoglobulin gene conversion: insights from bursal B cells and the DT40 cell line.

Immunoglobulin gene diversiﬁcation in cattle.

Immunoglobulin gene transcription.

Immunoglobulin V region variants in hybridoma cells. II. Recombination between V genes.

In vitro chromosomal radiosensitivity in common variable immune deﬁciency.

Intervening sequences in human fetal globin genes adopt left-handed Z helices.

Lymphoproliferative disease in antibody deﬁciency: a multicentre study.

Lymphoproliferative disorders and other tumors complicating immunodeﬁciencies.

Mechanisms by which transcription can regulate somatic hypermutation.

Mechanisms of divergence and convergence of the human immunoglobulin alpha 1 and alpha 2 constant region gene sequences.

Mechanisms of immunoglobulin gene diversiﬁcation in cattle.

Methods for assessing the statistical signiﬁcance of molecular sequence features by using general scoring schemes.Proc.Natl.Acad.Sci.U.S.A.

Molecular evolution of the human immunoglobulin E response: high incidence of shared mutations and clonal relatedness among epsilon VH5 transcripts from three unrelated patients with atopic dermatitis.

Multiple sites of V lambda diversiﬁcation in cattle.

NHEJ-deﬁcient DT40 cells have increased levels of immunoglobulin gene conversion: evidence for a double strand break intermediate.

Non-B DNA conformations, genomic rearrangements, and human disease.

Non-B DNA structure-induced genetic instability.

Parallel evolution of antibody variable regions by somatic processes: consecutive shared somatic alterations in VH genes expressed by independently generated hybridomas apparently acquired by point mutation and selection rather than by gene conversion.

Pathways of DNA double-strand break repair during the mammalian cell cycle.

Patterns of mutations and selection in antibodies to the phosphocholine-speciﬁc determinant in Proteus morganii.

Perspectives: transcription.Atailofhistoneacetylation and DNA recombination.

Predicting mutation frequencies in stem-loop structures of derepressed genes: implications for evolution.

Primary hypogammaglobulinaemia: a survey of clinical manifestations and complications.

Processive AID-catalysed cytosine deamination on single-stranded DNA simulates somatic hypermutation.

Rabbit IgH sequencesinappendixgerminalcenters: VH diversiﬁcation by gene conversion-like and hypermutation mechanisms.

Rapid generation of speciﬁc antibodiesbyenhancedhomologous recombination.

Rearrangement/hypermutation/ gene conversion: when, where and why?

Recombination between antibody heavy chain variable-region genes: evidence for gene conversion.

Recombination hotspot in NF1 microdeletion patients.

Requirement of the activation-induced deaminase (AID) gene for immunoglobulin gene conversion.

secondary structure stability and mutation frequency during somatic hypermutation.

Sequence transfers between variable regions in a mouseantibodytransgenecanoccur bygeneconversion.J.Immunol.175,

Somatic diversiﬁcation of immunoglobulin heavy chain VDJ genes: evidence for somatic gene conversion in rabbits.

Somatic generation of antibody diversity.

Somatic generation of diversity in a mammalianprimarylymphoidorgan:the sheep ileal Peyer’s patches.

Somatic generation of hybrid antibody H chain genes in transgenic mice via interchromosomal gene conversion.

Somatic hyperconversion diversiﬁes the singleV,geneof thechickenwithahigh incidence in the D region.

spectrum of somatic hypermutation in common variable immunodeﬁciency disease characteristic of defective repair of mutations.

Stabilised DNA secondarystructureswithincreasing transcription localise hypermutable bases for somatic hypermutation in IGHV3-23. Immunogenetics. [Epub ahead of print].

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Gene Conversion-Like Events in the Diversification of Human Rearranged IGHV3-23*01 Gene Sequences

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