The IgH Eµ -MAR regions promote UNG-dependent error-prone repair to optimize somatic hypermutation

Two scaffold/matrix attachment regions (5'- and 3'- ) flank the intronic core enhancer (c ) within the immunoglobulin heavy chain locus ( ). Besides their conservation in mice and humans, the physiological role of is still unclear and their involvement in somatic hypermutation (SHM) has ne...

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Veröffentlicht in:Frontiers in immunology 2023, Vol.14, p.1030813-1030813
Hauptverfasser: Martin, Ophélie A, Thomas, Morgane, Marquet, Marie, Bruzeau, Charlotte, Garot, Armand, Brousse, Mylène, Bender, Sébastien, Carrion, Claire, Choi, Jee Eun, Vuong, Bao Q, Gearhart, Patricia J, Maul, Robert W, Le Noir, Sandrine, Pinaud, Eric
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Sprache:eng
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Zusammenfassung:Two scaffold/matrix attachment regions (5'- and 3'- ) flank the intronic core enhancer (c ) within the immunoglobulin heavy chain locus ( ). Besides their conservation in mice and humans, the physiological role of is still unclear and their involvement in somatic hypermutation (SHM) has never been deeply evaluated. Our study analyzed SHM and its transcriptional control in a mouse model devoid of , further combined to relevant models deficient for base excision repair and mismatch repair. We observed an inverted substitution pattern in of -deficient animals: SHM being decreased upstream from c and increased downstream of it. Strikingly, the SHM defect induced by -deletion was accompanied by an increase of sense transcription of the IgH V region, excluding a direct transcription-coupled effect. Interestingly, by breeding to DNA repair-deficient backgrounds, we showed that the SHM defect, observed upstream from c in this model, was not due to a decrease in AID deamination but rather the consequence of a defect in base excision repair-associated unfaithful repair process. Our study pointed out an unexpected "fence" function of regions in limiting the error-prone repair machinery to the variable region of Ig gene loci.
ISSN:1664-3224
1664-3224
DOI:10.3389/fimmu.2023.1030813