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Rad52 mediates class-switch DNA recombination to IgD

Author

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  • Yijiang Xu

    (University of Texas Long School of Medicine, UT Health Science Center)

  • Hang Zhou

    (University of Texas Long School of Medicine, UT Health Science Center)

  • Ginell Post

    (University of Arkansas School of Medicine)

  • Hong Zan

    (University of Texas Long School of Medicine, UT Health Science Center)

  • Paolo Casali

    (University of Texas Long School of Medicine, UT Health Science Center
    University of Texas Long School of Medicine, UT Health Science Center)

Abstract

In B cells, IgD is expressed together with IgM through alternative splicing of primary VHDJH-Cμ-s-m-Cδ-s-m RNAs, and also through IgD class switch DNA recombination (CSR) via double-strand DNA breaks (DSB) and synapse of Sμ with σδ. How such DSBs are resolved is still unknown, despite our previous report showing that Rad52 effects the ‘short-range’ microhomology-mediated synapsis of intra-Sμ region DSBs. Here we find that induction of IgD CSR downregulates Zfp318, and promotes Rad52 phosphorylation and recruitment to Sμ and σδ, thereby leading to alternative end-joining (A-EJ)-mediated Sμ-σδ recombination with extensive microhomologies, VHDJH-Cδs transcription and sustained IgD secretion. Rad52 ablation in mouse Rad52−/− B cells aborts IgD CSR in vitro and in vivo and dampens the specific IgD antibody response to OVA. Rad52 knockdown in human B cells also abrogates IgD CSR. Finally, Rad52 phosphorylation is associated with high levels of IgD CSR and anti-nuclear IgD autoantibodies in patients with systemic lupus erythematosus and in lupus-prone mice. Our findings thus show that Rad52 mediates IgD CSR through microhomology-mediated A-EJ in concert with Zfp318 downregulation.

Suggested Citation

  • Yijiang Xu & Hang Zhou & Ginell Post & Hong Zan & Paolo Casali, 2022. "Rad52 mediates class-switch DNA recombination to IgD," Nature Communications, Nature, vol. 13(1), pages 1-18, December.
    • Handle: RePEc:nat:natcom:v:13:y:2022:i:1:d:10.1038_s41467-022-28576-2
    DOI: 10.1038/s41467-022-28576-2
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    References listed on IDEAS

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    1. Catherine T. Yan & Cristian Boboila & Ellen Kris Souza & Sonia Franco & Thomas R. Hickernell & Michael Murphy & Sunil Gumaste & Mark Geyer & Ali A. Zarrin & John P. Manis & Klaus Rajewsky & Frederick , 2007. "IgH class switching and translocations use a robust non-classical end-joining pathway," Nature, Nature, vol. 449(7161), pages 478-482, September.
    2. Justin B. Moroney & Anusha Vasudev & Alexander Pertsemlidis & Hong Zan & Paolo Casali, 2020. "Integrative transcriptome and chromatin landscape analysis reveals distinct epigenetic regulations in human memory B cells," Nature Communications, Nature, vol. 11(1), pages 1-18, December.
    3. Helia N. Sanchez & Justin B. Moroney & Huoqun Gan & Tian Shen & John L. Im & Tianbao Li & Julia R. Taylor & Hong Zan & Paolo Casali, 2020. "B cell-intrinsic epigenetic modulation of antibody responses by dietary fiber-derived short-chain fatty acids," Nature Communications, Nature, vol. 11(1), pages 1-19, December.
    4. Zahra Sabouri & Samuel Perotti & Emily Spierings & Peter Humburg & Mehmet Yabas & Hannes Bergmann & Keisuke Horikawa & Carla Roots & Samantha Lambe & Clara Young & T. Dan Andrews & Matthew Field & Ans, 2016. "IgD attenuates the IgM-induced anergy response in transitional and mature B cells," Nature Communications, Nature, vol. 7(1), pages 1-11, December.
    5. Hong Zan & Connie Tat & Zhifang Qiu & Julia R. Taylor & Justin A. Guerrero & Tian Shen & Paolo Casali, 2017. "Rad52 competes with Ku70/Ku86 for binding to S-region DSB ends to modulate antibody class-switch DNA recombination," Nature Communications, Nature, vol. 8(1), pages 1-16, April.
    6. Egest J. Pone & Jinsong Zhang & Thach Mai & Clayton A. White & Guideng Li & John K. Sakakura & Pina J. Patel & Ahmed Al-Qahtani & Hong Zan & Zhenming Xu & Paolo Casali, 2012. "BCR-signalling synergizes with TLR-signalling for induction of AID and immunoglobulin class-switching through the non-canonical NF-κB pathway," Nature Communications, Nature, vol. 3(1), pages 1-12, January.
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