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Ba, Zhaoqing

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Ba

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Zhaoqing

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Ba, Zhaoqing

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2019 - 201922020 - 20212

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Author's Publications: search.filters.isAuthorOfPublication.81bfbc27-c1bb-4216-b216-93c3c714b5b7

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    Publication
    CTCF Orchestrates Long-Range Cohesin-Driven V(D)J Recombinational Scanning
    (Springer Nature Publishing Group, 2020-07-27) Ba, Zhaoqing; Lou, Jiangman; Ye, Adam Yongxin; Dring, Edward; Lin, Sherry G.; Jain, Suvi; Kyritsis, Nia; Kieffer-Kwon, Kyong-Rim; Casellas, Rafael; Alt, Frederick
    RAG endonuclease initiates V(D)J recombination in progenitor (pro)-B cells1. Upon binding a recombination center (RC)-based JH, RAG scans upstream chromatin via loop extrusion, potentially mediated by cohesin, to locate Ds and assemble a DJH-based RC2. CTCF looping factor-bound elements (CBEs) within IGCR1 upstream of Ds impede RAG-scanning3-5; but their inactivation allows scanning to proximal VHs where additional CBEs activate rearrangement and impede scanning any further upstream5. Distal VH utilization is thought to involve diffusional RC access following large-scale Igh locus contraction6-8. Here, we test the potential of linear RAG-scanning to mediate distal VH usage in G1-arrested v-Abl-pro-B cell lines9, which undergo robust D-to-JH but little VH-to-DJH rearrangements, presumably due to lack of locus contraction2,5. Through an auxin-inducible approach10, we degrade the cohesin-component Rad2110-12 or CTCF12,13 in these G1-arrested lines. Rad21 degradation eliminated all V(D)J recombination and RAG-scanning-associated interactions, except RC-located DQ52-to-JH joining in which synapsis occurs by diffusion2. Remarkably, while CTCF degradation suppressed most CBE-based chromatin interactions, it promoted robust RC interactions with, and robust VH-to-DJH joining of, distal VHs, with patterns similar to those of "locus-contracted" primary pro-B cells. Thus, down-modulation of CTCF-bound scanning-impediment activity promotes cohesin-driven RAG-scanning across the 2.7Mb Igh locus.
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    Publication
    Fundamental Roles of Chromatin Loop Extrusion in Antibody Class Switching
    (Springer Science and Business Media LLC, 2019-10-30) Zhang, Xuefei; Zhang, Yu; Ba, Zhaoqing; Kyritsis, Nia; Alt, Frederick; Casellas, Rafael
    Antibody class switch recombination (CSR) in B lymphocytes replaces immunoglobulin heavy chain locus (Igh) Cμ constant region exons (CHs) with one of six CHs lying 100–200 kb downstream1. Each CH is flanked upstream by an I promoter and long repetitive switch (S) region. Cytokines and activators induce activation-induced cytidine deaminase (AID) and I-promoter transcription, with 3′ IgH regulatory region (3′ IgHRR) enhancers controlling the latter via I-promoter competition for long-range 3′ IgHRR interactions. Transcription through donor Sμ and an activated downstream acceptor S-region targets AID-generated deamination lesions at, potentially, any of hundreds of individual S-region deamination motifs. General DNA repair pathways convert these lesions to double-stranded breaks (DSBs) and join an Sμ-upstream DSB-end to an acceptor S-region-downstream DSB-end for deletional CSR. AID-initiated DSBs at targets spread across activated S regions routinely participate in such deletional CSR joining. Here we report that chromatin loop extrusion underlies the mechanism11 by which IgH organization in cis promotes deletional CSR. In naive B cells, loop extrusion dynamically juxtaposes 3′ IgHRR enhancers with the 200-kb upstream Sμ to generate a CSR centre (CSRC). In CSR-activated primary B cells, I-promoter transcription activates cohesin loading, leading to generation of dynamic subdomains that directionally align a downstream S region with Sμ for deletional CSR. During constitutive Sα CSR in CH12F3 B lymphoma cells, inversional CSR can be activated by insertion of a CTCF-binding element (CBE)-based impediment in the extrusion path. CBE insertion also inactivates upstream S-region CSR and converts adjacent downstream sequences into an ectopic S region by inhibiting and promoting their dynamic alignment with Sμ in the CSRC, respectively. Our findings suggest that, in a CSRC, dynamically impeded cohesin-mediated loop extrusion juxtaposes proper ends of AID-initiated donor and acceptor S-region DSBs for deletional CSR. Such a mechanism might also contribute to pathogenic DSB joining genome-wide.
  • No Thumbnail Available
    Publication
    The Fundamental Role of Chromatin Loop Extrusion in Physiological V(D)J Recombination
    (Springer Science and Business Media LLC, 2019-09) Zhang, Yu; Zhang, Xuefei; Ba, Zhaoqing; Liang, Zhuoyi; Hu, Hongli; Lou, Jiangman; Kyritsis, Nia; Zurita, Jeffrey; Shamim, Muhammad S.; Presser Aiden, Aviva; Lieberman Aiden, Erez; Alt, Frederick W.; Dring, Edward
    RAG endonuclease initiates IgH locus (Igh) V(D)J assembly in progenitor (pro)-B cells by joining Ds to JHs, before joining upstream VHs to DJH intermediates1. In mouse pro-B cells, the CTCF-binding element (CBE)-anchored chromatin loop domain2 at the 3’end of Igh contains an internal sub-domain spanning the 5’CBE anchor (IGCR1)3, the DHs, and a RAG-bound recombination center (RC)4. The RC comprises JH-proximal D (DQ52), 4 JHs, and the intronic enhancer (“iE”)5. Robust RAG cleavage is restricted to paired V(D)J segments flanked by complementary recombination signal sequences (12RSSs and 23RSSs)6. Ds are flanked downstream and upstream by 12RSSs that, respectively, mediate deletional joining with convergently-oriented JH-23RSSs and VH-23RSSs6. Despite 12/23 compatibility, inversional D to JH joining via upstream D-12RSSs is rare7,8. Plasmid-based assays attributed lack of inversional D to JH joining to sequence-based preference for downstream D-12RSSs9, as opposed to putative linear scanning mechanisms10,11. Given recent findings that RAG linearly scans convergent CBE-anchored chromatin loops4,12-14, potentially formed by cohesin-mediated loop extrusion15-18, we revisited a scanning role. Here, we report that JH-23RSS chromosomal orientation programs RC-bound RAG to linearly scan upstream chromatin in the 3’Igh sub-domain for convergently-oriented D-12RSSs and, thereby, to mediate deletional joining of all Ds, except RC-based DQ52 that joins by a diffusion-related mechanism. In a DQ52-based RC, formed in the absence of JHs, RAG bound by the downstream DQ52-RSS scans the downstream constant region exon-containing 3’Igh sub-domain in which scanning can be impeded by targeted nuclease-dead Cas9 (dCas9) binding, by transcription through repetitive Igh switch sequences, and by the 3’Igh CBE-based loop anchor. Notably, each scanning impediment focally increases RAG activity on potential substrate sequences within the impeded region. High resolution mapping of RC chromatin interactions reveals that such focal RAG targeting is associated with corresponding impediments to the loop extrusion process that drives chromatin past RC-bound RAG.
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    Publication
    Loop Extrusion Mediates Physiological IgH Locus Contraction For RAG Scanning
    (Springer Science and Business Media LLC, 2021-01-13) Dai, Hai-Qiang; Hu, Hongli; Lou, Jiangman; Ye, Adam Yongxin; Zhang, Xuefei; Zhang, Yiwen; Zhao, Lijuan; Yoon, Hye; Ba, Zhaoqing; Chapdelaine-Williams, Aimee M.; Kyritsis, Nia; Chen, Huan; Johnson, Kerstin; Lin, Sherry; Conte, Andrea; Casellas, Rafael; Lee, Cheng-Sheng; Alt, Frederick
    RAG endonuclease initiates IgH V(D)J recombination in pro-B cells by binding a JH-recombination signal sequence (RSS) within a recombination center (RC) and then linearly scanning upstream chromatin, presented by cohesin-mediated loop extrusion, for convergent D-RSSs1,2. Utilization of convergently-oriented RSSs and cryptic RSSs is intrinsic to long-range RAG scanning3. RAG scanning from the DJH-RC-RSS to upstream convergent VH-RSSs is impeded by D-proximal CTCF-binding elements (CBEs)2-5. Primary pro-B cells undergo a mechanistically-undefined VH locus contraction proposed to provide distal VHs access to the DJH-RC6-9. Here, we report that a 2.4 mega-base VH locus inversion in primary pro-B cells abrogates rearrangement of both VH-RSSs and normally convergent cryptic RSSs, even though locus contraction still occurs. In addition, this inversion activated both utilization of cryptic VH-locus RSSs normally in opposite orientation and RAG scanning beyond the VH locus through multiple convergent-CBE domains to the telomere. Together, these findings imply that broad deregulation of CBE impediments in primary pro-B cells promotes loop extrusion-mediated RAG VH locus-scanning. We further found that expression of Wapl10, a cohesin-unloading factor, is low in primary pro-B cells versus v-Abl-transformed pro-B lines that lack contraction and RAG-scanning of the VH locus. Correspondingly, Wapl depletion in v-Abl-tranformed lines activated both processes, further implicating loop extrusion in the locus contraction mechanism.