Jianliang Xu scite author profile

Rafael C as el la s , T he od or a Hatziioannou, Paul D. Bieniasz & M ic hel C. Nussenzweig This is a PDF file of a peer-reviewed paper that has been accepted for publication. Although unedited, the content has been subjected to preliminary formatting. Nature is providing this early version of the typeset paper as a service to our authors and readers. The text and figures will undergo copyediting and a proof review before the paper is published in its final form. Please note that during the production process errors may be discovered which could affect the content, and all legal disclaimers apply.

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Myc Regulates Chromatin Decompaction and Nuclear Architecture during B Cell Activation

Kieffer-Kwon

et al. 2017

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50 years ago, Vincent Allfrey and colleagues discovered that lymphocyte activation triggers massive acetylation of chromatin. However, the molecular mechanisms driving epigenetic accessibility are still unknown. We here show that stimulated lymphocytes decondense chromatin by three differentially-regulated steps. First, chromatin is repositioned away from the nuclear periphery in response to global acetylation. Second, histone nanodomain clusters decompact into mononucleosome fibers through a mechanism that requires Myc and continual energy input. Single-molecule imaging shows that this step lowers transcription factor residence time and non-specific collisions during sampling for DNA targets. Third, chromatin interactions shift from long-range to predominantly short-range, and CTCF-mediated loops and contact domains double in numbers. This architectural change facilitates cognate promoter-enhancer contacts and also requires Myc and continual ATP production. Our results thus define the nature and transcriptional impact of chromatin decondensation and reveal an unexpected role for Myc in the establishment of nuclear topology in mammalian cells.

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C-terminal region of activation-induced cytidine deaminase (AID) is required for efficient class switch recombination and gene conversion

Sabouri¹,

Kobayashi²,

Begum³

et al. 2014

Proc. Natl. Acad. Sci. U.S.A.

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Activation-induced cytidine deaminase (AID) introduces singlestrand breaks (SSBs) to initiate class switch recombination (CSR), gene conversion (GC), and somatic hypermutation (SHM). CSR is mediated by double-strand breaks (DSBs) at donor and acceptor switch (S) regions, followed by pairing of DSB ends in two S regions and their joining. Because AID mutations at its C-terminal region drastically impair CSR but retain its DNA cleavage and SHM activity, the C-terminal region of AID likely is required for the recombination step after the DNA cleavage. To test this hypothesis, we analyzed the recombination junctions generated by AID C-terminal mutants and found that 0-to 3-bp microhomology junctions are relatively less abundant, possibly reflecting the defects of the classical nonhomologous end joining (C-NHEJ). Consistently, the accumulation of C-NHEJ factors such as Ku80 and XRCC4 was decreased at the cleaved S region. In contrast, an SSB-binding protein, poly (ADP)-ribose polymerase1, was recruited more abundantly, suggesting a defect in conversion from SSB to DSB. In addition, recruitment of critical DNA synapse factors such as 53BP1, DNA PKcs, and UNG at the S region was reduced during CSR. Furthermore, the chromosome conformation capture assay revealed that DNA synapse formation is impaired drastically in the AID C-terminal mutants. Interestingly, these mutants showed relative reduction in GC compared with SHM in chicken DT40 cells. Collectively, our data indicate that the C-terminal region of AID is required for efficient generation of DSB in CSR and GC and thus for the subsequent pairing of cleaved DNA ends during recombination in CSR.

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SAMHD 1‐mediated dNTP degradation is required for efficient DNA repair during antibody class switch recombination

Husain

Fujii

et al. 2020

The EMBO Journal

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Sterile alpha motif and histidine‐aspartic acid domain‐containing protein 1 (SAMHD1), a dNTP triphosphohydrolase, regulates the levels of cellular dNTPs through their hydrolysis. SAMHD1 protects cells from invading viruses that depend on dNTPs to replicate and is frequently mutated in cancers and Aicardi–Goutières syndrome, a hereditary autoimmune encephalopathy. We discovered that SAMHD1 localizes at the immunoglobulin (Ig) switch region, and serves as a novel DNA repair regulator of Ig class switch recombination (CSR). Depletion of SAMHD1 impaired not only CSR but also IgH/c‐Myc translocation. Consistently, we could inhibit these two processes by elevating the cellular nucleotide pool. A high frequency of nucleotide insertion at the break‐point junctions is a notable feature in SAMHD1 deficiency during activation‐induced cytidine deaminase‐mediated genomic instability. Interestingly, CSR induced by staggered but not blunt, double‐stranded DNA breaks was impaired by SAMHD1 depletion, which was accompanied by enhanced nucleotide insertions at recombination junctions. We propose that SAMHD1‐mediated dNTP balance regulates dNTP‐sensitive DNA end‐processing enzyme and promotes CSR and aberrant genomic rearrangements by suppressing the insertional DNA repair pathway.

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Jianliang Xu

mRNA vaccine-elicited antibodies to SARS-CoV-2 and circulating variants

Myc Regulates Chromatin Decompaction and Nuclear Architecture during B Cell Activation

C-terminal region of activation-induced cytidine deaminase (AID) is required for efficient class switch recombination and gene conversion

SAMHD 1‐mediated dNTP degradation is required for efficient DNA repair during antibody class switch recombination

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