笑对人生 (2023-05-31 23:47):
#paper doi: 10.1038/s41467-023-36948-5. Yang B, et al. CTCF controls three-dimensional enhancer network underlying the inflammatory response of bone marrow-derived dendritic cells. Nat Commun. 2023 Mar 8;14(1):1277.  树突状细胞是一类重要的抗原呈递细胞,参与先天性和适应性免疫的精密调控过程。激活的树突状细胞能够通过上调主要相容性复合物、共刺激分子和多种促炎细胞因子调节淋巴细胞的激活和分化。然而,树突状细胞的异常激活可能会导致多发硬化等自身免疫性疾病。因此,深入研究树突状细胞激活的内在机制对相关疾病治疗策略的制定具有重要意义。本研究结合HiC、ChIP-seq和RNAseq三种组学技术,在三维基因组层面揭示了骨髓来源的树突状细胞激活重要机制。研究结果显示,染色质loop结构和增强子-启动子互作重编程诱导树突状细胞激活;树突状细胞CTCF缺失后会引起粒细胞-巨噬细胞集落刺激因子(GM-CSF)介导的JAK2/STAT5信号通路,最终导致NF-kB复合物失活;CTCF是NK-kB依赖染色质互作和增强与Th1和Th17细胞分化相关的促炎细胞因子表达的关键分子。
IF:14.700Q1 Nature communications, 2023-03-08. DOI: 10.1038/s41467-023-36948-5 PMID: 36882470
CTCF controls three-dimensional enhancer network underlying the inflammatory response of bone marrow-derived dendritic cells
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Abstract:
Dendritic cells are antigen-presenting cells orchestrating innate and adaptive immunity. The crucial role of transcription factors and histone modifications in the transcriptional regulation of dendritic cells has been extensively studied. However, it is not been well understood whether and how three-dimensional chromatin folding controls gene expression in dendritic cells. Here we demonstrate that activation of bone marrow-derived dendritic cells induces extensive reprogramming of chromatin looping as well as enhancer activity, both of which are implicated in the dynamic changes in gene expression. Interestingly, depletion of CTCF attenuates GM-CSF-mediated JAK2/STAT5 signaling, resulting in defective NF-κB activation. Moreover, CTCF is necessary for establishing NF-κB-dependent chromatin interactions and maximal expression of pro-inflammatory cytokines, which prime Th1 and Th17 cell differentiation. Collectively, our study provides mechanistic insights into how three-dimensional enhancer networks control gene expression during bone marrow-derived dendritic cells activation, and offers an integrative view of the complex activities of CTCF in the inflammatory response of bone marrow-derived dendritic cells.
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