Dnmt3a和Tet2的功能缺失突变导致动脉粥样硬化加速和巨噬细胞表型一致

IF 9.4 Q1 CARDIAC & CARDIOVASCULAR SYSTEMS
Philipp J. Rauch, Jayakrishnan Gopakumar, Alexander J. Silver, Daniel Nachun, Herra Ahmad, Marie McConkey, Tetsushi Nakao, Marc Bosse, Thiago Rentz, Nora Vivanco Gonzalez, Noah F. Greenwald, Erin F. McCaffrey, Zumana Khair, Manu Gopakumar, Kameron B. Rodrigues, Amy E. Lin, Eti Sinha, Maia Fefer, Drew N. Cohen, Amélie Vromman, Eugenia Shvartz, Galina Sukhova, Sean Bendall, Michael Angelo, Peter Libby, Benjamin L. Ebert, Siddhartha Jaiswal
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引用次数: 0

摘要

具有不确定潜能的克隆性造血(CHIP)是指在没有明显血液恶性肿瘤的情况下,白细胞中出现与癌症相关的体细胞突变。它最常见于表观遗传调节因子 DNMT3A 和 TET2 的功能缺失突变。CHIP 易导致血液恶性肿瘤和动脉粥样硬化性心血管疾病。我们在这里证明,骨髓细胞中 Dnmt3a 的缺失会增加小鼠动脉粥样硬化,其程度与之前 Tet2 缺失时的情况类似。Dnmt3a 的缺失增强了体外巨噬细胞的炎症反应,并在体内产生了一种独特的临终巨噬细胞群,这种巨噬细胞群融合了常住巨噬细胞特征和炎症细胞因子特征。这些变化与 Tet2 缺失的影响惊人地相似。我们的研究结果确定了一个共同的途径,即在这两个基因缺失的情况下,先天性免疫细胞活化增强,从而为这两种最常见的 CHIP 基因突变携带者的动脉粥样硬化疾病负担过重提供了生物学依据。Rauch 等人的研究表明,表观遗传调控因子 Dnmt3a 的功能缺失突变会导致动脉粥样硬化加速,这与之前 Tet2 的研究结果一致,而且单细胞转录组学和空间蛋白质组学分析表明,任一基因的缺失都会导致动脉粥样斑块的组成发生类似的变化,出现了一种独特的富含趋化因子的、类似于居民的巨噬细胞群体,它们浸润在动脉粥样斑块的基底层。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Loss-of-function mutations in Dnmt3a and Tet2 lead to accelerated atherosclerosis and concordant macrophage phenotypes

Loss-of-function mutations in Dnmt3a and Tet2 lead to accelerated atherosclerosis and concordant macrophage phenotypes
Clonal hematopoiesis of indeterminate potential (CHIP) is defined by the presence of a cancer-associated somatic mutation in white blood cells in the absence of overt hematological malignancy. It arises most commonly from loss-of-function mutations in the epigenetic regulators DNMT3A and TET2. CHIP predisposes to both hematological malignancies and atherosclerotic cardiovascular disease in humans. Here we demonstrate that loss of Dnmt3a in myeloid cells increased murine atherosclerosis to a similar degree as previously seen with loss of Tet2. Loss of Dnmt3a enhanced inflammation in macrophages in vitro and generated a distinct adventitial macrophage population in vivo which merges a resident macrophage profile with an inflammatory cytokine signature. These changes surprisingly phenocopy the effect of loss of Tet2. Our results identify a common pathway promoting heightened innate immune cell activation with loss of either gene, providing a biological basis for the excess atherosclerotic disease burden in carriers of these two most prevalent CHIP mutations. Rauch et al. show that loss-of-function mutations in the epigenetic regulator Dnmt3a lead to accelerated atherosclerosis, as previously shown for Tet2, and that loss of either gene leads to similar changes in atheroma composition, with the emergence of a distinct population of chemokine-enriched, resident-like macrophages infiltrating the adventitia, as revealed by single-cell transcriptomics and spatial proteomic analyses.
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