与克隆性造血相关的突变体ASXL1通过失调的固有免疫促进小鼠动脉粥样硬化。

Clonal hematopoiesis-related mutant ASXL1 promotes atherosclerosis in mice via dysregulated innate immunity.

作者信息

Sato Naru, Goyama Susumu, Chang Yu-Hsuan, Miyawaki Masashi, Fujino Takeshi, Koide Shuhei, Denda Tamami, Liu Xiaoxiao, Ueda Koji, Yamamoto Keita, Asada Shuhei, Takeda Reina, Yonezawa Taishi, Tanaka Yosuke, Honda Hiroaki, Ota Yasunori, Shibata Takuma, Sekiya Motohiro, Isobe Tomoya, Lamagna Chrystelle, Masuda Esteban, Iwama Atsushi, Shimano Hitoshi, Inoue Jun-Ichiro, Miyake Kensuke, Kitamura Toshio

机构信息

Division of Cellular Therapy, The Institute of Medical Science, University of Tokyo, Tokyo, Japan.

Molecular Pharmacology of Malignant Diseases, Graduate School of Pharmaceutical Sciences, University of Tokyo, Bunkyo-Ku, Japan.

出版信息

Nat Cardiovasc Res. 2024 Dec;3(12):1568-1583. doi: 10.1038/s44161-024-00579-w. Epub 2024 Dec 9.

DOI:10.1038/s44161-024-00579-w

PMID:39653824

Abstract

Certain somatic mutations provide a fitness advantage to hematopoietic stem cells and lead to clonal expansion of mutant blood cells, known as clonal hematopoiesis (CH). Among the most common CH mutations, ASXL1 mutations pose the highest risk for cardiovascular diseases (CVDs), yet the mechanisms by which they contribute to CVDs are unclear. Here we show that hematopoietic cells harboring C-terminally truncated ASXL1 mutant (ASXL1-MT) accelerate the development of atherosclerosis in Ldlr mice. Transcriptome analyses of plaque cells showed that monocytes and macrophages expressing ASXL1-MT exhibit inflammatory signatures. Mechanistically, we demonstrate that wild-type ASXL1 has an unexpected non-epigenetic role by suppressing innate immune signaling through the inhibition of IRAK1-TAK1 interaction in the cytoplasm. This regulatory function is lost in ASXL1-MT, resulting in NF-κB activation. Inhibition of IRAK1/4 alleviated atherosclerosis driven by ASXL1-MT and decreased inflammatory monocytes. The present work provides a mechanistic and cellular explanation linking ASXL1 mutations, CH and CVDs.

摘要

某些体细胞突变赋予造血干细胞适应性优势，导致突变血细胞的克隆性扩增，即克隆性造血（CH）。在最常见的CH突变中，ASXL1突变导致心血管疾病（CVD）的风险最高，但其导致CVD的机制尚不清楚。在此，我们表明，携带C末端截短的ASXL1突变体（ASXL1-MT）的造血细胞会加速Ldlr小鼠动脉粥样硬化的发展。对斑块细胞的转录组分析表明，表达ASXL1-MT的单核细胞和巨噬细胞具有炎症特征。从机制上讲，我们证明野生型ASXL1通过在细胞质中抑制IRAK1-TAK1相互作用来抑制先天免疫信号传导，从而具有意想不到的非表观遗传作用。ASXL1-MT失去了这种调节功能，导致NF-κB激活。抑制IRAK1/4可减轻由ASXL1-MT驱动的动脉粥样硬化，并减少炎症单核细胞。本研究为ASXL1突变、CH和CVD之间的机制和细胞关系提供了解释。

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与克隆性造血相关的突变体ASXL1通过失调的固有免疫促进小鼠动脉粥样硬化。

Clonal hematopoiesis-related mutant ASXL1 promotes atherosclerosis in mice via dysregulated innate immunity.

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