Atheroprotective roles of smooth muscle cell phenotypic modulation and the TCF21 disease gene as revealed by single-cell analysis

表型 生物 转录组 体内 细胞 细胞生物学 冠状动脉疾病 基因 基因表达 病理 内科学 遗传学 医学
作者
Robert Wirka,Dhananjay Wagh,David T. Paik,Milos Pjanic,Trieu Nguyen,Clint L. Miller,Ramen Kundu,Manabu Nagao,John A. Coller,Tiffany Koyano,Robyn Fong,Y. Joseph Woo,Boxiang Liu,Stephen B. Montgomery,Joseph C. Wu,Kuixi Zhu,Rui Chang,Melissa Alamprese,Michelle D. Tallquist,Juyong Brian Kim
出处
期刊:Nature Medicine [Nature Portfolio]
卷期号:25 (8): 1280-1289 被引量:877
标识
DOI:10.1038/s41591-019-0512-5
摘要

In response to various stimuli, vascular smooth muscle cells (SMCs) can de-differentiate, proliferate and migrate in a process known as phenotypic modulation. However, the phenotype of modulated SMCs in vivo during atherosclerosis and the influence of this process on coronary artery disease (CAD) risk have not been clearly established. Using single-cell RNA sequencing, we comprehensively characterized the transcriptomic phenotype of modulated SMCs in vivo in atherosclerotic lesions of both mouse and human arteries and found that these cells transform into unique fibroblast-like cells, termed ‘fibromyocytes’, rather than into a classical macrophage phenotype. SMC-specific knockout of TCF21—a causal CAD gene—markedly inhibited SMC phenotypic modulation in mice, leading to the presence of fewer fibromyocytes within lesions as well as within the protective fibrous cap of the lesions. Moreover, TCF21 expression was strongly associated with SMC phenotypic modulation in diseased human coronary arteries, and higher levels of TCF21 expression were associated with decreased CAD risk in human CAD-relevant tissues. These results establish a protective role for both TCF21 and SMC phenotypic modulation in this disease. The human coronary artery disease gene TCF21 promotes the transformation of smooth muscle cells within atherosclerotic plaques into a newly identified population of fibroblast-like cells that contribute to plaque stability.
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