| Literature DB >> 36151473 |
Lin-Juan Du1,2, Jian-Yong Sun1,2, Wu-Chang Zhang1,2, Yuan Liu1,2, Yan Liu1,2, Wen-Zhen Lin1,2, Ting Liu1,2, Hong Zhu1,2, Yong-Li Wang3, Shuai Shao4, Lu-Jun Zhou1,2, Bo-Yan Chen1,2, Hongjian Lu5, Ruo-Gu Li6, Feng Jia7,8, Sheng-Zhong Duan9,10,11.
Abstract
Phenotypic modulation of vascular smooth muscle cells (VSMCs) plays critical roles in the pathogenesis of aortic aneurysm (AA). The function of nuclear receptor corepressor1 (NCOR1) in regulation of VSMC phenotype and AA is unclear. Herein, using smooth muscle NCOR1 knockout mice, we demonstrated that smooth muscle NCOR1 deficiency decreased both mRNA and protein levels of contractile genes, impaired stress fibers formation and RhoA pathway activation, reduced synthesis of elastin and collagens, and induced the expression and activity of MMPs, manifesting a switch from contractile to degradative phenotype of VSMCs. NCOR1 modulated VSMC phenotype through 3 different mechanisms. First, NCOR1 deficiency increased acetylated FOXO3a to inhibit the expression of Myocd, which downregulated contractile genes. Second, deletion of NCOR1 derepressed NFAT5 to induce the expression of Rgs1, thus impeding RhoA activation. Third, NCOR1 deficiency increased the expression of Mmp12 and Mmp13 by derepressing ATF3. Finally, a mouse model combined apoE knockout mice with angiotensin II was used to study the role of smooth muscle NCOR1 in the development of AA. The results showed that smooth muscle NCOR1 deficiency increased the incidence of aortic aneurysms and exacerbated medial degeneration in angiotensin II-induced AA mouse model. Collectively, our data illustrated that NCOR1 interacts with FOXO3a, NFAT5, and ATF3 to maintain contractile phenotype of VSMCs and suppress AA development. Manipulation of smooth muscle NCOR1 may be a potential approach for AA treatment.Entities:
Year: 2022 PMID: 36151473 DOI: 10.1038/s41418-022-01065-1
Source DB: PubMed Journal: Cell Death Differ ISSN: 1350-9047 Impact factor: 12.067