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Silencing of circARHGAP12 inhibits the progression of atherosclerosis via miR‐630/EZH2/TIMP2 signal axis.

Authors :
Miao, Renying
Qi, Chaoran
Fu, Yiqun
Wang, Yanjun
Lang, Yuchang
Liu, Wanli
Zhang, Yifei
Zhang, Zhimin
Liu, Ankang
Chai, Hao
Zhang, Yonggan
Song, Yan
Lu, Xiubo
Source :
Journal of Cellular Physiology. Jan2022, Vol. 237 Issue 1, p1057-1069. 13p.
Publication Year :
2022

Abstract

Atherosclerosis (AS) is a common disease that seriously threatens human health. So far, the pathogenesis of AS has not been fully understood. This project investigates the effects of circARHGAP12 on AS and its regulatory mechanism. ApoE−/− knockout mice (ApoE) were adopted and reared with a high‐fat diet to construct an AS model. Lentivirus was established to knock down the expression of circARHGAP12 in mice. After 12 weeks, the aorta was removed and the expression of circARHGAP12 was detected. Vascular oil red O staining was used to detect the degree of AS. The expression of inflammatory factors was detected by ELISA. Aortic smooth muscle cells (MASMCs) were cultured to evaluate the effects of circARHGAP12 on the phenotype of MASMCs. RNA pull‐down and luciferase assay were used to verify the downstream target genes of circARHGAP12. In addition, the effects of circARHGAP12 on MASMCs proliferation and migration were detected by MTT and transwell assay. Compared with the normal group, the expression of circARHGAP12 in the MASMCs under ox‐LDL treatment was elevated, and circARHGAP12 silencing could inhibit AS in vitro and in vivo. The results of the mechanism study showed that circARHGAP12 can directly bind with miR‐630. In addition, miR‐630 can also target EZH2 to modulate the transcription of TIMP2 and to influence the migration of MASMCs. circARHGAP12 is upregulated in AS. CircARHGAP12 knockdown can inhibit the progression of AS. This study expands on the role of circRNA in AS and provides potential targets for the treatment of AS. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
00219541
Volume :
237
Issue :
1
Database :
Academic Search Index
Journal :
Journal of Cellular Physiology
Publication Type :
Academic Journal
Accession number :
154969498
Full Text :
https://doi.org/10.1002/jcp.30598