Exploring the role of circ-GALK2 in vascular smooth muscle cell calcification: mechanisms and implications

Exploring the role of circ-GALK2 in vascular smooth muscle cell calcification: mechanisms and implications

Abstract Background Vascular calcification is associated with atherosclerosis, plaque destabilization and related cardiovascular risk/mortality. A key cell type involved in vascular calcification is the vascular smooth muscle cell (VSMC). Although several studies have reported the role of non-coding...

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Main Authors: Tianhui Jin, Yehong Liu, Gangjun Zong, Ying Sheng, Ruijiao Kong, Xinyi Hu, Hui Li, Li Wang, Liang Chen
Format: Article
Language:English
Published: BMC 2025-08-01
Series:European Journal of Medical Research
Subjects:
Circular RNA
MicroRNA
CD36
Vascular calcification
Vascular smooth muscle
Online Access:https://doi.org/10.1186/s40001-025-03040-1
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Summary:Abstract Background Vascular calcification is associated with atherosclerosis, plaque destabilization and related cardiovascular risk/mortality. A key cell type involved in vascular calcification is the vascular smooth muscle cell (VSMC). Although several studies have reported the role of non-coding RNAs in regulating vascular calcification, the expressions and functions of certain circular RNAs in vascular calcification have not yet been fully explored. This study aimed to identify the differentially expressed circRNAs involved in the calcification of VSMCs and explore the regulatory function and molecular mechanism of certain circRNA. Methods and results High-throughput sequencing and qRT‒PCR revealed that circ-GALK2 (hsa_circ_0008488), a circular RNA generated from the GALK2 gene, was prominently upregulated in calcified VSMCs. Gain-of-function studies indicated that the overexpression of circ-GALK2 promoted VSMC calcification in vitro. We investigated the mechanism of circ-GALK2 as a microRNA sponge and noted that miR-134-3p and CD36 are downstream targets of circ-GALK2. The overexpression of circ-GALK2 promoted VSMC calcification by sponging miR-134-3p and increasing CD36 expression. The above effects were neutralized by the overexpression of miR-134-3p. We also confirmed the expression of the circ-Galk2/miR-134-3p/Cd36 axis in a mouse aortic calcification model. In addition, we investigated the relationship between plasma circ-GALK2 expression and human aortic calcification. Conclusions The current study elucidates the unique expression and critical function of the circ-GALK2/miR-134-3p/CD36 axis in vascular smooth muscle calcification, potentially offering significant insights for developing strategies to mitigate the progression of vascular calcification disease. Furthermore, this axis is anticipated to serve as a biomarker and a prospective therapeutic target for vascular calcification. Graphical Abstract
ISSN:2047-783X

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