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ADAR1 Promotes Myogenic Proliferation and Differentiation of Goat Skeletal Muscle Satellite Cells.

Authors :
Zhao, Zihao
Xiao, Miao
Xu, Xiaoli
Song, Meijun
Dai, Dinghui
Zhan, Siyuan
Cao, Jiaxue
Guo, Jiazhong
Zhong, Tao
Wang, Linjie
Li, Li
Zhang, Hongping
Source :
Cells (2073-4409). Oct2024, Vol. 13 Issue 19, p1607. 14p.
Publication Year :
2024

Abstract

As one of the most important economic traits for domestic animal husbandry, skeletal muscle is regulated by an intricate molecular network. Adenosine deaminase acting on RNA (ADAR1) involves various physiological processes and diseases, such as innate immunity and the development of lung adenocarcinoma, breast cancer, gastric cancer, etc. However, its role in skeletal muscle growth requires further clarification. Here, we explored the functions of ADAR1 in the myogenic process of goat skeletal muscle satellite cells (MuSCs). The ADAR1 transcripts were noticeably enriched in goat visceral tissues compared to skeletal muscle. Additionally, its levels in slow oxidative muscles like the psoas major and minor muscles were higher than in the fast oxidative glycolytic and fast glycolytic muscles. Among the two common isoforms from ADAR1, p110 is more abundant than p150. Moreover, overexpressing ADAR1 enhanced the proliferation and myogenic differentiation of MuSCs. The mRNA-seq performed on MuSCs' knockdown of ADAR1 obtained 146 differentially expressed genes (DEGs), 87 upregulated and 59 downregulated. These DEGs were concentrated in muscle development and process pathways, such as the MAPK and cAMP signaling pathways. Furthermore, many DEGs as the key nodes defined by protein–protein interaction networks (PPI), including STAT3, MYH3/8, TGFβ2, and ACTN4, were closely related to the myogenic process. Finally, RNA immunoprecipitation combined with qPCR (RIP-qPCR) showed that ADAR1 binds to PAX7 and MyoD mRNA. This study indicates that ADAR1 promotes the myogenic development of goat MuSCs, which provides a useful scientific reference for further exploring the ADAR1-related regulatory networks underlying mammal skeletal muscle growth. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
20734409
Volume :
13
Issue :
19
Database :
Academic Search Index
Journal :
Cells (2073-4409)
Publication Type :
Academic Journal
Accession number :
180272893
Full Text :
https://doi.org/10.3390/cells13191607