S100A1 is Involved in Myocardial Injury Induced by Exhaustive Exercise-Reference-Cited by-同舟云学术

S100A1 is Involved in Myocardial Injury Induced by Exhaustive Exercise

Published:2021-10-23 Issue: Volume: Page:
ISSN:0172-4622
Container-title:International Journal of Sports Medicine
language:en
Short-container-title:Int J Sports Med

Author:

Yang Miaomiao¹²,Xiao Zhigang¹³,Chen Zhaoli¹,Ru Yongxin⁴,Wang Jun⁵,Jiang Jianhua¹,Wang Xinxing¹^ORCID,Wang Tianhui¹²

Affiliation:

1. Tianjin Institute of Environmental and Operational Medicine, Tianjin 300050, China

2. Tianjin Key Lab of Exercise Physiology and Sports Medicine, Tianjin University of Sport, Tianjin 301617, China

3. School of Materials Science and Engineering,Tianjin University of Technology, Tianjin 300384, China

4. Institute of Hematology and Blood Diseases Hospital Peaking Union Medical College, Tianjin 300020, China

5. Air Force Medical Center, Medical Evaluation Department, Beijing 100042, China

Abstract

AbstractMany studies have confirmed that exhaustive exercise has adverse effects on the heart by generating reactive oxygen species (ROS). S100A1 calcium-binding protein A1 (S100A1) is a regulator of myocardial contractility and a protector against myocardial injury. However, few studies have investigated the role of S100A1 in the regulation of myocardial injury induced by exhaustive exercise. In the present study, we suggested that exhaustive exercise led to increased ROS, downregulation of S100a1, and myocardial injury. Downregulation of S100a1 promoted exhaustive exercise-induced myocardial injury and overexpression of S100A1 reversed oxidative stress-induced cardiomyocyte injury, indicating S100A1 is a protective factor against myocardial injury caused by exhaustive exercise. We also found that downregulation of S100A1 promoted damage to critical proteins of the mitochondria by inhibiting the expression of Ant1, Pgc1a, and Tfam under exhaustive exercise. Our study indicated S100A1 as a potential prognostic biomarker or therapeutic target to improve the myocardial damage induced by exhaustive exercise and provided new insights into the molecular mechanisms underlying the myocardial injury effect of exhaustive exercise.

Funder

partially supported by the grants of the Natural Science Foundation of China

Publisher

Georg Thieme Verlag KG

Subject

Orthopedics and Sports Medicine,Physical Therapy, Sports Therapy and Rehabilitation

Link

http://www.thieme-connect.de/products/ejournals/pdf/10.1055/a-1642-8352.pdf

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