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Endurance exercise-mediated metabolic reshuffle attenuates high-caloric diet-induced non-alcoholic fatty liver diseaseopen access

Authors
Cook, Joshua J.Wei, MadelineSegovia, BennyCosio-Lima, LudmilaSimpson, JeffreyTaylor, ScottKoh, YunsukKim, SanghoLee, Youngil
Issue Date
Jul-2022
Publisher
ELSEVIER ESPANA
Keywords
Endurance exercise; Non-alcoholic fatty liver disease; Mitochondria; Oxidative stress; Senescence
Citation
ANNALS OF HEPATOLOGY, v.27, no.4
Indexed
SCIE
SCOPUS
Journal Title
ANNALS OF HEPATOLOGY
Volume
27
Number
4
URI
https://scholar.korea.ac.kr/handle/2021.sw.korea/142925
DOI
10.1016/j.aohep.2022.100709
ISSN
1665-2681
Abstract
Introduction and aim: Non-alcoholic fatty liver disease (NAFLD) is one of the most common diseases in the United States. Metabolic distress (obese diabetes) is the main causative element of NAFLD. While there is no cure for NAFLD, endurance exercise (EEx) has emerged as a therapeutic strategy against NAFLD. However, mechanisms of EXE-induced hepatic protection especially in female subjects remain unidentified. Thus, the aim of the study is to examine molecular mechanisms of EXE-induced hepatic protection against diet-induced NAFLD in female mice. Material and methods: Nine-week-old female C57BL/6J mice were randomly divided into three groups: normal-diet control group (CON, n=11); high-fat diet/high-fructose group (HFD/HF, n=11); and HFD/HF+EEx group (HFD/HF+EEx, n=11). The mice assigned to HFD/HF and HFD/HF+EEx groups were fed with HFD/HF for 12 weeks, after which the mice assigned to the EEx group began treadmill exercise for 12 weeks, with HFD/HF continued. Results: EEx attenuated hepatic steatosis, reduced de novo lipogenesis (reduction in ATP -Citrate-Lyase and diacylglycerol-O-acyltransferase 1), and enhanced mitochondrial biogenesis and fatty-acid activation (oxidative phosphorylation enzymes and Acyl-CoA synthetase1). Also, EEx prevented upregulation of gluconeogenic proteins (glyceraldehyde-3-phosphate dehydrogenase, glucose-6-phosphatase, and phosphoenolpyruvate-carboxykinase1), premature senescence (suppression of p53, p22, and p16, tumor-necrosis-factor-alpha, and interleukin-1 beta, and oxidative stress), and autophagy deficiency. Furthermore, EXE reversed apoptosis arrest (cleaved cysteine-dependent-aspartate-directed protease3 and Poly-(ADP-ribose)-polymerase1). Conclusion: EEx-mediated reparations of metabolic and redox imbalance (utilization of pentose phosphate pathway), and autophagy deficiency caused by metabolic distress critically contribute to preventing/delaying severe progression of NAFLD. Also, EEx-induced anti-senescence and cell turnover are crucial protective mechanisms against NAFLD. (C) 2022 Fundacion Clinica Medica Sur, A.C. Published by Elsevier Espana, S.L.U.
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