Qun Zhuge1, Yi Zhang2, Biao Liu2, Mingjuan Wu2. 1. Department of Gastroenterology, Shangrao People's Hospital, Shangrao 334000, China. 13970307976@163.com. 2. Department of Gastroenterology, Shangrao People's Hospital, Shangrao 334000, China.
Abstract
BACKGROUND: This study aims to explore blueberry polyphenols and its roles in nonalcoholic fatty liver disease (NAFLD) by relieving hepatic steatosis, and to understand alcoholic fatty liver disease (AFLD). Cell autophagy has been proved to promote lipid metabolism and is involved in the pathogenesis of AFLD; however, whether blueberry polyphenol affects autophagy is unknown. Therefore, our study analyzes the functions of blueberry polyphenol on AFLD and if its mechanisms are engaged with hepatocytes autophagy. METHODS: We built the AFLD mice model via alcohol abduction, and the TG lipid droplets content detected the hepatic steatosis through ORO and HE stains. For blood lipid levels measurements, serum CHOL and TG concentrations were tests. For mechanism analysis, the lipogenic genes of SREBP1, FAS, and ACCα, and the lipodieretic genes of ATGL and Sirt1 were evaluated by qRT-PCR, as well as the autophagy proteins of p62; WB measured LC3-I and LC3-II. RESULTS: We found that chronic alcohol intake successfully induced AFLD occurrence with increased TG lipid droplets content in liver and serum CHOL and TG levels that accompanied by increased lipogenic and reduced lipodieretic mRNA levels, as well as enhancive p62 protein and decreased LC3-II/LC3-I proportion. However, after blueberry polyphenol intake, there were opposite outcomes happened. Moreover, blueberry polyphenol alone did not affect the lipid metabolism but promoted the hepatocytes autophagy at 200 mg/kg concentration. CONCLUSIONS: In summary, we are unparalleled that illustrated blueberry polyphenols can prevent AFLD development by promoting autophagy to accelerate lipid metabolism than to lighten hepatic steatosis.
BACKGROUND: This study aims to explore blueberry polyphenols and its roles in nonalcoholic fatty liver disease (NAFLD) by relieving hepatic steatosis, and to understand alcoholic fatty liver disease (AFLD). Cell autophagy has been proved to promote lipid metabolism and is involved in the pathogenesis of AFLD; however, whether blueberry polyphenol affects autophagy is unknown. Therefore, our study analyzes the functions of blueberry polyphenol on AFLD and if its mechanisms are engaged with hepatocytes autophagy. METHODS: We built the AFLD mice model via alcohol abduction, and the TGlipid droplets content detected the hepatic steatosis through ORO and HE stains. For blood lipid levels measurements, serum CHOL and TG concentrations were tests. For mechanism analysis, the lipogenic genes of SREBP1, FAS, and ACCα, and the lipodieretic genes of ATGL and Sirt1 were evaluated by qRT-PCR, as well as the autophagy proteins of p62; WB measured LC3-I and LC3-II. RESULTS: We found that chronic alcohol intake successfully induced AFLD occurrence with increased TGlipid droplets content in liver and serum CHOL and TG levels that accompanied by increased lipogenic and reduced lipodieretic mRNA levels, as well as enhancive p62 protein and decreased LC3-II/LC3-I proportion. However, after blueberry polyphenol intake, there were opposite outcomes happened. Moreover, blueberry polyphenol alone did not affect the lipid metabolism but promoted the hepatocytes autophagy at 200 mg/kg concentration. CONCLUSIONS: In summary, we are unparalleled that illustrated blueberry polyphenols can prevent AFLD development by promoting autophagy to accelerate lipid metabolism than to lighten hepatic steatosis.
Authors: Sara Nunes; Sofia D Viana; Inês Preguiça; André Alves; Rosa Fernandes; João S Teodoro; Patrícia Matos; Artur Figueirinha; Lígia Salgueiro; Alexandra André; Sara Silva; Ivana Jarak; Rui A Carvalho; Cláudia Cavadas; Anabela P Rolo; Carlos M Palmeira; Maria M Pintado; Flávio Reis Journal: Nutrients Date: 2021-11-23 Impact factor: 5.717