Nahla E. El-Ashmawy , Ghada M. Al-Ashmawy , Asmaa A. Kamel , Eman G. Khedr
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引用次数: 0
Abstract
Nonalcoholic fatty liver disease (NAFLD) is a rising global health problem. The antidiabetic canagliflozin (CANA) has been proposed to ameliorate the metabolic abnormalities in NAFLD.
Aim
This study aimed to explore the possible anti-NAFLD effects of CANA in rats and HepG2 cells, focusing on AMPK/SIRT1-mediated lipophagy.
Methods
Wistar rats were assigned to four groups: control group, NAFLD group, NAFLD+CANA group, and NAFLD+CANA+chloroquine (CQ) group, where CQ served as autophagy inhibitor. HepG2 cells were also divided into four groups: control group, NAFLD group, NAFLD+CANA group, and NAFLD+CANA+compound C (Comp C) group, where Comp C served as AMPK inhibitor.
Results
The histopathological examination showed that CANA alleviated hepatic and intracellular lipid deposition in rats and HepG2 cells. CANA induced lipophagy by increasing LC3-II levels and lowering both p62 and perilipin 2 levels in rats and HepG2 cells, in addition to decreasing mTOR protein expression in rats' livers. These outcomes were associated with upregulation of the lipophagy regulator Rab7 and downregulation of the ER stress-related protein CHOP. CANA enhanced autophagic engulfment of lipid droplets while decreased ER stress and mitochondrial damage in rats' livers, as demonstrated by TEM. In rats, CANA improved hyperglycemia, hyperinsulinemia, dyslipidemia, and obesity. In HepG2 cells, CANA's effects were linked to increased phosphorylated AMPK level and enhanced SIRT1 level and expression. However, blocking lipophagy in rats and AMPK in HepG2 cells markedly weakened CANA's protective effects against NAFLD.
Conclusion
CANA ameliorated NAFLD via enhancing AMPK/SIRT1-mediated lipophagy, suggesting its potential as a therapeutic intervention for this metabolic disorder.
期刊介绍:
BBA Molecular Basis of Disease addresses the biochemistry and molecular genetics of disease processes and models of human disease. This journal covers aspects of aging, cancer, metabolic-, neurological-, and immunological-based disease. Manuscripts focused on using animal models to elucidate biochemical and mechanistic insight in each of these conditions, are particularly encouraged. Manuscripts should emphasize the underlying mechanisms of disease pathways and provide novel contributions to the understanding and/or treatment of these disorders. Highly descriptive and method development submissions may be declined without full review. The submission of uninvited reviews to BBA - Molecular Basis of Disease is strongly discouraged, and any such uninvited review should be accompanied by a coverletter outlining the compelling reasons why the review should be considered.
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