Berberine is a potential alternative for metformin with good regulatory effect on lipids in treating metabolic diseases

• Published in: Biomedicine & pharmacotherapy Vol. 163; p. 114754
• Main Authors: Guo, Hui-Hui, Shen, Hao-Ran, Wang, Lu-Lu, Luo, Zhi-Gang, Zhang, Jin-Lan, Zhang, Hong-Juan, Gao, Tian-Le, Han, Yan-Xing, Jiang, Jian-Dong
• Format: Journal Article
• Language: English
• Published: France Elsevier Masson SAS 01.07.2023
• Subjects: Animals; Bacteria-derived metabolites; Berberine; Berberine - pharmacology; Berberine - therapeutic use; Cricetinae; Gut barrier; Gut microbiota; Hyperlipidemias - drug therapy; Lipids - therapeutic use; Metabolic-related disorders; Metformin; Metformin - pharmacology; Metformin - therapeutic use; Mice; Obesity - drug therapy; TMAO; Gut microbiota; Bacteria-derived metabolites; T2DM; NAFLD; HFD; ALT; PCSK9; CHO; LPS; CEs; BBR; BAs; LDLR; Berberine; LDL-c; InsR; TMA; SREBP-1c; PPARγ; Metabolic-related disorders; TG; AB-PAS; Gut barrier; AMPK; SCFAs; Metformin; MTF
• ISSN: 0753-3322; 1950-6007; 1950-6007
• DOI: 10.1016/j.biopha.2023.114754

Metformin (MTF) and berberine (BBR) share several therapeutic benefits in treating metabolic-related disorders. However, as the two agents have very different chemical structure and bioavailability in oral route, the goal of this study is to learn their characteristics in treating metabolic disorders. The therapeutic efficacy of BBR and MTF was systemically investigated in the high fat diet feeding hamsters and/or ApoE(-/-) mice; in parallel, gut microbiota related mechanisms were studied for both agents. We discovered that, although both two drugs had almost identical effects on reducing fatty liver, inflammation and atherosclerosis, BBR appeared to be superior over MTF in alleviating hyperlipidemia and obesity, but MTF was more effective than BBR for the control of blood glucose. Association analysis revealed that the modulation of intestinal microenvironment played a crucial role in the pharmacodynamics of both drugs, in which their respective superiority on the regulation of gut microbiota composition and intestinal bile acids might contribute to their own merits on lowering glucose or lipids. This study shows that BBR may be a good alternative for MTF in treating diabetic patients, especially for those complicated with dyslipidemia and obesity. [Display omitted] •BBR and MTF had identical effects against fatty liver and atherosclerosis.•BBR was superior over MTF in alleviating hyperlipidemia and obesity.•MTF was more effective than BBR for the control of blood glucose.•The gut flora modulation contributed to their own merits on glucose or lipids.