Aim: This study explored whether abnormality in the inner mitochondrial membrane fusion protein optic atrophy 1 (Opa1) causes hepatic insulin resistance and whether berberine (BBR) can prevent hepatic insulin resistance through the SIRT1/Opa1 pathway.
Method: High-fat diet (HFD)-fed mice and db/db mice were used as animal models to study hepatic insulin resistance in vivo . Insulin resistance, morphological changes, and mitochondrial injury of the liver were examined to explore the effects of BBR. SIRT1/Opa1 protein expressions were determined to confirm whether the signalling pathway was damaged in the model animals and involved in BBR treatment. A palmitate (PA)-induced hepatocyte insulin resistance model was established in HepG2 cells in vitro . Opa1 silencing and SIRT1 overexpression were induced to verify whether Opa1 abnormality causes hepatocyte insulin resistance and whether SIRT1 could improve this dysfunction. BBR treatment and SIRT1 silencing were employed to prove that BBR can prevent hepatic insulin resistance by activating the SIRT1/Opa1 pathway.
Results: We found that Opa1 deficiency caused imbalance in mitochondrial fusion/fission and impaired insulin signalling in the HepG2 cells. SIRT1 and BBR overexpression ameliorated PA-induced insulin resistance, increased Opa1, and improved mitochondrial function. SIRT1 silencing could partly reverse the effects of BBR in the HepG2 cells. SIRT1 and Opa1 were downregulated in the animal models. BBR attenuated hepatic insulin resistance and enhanced SIRT1/Opa1 signalling in the the db/db mice.
Conclusion: Opa1 silencing-mediated mitochondrial fusion/fission imbalance could lead to hepatocyte insulin resistance. BBR may improve hepatic insulin resistance by regulating the SIRT1/Opa1 pathway, and thus, it may be used to treat type 2 diabetes.