Yi Yang1, Wang Li2, Yang Liu2, Yan Li2, Ling Gao3, Jia-jun Zhao4. 1. 1] Department of Endocrinology, Provincial Hospital Affiliated to Shandong University, Ji-nan 250021, China [2] Key Laboratory of Fertility Preservation and Maintenance of Ministry of Education, Ningxia Medical University, Yinchuan 750004, China. 2. Biochemistry and Molecular Biology, Ningxia Medical University, Yinchuan 750004, China. 3. Central Lab Provincial Hospital Affiliated to Shandong University, Ji-nan 250021, China. 4. 1] Department of Endocrinology, Provincial Hospital Affiliated to Shandong University, Ji-nan 250021, China [2] Institute of Endocrinology, Shandong Academy of Clinical Medicine, Ji-nan 250021, China.
Abstract
AIM: To investigate whether alpha-lipoic acid (ALA) could attenuate the insulin resistance and metabolic disorders in high fat diet-fed mice. METHODS: Male mice were fed a high fat diet (HFD) plus ALA (100 and 200 mg·kg(-1)·d(-1)) or HFD plus a positive control drug metformin (300 mg·kg(-1)·d(-1)) for 24 weeks. During the treatments, the relevant physiological and metabolic parameters of the mice were measured. After the mice were euthanized, blood samples and livers were collected. The expression of proteins and genes related to glucose metabolism in livers were analyzed by immunoblotting and real time-PCR. RESULTS: HFD induced non-alcoholic fatty liver disease (NAFLD) and abnormal physiological and metabolic parameters in the mice, which were dose-dependently attenuated by ALA. ALA also significantly reduced HFD-induced hyperglycemia and insulin resistance in HFD-fed mice. Furthermore, ALA significantly upregulated the glycolytic enzymes GCK, HK-1 and PK, and the glycogen synthesis enzyme GS, and downregulated the gluconeogenic enzymes PEPCK and G6Pase, thus decreased glucose production, and promoted glycogen synthesis and glucose utilization in livers. Moreover, ALA markedly increased PKB/Akt and GSK3β phosphorylation, and nuclear carbohydrate response element binding protein (ChREBP) expression in livers. Metformin produced similar effects as ALA in HFD-fed mice. CONCLUSION: ALA is able to sustain glucose homeostasis and prevent the development of NAFLD in HFD-fed mice.
AIM: To investigate whether alpha-lipoic acid (ALA) could attenuate the insulin resistance and metabolic disorders in high fat diet-fed mice. METHODS: Male mice were fed a high fat diet (HFD) plus ALA (100 and 200 mg·kg(-1)·d(-1)) or HFD plus a positive control drug metformin (300 mg·kg(-1)·d(-1)) for 24 weeks. During the treatments, the relevant physiological and metabolic parameters of the mice were measured. After the mice were euthanized, blood samples and livers were collected. The expression of proteins and genes related to glucose metabolism in livers were analyzed by immunoblotting and real time-PCR. RESULTS: HFD induced non-alcoholic fatty liver disease (NAFLD) and abnormal physiological and metabolic parameters in the mice, which were dose-dependently attenuated by ALA. ALA also significantly reduced HFD-induced hyperglycemia and insulin resistance in HFD-fed mice. Furthermore, ALA significantly upregulated the glycolytic enzymes GCK, HK-1 and PK, and the glycogen synthesis enzyme GS, and downregulated the gluconeogenic enzymes PEPCK and G6Pase, thus decreased glucose production, and promoted glycogen synthesis and glucose utilization in livers. Moreover, ALA markedly increased PKB/Akt and GSK3β phosphorylation, and nuclear carbohydrate response element binding protein (ChREBP) expression in livers. Metformin produced similar effects as ALA in HFD-fed mice. CONCLUSION:ALA is able to sustain glucose homeostasis and prevent the development of NAFLD in HFD-fed mice.
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