Role of AMP-activated protein kinase in mechanism of metformin action
Gaochao Zhou,Robert W. Myers,Ying Li,Yuli Chen,Xiaolan Shen,Judy Fenyk-Melody,Margaret Wu,John Ventre,Thomas W. Doebber,Nobuharu Fujii,Nicolas Musi,Michael F. Hirshman,Laurie J. Goodyear,David E. Moller +13 more
TLDR
It is reported that metformin activates AMPK in hepatocytes; as a result, acetyl-CoA carboxylase (ACC) activity is reduced, fatty acid oxidation is induced, and expression of lipogenic enzymes is suppressed.Abstract:
Metformin is a widely used drug for treatment of type 2 diabetes with no defined cellular mechanism of action. Its glucose-lowering effect results from decreased hepatic glucose production and increased glucose utilization. Metformin's beneficial effects on circulating lipids have been linked to reduced fatty liver. AMP-activated protein kinase (AMPK) is a major cellular regulator of lipid and glucose metabolism. Here we report that metformin activates AMPK in hepatocytes; as a result, acetyl-CoA carboxylase (ACC) activity is reduced, fatty acid oxidation is induced, and expression of lipogenic enzymes is suppressed. Activation of AMPK by metformin or an adenosine analogue suppresses expression of SREBP-1, a key lipogenic transcription factor. In metformin-treated rats, hepatic expression of SREBP-1 (and other lipogenic) mRNAs and protein is reduced; activity of the AMPK target, ACC, is also reduced. Using a novel AMPK inhibitor, we find that AMPK activation is required for metformin's inhibitory effect on glucose production by hepatocytes. In isolated rat skeletal muscles, metformin stimulates glucose uptake coincident with AMPK activation. Activation of AMPK provides a unified explanation for the pleiotropic beneficial effects of this drug; these results also suggest that alternative means of modulating AMPK should be useful for the treatment of metabolic disorders.read more
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Glucose Deprivation Increases mRNA Stability of Vascular Endothelial Growth Factor through Activation of AMP-activated Protein Kinase in DU145 Prostate Carcinoma
TL;DR: A novel and major role of AMPK is demonstrated in the post-transcriptional regulation of VEGF, further implying its potential role in tumor angiogenesis.
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Regulation of fat metabolism in the liver: link to non-alcoholic hepatic steatosis and impact of physical exercise
TL;DR: Physical exercise would interfere with the development of hepatic steatosis by stimulating lipid oxidation and inhibiting lipid synthesis in liver through the activation of the AMP-activated protein kinase pathway.
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Adenosine signaling contributes to ethanol-induced fatty liver in mice
Zhongsheng Peng,Pier Andrea Borea,Tuere Wilder,Herman Yee,Luis Chiriboga,Michael R. Blackburn,G. Azzena,Giuseppe Resta,Bruce N. Cronstein +8 more
TL;DR: Results indicate that adenosine generated by ethanol metabolism plays an important role in ethanol-induced hepatic steatosis via both A1 and A2B receptors and suggest that targeting adenosines receptors may be effective in the prevention of alcohol-induced fatty liver.
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Dietary n-3 polyunsaturated fatty acids decrease hepatic triglycerides in Fischer 344 rats.
TL;DR: N‐3 polyunsaturated fatty acids decrease total body weight, total body fat, and hepatic steatosis and the direct postprandial effect of fish oil ingestion decreases the propensity for liver triglyceride storage.
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Leptinomimetic effects of the AMP kinase activator AICAR in leptin-resistant rats: prevention of diabetes and ectopic lipid deposition
Xinxin Yu,S. McCorkle,S. McCorkle,May-Yun Wang,Young H Lee,Jianping Li,Asish K. Saha,Asish K. Saha,Roger H Unger,Roger H Unger,Neil B. Ruderman,Neil B. Ruderman +11 more
TL;DR: The results indicate that a deficiency of leptin or the leptin receptor is associated with a decrease in AMPK activity in muscle and/or liver, and suggest that treatment with an AMPK activator prevents the development of diabetes and ectopic lipid accumulation in the ZDF rat.
References
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Evidence that metformin exerts its anti-diabetic effects through inhibition of complex 1 of the mitochondrial respiratory chain
TL;DR: It is concluded that the drug's pharmacological effects are mediated, at least in part, through a time-dependent, self-limiting inhibition of the respiratory chain that restrains hepatic gluconeogenesis while increasing glucose utilization in peripheral tissues.
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J. Denis McGarry,N. F. Brown +1 more
TL;DR: Key developments of the last 20 years that have led to the current understanding of the physiology of the CPT system, the structure of theCPT isoforms, the chromosomal localization of their respective genes, and the identification of mutations in the human population are reviewed.
Journal ArticleDOI
The AMP‐Activated Protein Kinase
D. Grahame Hardie,David Carling +1 more
TL;DR: The central hypothesis is that the AMP-activated protein kinase cascade appears to be an ancient system which evolved to protect cells against the effects of nutritional or environmental stress, and protects the cell by switching off ATP-consuming pathways and switching on alternative pathways for ATP generation.
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Dimethylbiguanide inhibits cell respiration via an indirect effect targeted on the respiratory chain complex I.
Mohamad Y. El-Mir,Véronique Nogueira,Eric Fontaine,Nicole Avéret,Michel Rigoulet,Xavier Leverve +5 more
TL;DR: The results suggest the existence of a new cell-signaling pathway targeted to the respiratory chain complex I with a persistent effect after cessation of the signaling process.
Journal ArticleDOI
Metabolic effects of metformin in non-insulin-dependent diabetes mellitus.
TL;DR: Metformin acts primarily by decreasing hepatic glucose output, largely by inhibiting gluconeogenesis, and also seems to induce weight loss, preferentially involving adipose tissue.