Single phosphorylation sites in Acc1 and Acc2 regulate lipid homeostasis and the insulin-sensitizing effects of metformin
Morgan D. Fullerton,Sandra Galic,Katarina Marcinko,Sarah Sikkema,Thomas Pulinilkunnil,Zhi-Ping Chen,Hayley M. O'Neill,Rebecca J. Ford,Rengasamy Palanivel,Matthew L. O'Brien,Matthew L. O'Brien,D. Grahame Hardie,S. Lance Macaulay,Jonathan D. Schertzer,Jason R.B. Dyck,Bryce J. W. van Denderen,Bruce E. Kemp,Bruce E. Kemp,Gregory R. Steinberg,Gregory R. Steinberg +19 more
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It is established that inhibitory phosphorylation of Acc by Ampk is essential for the control of lipid metabolism and, in the setting of obesity, for metformin-induced improvements in insulin action.Abstract:
The obesity epidemic has led to an increased incidence of nonalcoholic fatty liver disease (NAFLD) and type 2 diabetes. AMP-activated protein kinase (Ampk) regulates energy homeostasis and is activated by cellular stress, hormones and the widely prescribed type 2 diabetes drug metformin. Ampk phosphorylates mouse acetyl-CoA carboxylase 1 (Acc1; refs. 3,4) at Ser79 and Acc2 at Ser212, inhibiting the conversion of acetyl-CoA to malonyl-CoA. The latter metabolite is a precursor in fatty acid synthesis and an allosteric inhibitor of fatty acid transport into mitochondria for oxidation. To test the physiological impact of these phosphorylation events, we generated mice with alanine knock-in mutations in both Acc1 (at Ser79) and Acc2 (at Ser212) (Acc double knock-in, AccDKI). Compared to wild-type mice, these mice have elevated lipogenesis and lower fatty acid oxidation, which contribute to the progression of insulin resistance, glucose intolerance and NAFLD, but not obesity. Notably, AccDKI mice made obese by high-fat feeding are refractory to the lipid-lowering and insulin-sensitizing effects of metformin. These findings establish that inhibitory phosphorylation of Acc by Ampk is essential for the control of lipid metabolism and, in the setting of obesity, for metformin-induced improvements in insulin action.read more
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AMPK: guardian of metabolism and mitochondrial homeostasis.
Sébastien Herzig,Reuben J. Shaw +1 more
TL;DR: How AMPK functions as a central mediator of the cellular response to energetic stress and mitochondrial insults and coordinates multiple features of autophagy and mitochondrial biology is discussed.
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The mechanisms of action of metformin
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TL;DR: This work aims to develop an integrated physiological perspective, placing the intricate signaling effectors that carry out the cell-autonomous response to insulin in the context of the tissue-specific functions that generate the coordinated organismal response.
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AMPK: Mechanisms of Cellular Energy Sensing and Restoration of Metabolic Balance
Daniel Garcia,Reuben J. Shaw +1 more
TL;DR: The recently solved crystal structure of AMPK has shed light both into how nucleotides activate AMPK and, importantly, also into the sites bound by small molecule activators, thus providing a path for improved drugs.
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Metformin alters the gut microbiome of individuals with treatment-naive type 2 diabetes, contributing to the therapeutic effects of the drug
Hao Wu,Eduardo Esteve,Eduardo Esteve,Valentina Tremaroli,Muhammad Tanweer Khan,Robert Caesar,Louise Mannerås-Holm,Marcus Ståhlman,Lisa M. Olsson,Matteo Serino,Mercè Planas-Fèlix,Gemma Xifra,Gemma Xifra,Josep M. Mercader,David Torrents,David Torrents,Rémy Burcelin,Rémy Burcelin,Wifredo Ricart,Wifredo Ricart,Rosie Perkins,José Manuel Fernández-Real,José Manuel Fernández-Real,Fredrik Bäckhed,Fredrik Bäckhed,Fredrik Bäckhed +25 more
TL;DR: It is shown that metformin affected pathways with common biological functions in species from two different phyla, and many of the met formin-regulated genes in these species encoded metalloproteins or metal transporters, which provides support for the notion that altered gut microbiota mediates some of metformIn's antidiabetic effects.
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Role of AMP-activated protein kinase in mechanism of metformin action
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TL;DR: It is shown that JNK activity is abnormally elevated in obesity and an absence of JNK1 results in decreased adiposity, significantly improved insulin sensitivity and enhanced insulin receptor signalling capacity in two different models of mouse obesity.
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AMP-activated protein kinase: Ancient energy gauge provides clues to modern understanding of metabolism
TL;DR: Through signaling, metabolic, and gene expression effects, AMPK enhances insulin sensitivity and fosters a metabolic milieu that may reduce the risk for obesity and type 2 diabetes.