Literature DB >> 25710929

SIRT1 attenuates high glucose-induced insulin resistance via reducing mitochondrial dysfunction in skeletal muscle cells.

Hao-Hao Zhang1, Xiao-Jun Ma1, Li-Na Wu1, Yan-Yan Zhao1, Peng-Yu Zhang1, Ying-Hui Zhang1, Ming-Wei Shao1, Fei Liu1, Fei Li2, Gui-Jun Qin3.   

Abstract

Insulin resistance is often characterized as the most critical factor contributing to the development of type 2 diabetes mellitus (T2DM). Sustained high glucose is an important extracellular environment that induces insulin resistance. Acquired insulin resistance is associated with reduced insulin-stimulated mitochondrial activity as a result of increased mitochondrial dysfunction. Silent information regulator 1 (SIRT1) is one member of the SIRT2 (Sir2)-like family of proteins involved in glucose homeostasis and insulin secretion in mammals. Although SIRT1 has a therapeutic effect on metabolic deterioration in insulin resistance, it is still not clear how SIRT1 is involved in the development of insulin resistance. Here, we demonstrate that pcDNA3.1 vector-mediated overexpression of SIRT1 attenuates insulin resistance in the high glucose-induced insulin-resistant skeleton muscle cells. These beneficial effects were associated with ameliorated mitochondrial dysfunction. Further studies have demonstrated that SIRT1 restores mitochondrial complex I activity leading to decreased oxidative stress and mitochondrial dysfunction. Furthermore, SIRT1 significantly elevated the level of another SIRT which is named SIRT3, and SIRT3 siRNA-suppressed SIRT1-induced mitochondria complex activity increments. Taken together, these results showed that SIRT1 improves insulin sensitivity via the amelioration of mitochondrial dysfunction, and this is achieved through the SIRT1-SIRT3-mitochondrial complex I pathway.
© 2015 by the Society for Experimental Biology and Medicine.

Entities:  

Keywords:  Insulin resistance; high glucose; mitochondrial dysfunction; silent information regulator 1; skeletal muscle cells

Mesh:

Substances:

Year:  2015        PMID: 25710929      PMCID: PMC4935266          DOI: 10.1177/1535370214557218

Source DB:  PubMed          Journal:  Exp Biol Med (Maywood)        ISSN: 1535-3699


  31 in total

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Review 10.  Targeting NAD+ in Metabolic Disease: New Insights Into an Old Molecule.

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