Reduced lipid and glucose oxidation and reduced lipid synthesis in AMPKα2<sup>-/-</sup> myotubes
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https://tandf.figshare.com/articles/dataset/Reduced_lipid_and_glucose_oxidation_and_reduced_lipid_synthesis_in_AMPK_2_sup_-_-_sup_myotubes/28172394/1
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Adenosine 5’-monophosphate (AMP)-activated protein kinase (AMPK) plays a crucial role in regulation of metabolic homeostasis. To understand the role of the catalytic α2 subunit of AMPK in skeletal muscle energy metabolism, myotube cultures were established from <i>AMPKα2<sup>+/+</sup></i> and <i>AMPKα2<sup>-/-</sup></i> mice. Myotubes from <i>AMPKα2<sup>-/-</sup></i> mice had lower basal oleic acid and glucose oxidation compared to myotubes from <i>AMPKα2<sup>+/+</sup></i> mice. However, the relative response to mitochondrial uncoupling was increased for oleic acid oxidation. Incorporation of acetate into lipids was also lower in myotubes from <i>AMPKα2<sup>-/-</sup></i> mice. Proteomics analysis revealed that <i>AMPKα2<sup>-/-</sup></i> myotubes had upregulated pathways related to mitochondrial function and fatty acid oxidation, and decreased pathways related to fatty acid biosynthesis. In conclusion, ablation of AMPKα2 catalytic subunit in skeletal muscle cells resulted in reduced basal oxidation of glucose and fatty acids, however upregulated pathways related to mitochondrial function and fatty acid oxidation and reduced lipid formation.
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Taylor & Francis创建时间:
2025-01-09



