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Suppression of long chain acyl-CoA synthetase blocks intracellular fatty acid flux and glucose uptake in skeletal myotubes.

Biochim Biophys Acta Mol Cell Biol Lipids. 2020 Jul;1865(7):158678. Epub 2020 Feb 29
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摘要


Alterations in fatty acid metabolism are associated with impaired glucose uptake in skeletal muscle. Long-chain acyl-CoA synthetase (Acsl) 6 is the one of the Acsl isoforms expressed in skeletal muscle although its role in muscle energy metabolism has not been studied. Thus, the aims of this study were to investigate the role of Acsl6 in fatty acid partitioning and glucose uptake in differentiated skeletal myotubes using a siRNA-mediated knockdown approach. Compared with cells transfected with control siRNA, cells transfected with Acsl6 siRNA exhibited reduced intracellular triacylglycerol (TAG) accumulation. The initial rate of [1‑14C]‑oleic acid uptake was not altered while the incorporation of [1‑14C]‑acetic acids into total cellular lipids decreased under Acsl6 knockdown (p < 0.05). In a metabolic labeling study, Acsl6 suppression decreased the incorporation of [1‑14C]‑oleic acids and [1‑14C]‑acetic acids into TAG and diacylglycerol (DAG) (p < 0.05). During the chase period of a pulse-chase experiment, Acsl6 suppression increased the intracellular free fatty acids and decreased the fatty acid channeling toward the reacylation of TAG (p < 0.05). The incorporation of the labeled fatty acids into acid-soluble metabolites, β-oxidation product, was not changed under Acsl6 knockdown. Acsl6 siRNA decreased the insulin-induced uptake of [1‑14C]‑2‑deoxyglucose (p < 0.05) but did not change the glucose uptake in the presence of acipimox, inhibitor of lipolysis. Suppression of Acsl6 deteriorated Akt phosphorylation and Glut4 mRNA expression in response to insulin. These results suggest that Acsl6 activates and channels fatty acids toward anabolic pathways and has a role in glucose and fatty acid cycling through the re-esterification of fatty acids in skeletal muscle.

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