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KMID : 1094720180230040465
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Biotechnology and Bioprocess Engineering
2018 Volume.23 No. 4 p.465 ~ p.472
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Dissociation of Systemic Glucose Homeostasis from Triacylglyceride Accumulation by Reduced Acsl6 Expression in Skeletal Muscle
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Lee Jun-Yeup
Kim A-Reum
Jung Yun-Hee
Bu So-Young
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Abstract
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Long chain acyl-CoA synthetase (ACSL) is an enzyme that activates fatty acids before they are further metabolized. ACSL6 is the one of main ACSL isoforms exclusively expressed in skeletal muscle, but the consequences of the suppression of this gene in systemic glucose homeostasis has yet to be reported. Hence, we investigated the roles of ACSL6 gene in glucose tolerance and TAG distribution in physiological conditions. Eight-week-old male C57BL/6J mice were administered with control or Acsl6 siRNAs and then fed with either AIN-93 control diet or high fat diet. At seven days after the first siRNA injection, oral glucose tolerance tests and TAG quantification were performed. In vivo administration of Acsl6 siRNA decreased Acsl6 expression only in skeletal muscle under AIN-93 or a high fat diet. However Acsl6 siRNA injection to animals increased TAG accumulation in the liver without the change of Acsl6 expression. Atelocollagen mediated Acsl6 suppression enhanced whole-body glucose tolerance coinciding with decreased TAG accumulation in skeletal muscle of mice fed an AIN-93 diet. However, the improved glucose tolerance by Acsl6 reduction was ablated by high fat diet. Moreover reduced Acsl6 did not alter the phosphorylation of insulin signaling proteins in skeletal muscle. These results suggest that Acsl6 reduction in skeletal muscle enhances glucose homeostasis and dissociates the insulin responses from TAG accumulation in skeletal muscle.
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KEYWORD
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skeletal muscle, ACSL6, triacylglyceride, liver, glucose homeostasis
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