Reduced delta-6 desaturase activity partially protects against high-fat diet-induced impairment in whole-body glucose tolerance
Delta-6 desaturase (D6D), which is encoded by the fatty acid desaturase (Fads2) gene, is the rate-limiting enzyme for the endogenous production of n-3 long-chain polyunsaturated fatty acids. The absence of D6D activity in Fads2−/− knockout mice results in the inability to produce eicosapentaenoic ac...
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| Published in | The Journal of nutritional biochemistry Vol. 67; pp. 173 - 181 |
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| Main Authors | , , , , |
| Format | Journal Article |
| Language | English |
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United States
Elsevier Inc
01.05.2019
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| Abstract | Delta-6 desaturase (D6D), which is encoded by the fatty acid desaturase (Fads2) gene, is the rate-limiting enzyme for the endogenous production of n-3 long-chain polyunsaturated fatty acids. The absence of D6D activity in Fads2−/− knockout mice results in the inability to produce eicosapentaenoic acid and docosahexaenoic acid, and has previously been associated with altered glucose and lipid metabolism. Skeletal muscle is a major site for insulin-stimulated glucose disposal; however, the consequences of reduced D6D activity on skeletal muscle metabolism are unknown. The objective of this study was to examine the role of a partial reduction in D6D activity on whole-body glucose tolerance, skeletal muscle fatty acid profiles and protein content of key markers of carbohydrate and fat signaling pathways in the context of both low- and high-fat diets. Male C57BL/6J heterozygous (Fads2+/−) and wild-type (WT) mice were fed either a low-fat (16% kcal from fat) or high-fat (HFD; 45% kcal from fat) diet for 21 weeks. Fads2+/− mice were protected from the HFD-induced impairment in glucose tolerance. Unexpectedly, HFD-fed Fads2+/− mice had reduced GLUT4 skeletal muscle protein content compared to their WT counterparts. No changes were detected in total protein content of key markers of fatty acid uptake, glycogen formation or substrate oxidation. This study shows that reduced D6D activity is partially protective against HFD-induced impairments in whole-body glucose tolerance but does not appear to be due to increased muscle GLUT4 content or total content of proteins regulating substrate utilization. |
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| AbstractList | Delta-6 desaturase (D6D), which is encoded by the fatty acid desaturase (Fads2) gene, is the rate-limiting enzyme for the endogenous production of n-3 long-chain polyunsaturated fatty acids. The absence of D6D activity in Fads2−/− knockout mice results in the inability to produce eicosapentaenoic acid and docosahexaenoic acid, and has previously been associated with altered glucose and lipid metabolism. Skeletal muscle is a major site for insulin-stimulated glucose disposal; however, the consequences of reduced D6D activity on skeletal muscle metabolism are unknown. The objective of this study was to examine the role of a partial reduction in D6D activity on whole-body glucose tolerance, skeletal muscle fatty acid profiles and protein content of key markers of carbohydrate and fat signaling pathways in the context of both low- and high-fat diets. Male C57BL/6J heterozygous (Fads2+/−) and wild-type (WT) mice were fed either a low-fat (16% kcal from fat) or high-fat (HFD; 45% kcal from fat) diet for 21 weeks. Fads2+/− mice were protected from the HFD-induced impairment in glucose tolerance. Unexpectedly, HFD-fed Fads2+/− mice had reduced GLUT4 skeletal muscle protein content compared to their WT counterparts. No changes were detected in total protein content of key markers of fatty acid uptake, glycogen formation or substrate oxidation. This study shows that reduced D6D activity is partially protective against HFD-induced impairments in whole-body glucose tolerance but does not appear to be due to increased muscle GLUT4 content or total content of proteins regulating substrate utilization. Delta-6 desaturase (D6D), which is encoded by the fatty acid desaturase (Fads2) gene, is the rate-limiting enzyme for the endogenous production of n-3 long-chain polyunsaturated fatty acids. The absence of D6D activity in Fads2 knockout mice results in the inability to produce eicosapentaenoic acid and docosahexaenoic acid, and has previously been associated with altered glucose and lipid metabolism. Skeletal muscle is a major site for insulin-stimulated glucose disposal; however, the consequences of reduced D6D activity on skeletal muscle metabolism are unknown. The objective of this study was to examine the role of a partial reduction in D6D activity on whole-body glucose tolerance, skeletal muscle fatty acid profiles and protein content of key markers of carbohydrate and fat signaling pathways in the context of both low- and high-fat diets. Male C57BL/6J heterozygous (Fads2 ) and wild-type (WT) mice were fed either a low-fat (16% kcal from fat) or high-fat (HFD; 45% kcal from fat) diet for 21 weeks. Fads2 mice were protected from the HFD-induced impairment in glucose tolerance. Unexpectedly, HFD-fed Fads2 mice had reduced GLUT4 skeletal muscle protein content compared to their WT counterparts. No changes were detected in total protein content of key markers of fatty acid uptake, glycogen formation or substrate oxidation. This study shows that reduced D6D activity is partially protective against HFD-induced impairments in whole-body glucose tolerance but does not appear to be due to increased muscle GLUT4 content or total content of proteins regulating substrate utilization. |
| Author | Hucik, Barbora Mutch, David M. Nakamura, Manabu T. Dyck, David J. Sarr, Ousseynou |
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| Keywords | Fads2 delta-6 Desaturase HFD TLC LFD CLAMS FAT/CD36 AUC D6D (LC-) PUFA PDH βHAD GC HADHSC WT AA FABPpm AAC KO ANSA ELOVL2 DGLA IPITT TBST DGAT IPGTT GS COX Fatty acids Skeletal muscle Glucose tolerance DPA LA ALA High-fat diet EPA FA TAG DHA PL RER Insulin signaling |
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| Title | Reduced delta-6 desaturase activity partially protects against high-fat diet-induced impairment in whole-body glucose tolerance |
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