The finding of a reduced insulin-stimulated glucose uptake and glycogen synthesis in the skeletal muscle of glucose-tolerant first-degree relatives of patients with NIDDM, as well as in cultured fibroblasts and skeletal muscle cells isolated from NIDDM patients, has been interpreted as evidence for a genetic involvement in the disease. The mode of inheritance of the common forms of NIDDM is as yet unclear, but the prevailing hypothesis supports a polygenic model. In the present study, we tested the hypothesis that the putative inheritable defects of insulin-stimulated muscle glycogen synthesis might be caused by genetic variability in the genes encoding proteins shown by biochemical evidence to be involved in insulin-stimulated glycogen synthesis in skeletal muscle. In 70 insulin-resistant Danish NIDDM patients, mutational analysis by reverse transcription-polymerase chain reaction-single strand conformation polymorphism-heteroduplex analysis was performed on genomic DNA or skeletal muscle-derived cDNAs encoding glycogenin, protein phosphatase inhibitor-1, phophatase targeting to glycogen, protein kinase B-alpha and -beta, and the phosphoinositide-dependent protein kinase-1. Although a number of silent variants were identified in some of the examined genes, we found no evidence for the hypothesis that the defective insulin-stimulated glycogen synthesis in skeletal muscle in NIDDM is caused by structural changes in the genes encoding the known components of the insulin-sensitive glycogen synthesis pathway of skeletal muscle.
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Abstract|
February 01 1999
Mutational analysis of the coding regions of the genes encoding protein kinase B-alpha and -beta, phosphoinositide-dependent protein kinase-1, phosphatase targeting to glycogen, protein phosphatase inhibitor-1, and glycogenin: lessons from a search for genetic variability of the insulin-stimulated glycogen synthesis pathway of skeletal muscle in NIDDM patients.
L Hansen;
L Hansen
Steno Diabetes Center and Hagedorn Research Institute, Gentofte, Denmark. larh@hagedorn.dk
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H Fjordvang;
H Fjordvang
Steno Diabetes Center and Hagedorn Research Institute, Gentofte, Denmark. larh@hagedorn.dk
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S K Rasmussen;
S K Rasmussen
Steno Diabetes Center and Hagedorn Research Institute, Gentofte, Denmark. larh@hagedorn.dk
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H Vestergaard;
H Vestergaard
Steno Diabetes Center and Hagedorn Research Institute, Gentofte, Denmark. larh@hagedorn.dk
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S M Echwald;
S M Echwald
Steno Diabetes Center and Hagedorn Research Institute, Gentofte, Denmark. larh@hagedorn.dk
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T Hansen;
T Hansen
Steno Diabetes Center and Hagedorn Research Institute, Gentofte, Denmark. larh@hagedorn.dk
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D Alessi;
D Alessi
Steno Diabetes Center and Hagedorn Research Institute, Gentofte, Denmark. larh@hagedorn.dk
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S Shenolikar;
S Shenolikar
Steno Diabetes Center and Hagedorn Research Institute, Gentofte, Denmark. larh@hagedorn.dk
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A R Saltiel;
A R Saltiel
Steno Diabetes Center and Hagedorn Research Institute, Gentofte, Denmark. larh@hagedorn.dk
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F Barbetti;
F Barbetti
Steno Diabetes Center and Hagedorn Research Institute, Gentofte, Denmark. larh@hagedorn.dk
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O Pedersen
O Pedersen
Steno Diabetes Center and Hagedorn Research Institute, Gentofte, Denmark. larh@hagedorn.dk
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Citation
L Hansen, H Fjordvang, S K Rasmussen, H Vestergaard, S M Echwald, T Hansen, D Alessi, S Shenolikar, A R Saltiel, F Barbetti, O Pedersen; Mutational analysis of the coding regions of the genes encoding protein kinase B-alpha and -beta, phosphoinositide-dependent protein kinase-1, phosphatase targeting to glycogen, protein phosphatase inhibitor-1, and glycogenin: lessons from a search for genetic variability of the insulin-stimulated glycogen synthesis pathway of skeletal muscle in NIDDM patients.. Diabetes 1 February 1999; 48 (2): 403–407. https://doi.org/10.2337/diabetes.48.2.403
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