1. Selective glycogen synthase kinase 3 inhibitors potentiate insulin activation of glucose transport and utilization in vitro and in vivo
- Author
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David B. Ring, Isa Samuels, Kirk W. Johnson, Erik J. Henriksen, Dane Goff, Allan S. Wagman, Stephen D. Harrison, Trina Slabiak, John W. Reeder, Mary Ellen Wernette Hammond, John M. Nuss, Sylvia Ma, and Tyson R. Kinnick
- Subjects
Male ,medicine.medical_specialty ,Pyridines ,Endocrinology, Diabetes and Metabolism ,medicine.medical_treatment ,Aminopyridines ,Gene Expression ,CHO Cells ,Biology ,Transfection ,Rats, Sprague-Dawley ,Glycogen phosphorylase ,Glycogen Synthase Kinase 3 ,Mice ,Insulin resistance ,GSK-3 ,Internal medicine ,Insulin receptor substrate ,Cricetinae ,Internal Medicine ,medicine ,Diabetes Mellitus ,Animals ,Humans ,Insulin ,Enzyme Inhibitors ,Glycogen synthase ,Muscle, Skeletal ,Glucose transporter ,Biological Transport ,Drug Synergism ,medicine.disease ,Receptor, Insulin ,Rats ,Rats, Zucker ,Enzyme Activation ,Mice, Inbred C57BL ,Insulin receptor ,Endocrinology ,Glucose ,Glycogen Synthase ,Pyrimidines ,biology.protein ,Hepatocytes ,Female ,Insulin Resistance - Abstract
Insulin resistance plays a central role in the development of type 2 diabetes, but the precise defects in insulin action remain to be elucidated. Glycogen synthase kinase 3 (GSK-3) can negatively regulate several aspects of insulin signaling, and elevated levels of GSK-3 have been reported in skeletal muscle from diabetic rodents and humans. A limited amount of information is available regarding the utility of highly selective inhibitors of GSK-3 for the modification of insulin action under conditions of insulin resistance. In the present investigation, we describe novel substituted aminopyrimidine derivatives that inhibit human GSK-3 potently (Ki < 10 nmol/l) with at least 500-fold selectivity against 20 other protein kinases. These low molecular weight compounds activated glycogen synthase at ∼100 nmol/l in cultured CHO cells transfected with the insulin receptor and in primary hepatocytes isolated from Sprague-Dawley rats, and at 500 nmol/l in isolated type 1 skeletal muscle of both lean Zucker and ZDF rats. It is interesting that these GSK-3 inhibitors enhanced insulin-stimulated glucose transport in type 1 skeletal muscle from the insulin-resistant ZDF rats but not from insulin-sensitive lean Zucker rats. Single oral or subcutaneous doses of the inhibitors (30–48 mg/kg) rapidly lowered blood glucose levels and improved glucose disposal after oral or intravenous glucose challenges in ZDF rats and db/db mice, without causing hypoglycemia or markedly elevating insulin. Collectively, our results suggest that these selective GSK-3 inhibitors may be useful as acute-acting therapeutics for the treatment of the insulin resistance of type 2 diabetes.
- Published
- 2003