Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0011849 (diabetes)
 277,896 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Approximately 70% of primary 7,12-dimethylbenz(alpha)-anthracene-induced mammary tumors regressed when (tumor-bearing) rats were made diabetic after treatment with streptozotocin. In the intact animal, cyclic adenosine 3':5"-monophosphate (cAMP) levels of tumors that regressed following the induction of diabetes were initially 4-fold lower than in unresponsive tumors but increased 4-fold during regression. The insulin-independent tumors showed no statistically significant changes. cAMP binding in cytosol of regressing tumors was about 80% above the initial values at 36 hr after therapy but decreased to about 45% 1 week later. On the contrary, the binding capacity of the nuclei showed a 56% increase at 36 hr and increased gradually to about 3-fold 1 week later. Within 36 hr after treatment, total histone kinase activity increased 127% in the cytosol and 153% in the nuclei of regressing tumors. The increment of histone kinase activity was almost totally in the cAMP-dependent component of the enzyme. These changes were not apparent in insulin-independent tumors. The results are interpreted to indicate that mammary tumor regression due to diabetes involves the cAMP system and occurs through a sequence of events similar to those observed during regression induced by either ovariectomy or dibutyryl cAMP (cyclic adenosine 3':5'-monophosphate) treatment.
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PMID:Cyclic adenosine 3':5'-monophosphate and protein kinase activity in insulin-dependent and -independent mammary tumors. 22 Nov 6

To examine the cellular mechanism of the antihyperglycemic action of metformin, we studied its effect on various functional and molecular parameters involved in the pathogenesis of insulin resistance. Isolated rat adipocytes were incubated with or without metformin (1-100 micrograms/ml) for 2 h at 37 degrees C followed by an incubation with or without insulin (1.72 nM). Metformin treatment had no significant effect on basal 3-O-methylglucose uptake. In contrast, metformin increased insulin-stimulated glucose transport in a dose-dependent manner up to 43 +/- 7%. This effect was neither associated with a significant effect of metformin on trace insulin binding (1.74 +/- 0.20% without metformin vs. 1.89 +/- 0.30% with metformin; P greater than 0.05) nor with an effect of metformin on insulin-receptor kinase activity as measured by 32P incorporation into the 95,000-Mr beta-subunit of the insulin receptor and an exogenous substrate, histone 2B.(ABSTRACT TRUNCATED AT 250 WORDS)
Diabetes 1991 Jul
PMID:Association of Metformin's effect to increase insulin-stimulated glucose transport with potentiation of insulin-induced translocation of glucose transporters from intracellular pool to plasma membrane in rat adipocytes. 164 95

Hyperglycemia causes insulin-receptor kinase (IRK) resistance in fat cells. We characterized the mechanism of IRK inhibition and studied whether it is the consequence of a glucose-induced stimulation of protein kinase C (PKC). Fat cells were incubated for 1 or 12 h in culture medium containing either a low-(5-mM) or high- (25-mM) glucose concentration. IRK was isolated, insulin binding was determined, and autophosphorylation was studied in vitro with [gamma-32P]ATP or was determined by Western blotting with anti-phosphotyrosine antibodies. Substrate phosphorylation was investigated with the artificial substrate poly(Glu80-Tyr20). Partially purified insulin receptor from rat fat cells, which were cultured under high-glucose conditions for 1 or 12 h, showed no alteration of insulin binding but a reduced insulin effect on autophosphorylation (30 +/- 7% of control) and poly(Glu80-Tyr20) phosphorylation (55.5 +/- 9% of control). Lineweaver-Burk plots of the enzyme kinetics revealed, beside a reduced Vmax, and increased KM (from 30 microM to 80 microM) for ATP of IRK from high-glucose-treated cells. Because a similar inhibition pattern was earlier found for IRK from fat cells after acute phorbol ester stimulation, we investigated whether activation of PKC might be the cause of the reduced IRK activity. We isolated PKC from the cytosol and the membrane fraction of high- and low-glucose fat cells and determined the diacylglycerol- and phospholipid-stimulated PKC activity toward the substrate histone. There was no significant change of cytosolic PKC; however, membrane-associated PKC activity was increased in high-glucose-treated cells.(ABSTRACT TRUNCATED AT 250 WORDS)
Diabetes 1991 Nov
PMID:Prevention by protein kinase C inhibitors of glucose-induced insulin-receptor tyrosine kinase resistance in rat fat cells. 165 68

The impaired Na(+)-K(+)-ATPase activity in peripheral nerve from diabetic rats is prevented by dietary myo-inositol (MI) supplementation in vivo and corrected by protein kinase C (PKC) agonists in vitro, suggesting that PKC may mediate the effects of nerve MI depletion on Na(+)-K(+)-ATPase activity. However, little is known about the effect of diabetes on PKC activity or peptide in rat peripheral nerve. Therefore, the effect of streptozocin-induced diabetes and dietary MI supplementation on the activity and distribution of PKC in rat sciatic nerve homogenates and cytosolic and particulate fractions was explored with histone phosphorylation assay and Western-blot analysis. PKC activity but not peptide was selectively decreased in the cytosolic fraction by streptozocin-induced diabetes, and this abnormality was partially corrected by dietary MI supplementation. These results suggest that altered MI metabolism may affect nerve PKC specific activity, and this alteration may play a role in reduced Na(+)-K(+)-ATPase activity and blunted regenerative response in diabetic nerve.
Diabetes 1991 Nov
PMID:Diminished specific activity of cytosolic protein kinase C in sciatic nerve of streptozocin-induced diabetic rats and its correction by dietary myo-inositol. 165 70

The effects of acute and chronic hyperglycemia on the kinase activity of insulin receptors in vivo were studied in the rat. Skeletal muscle-derived insulin receptors were isolated, with preservation of the in vivo phosphorylation state, from nondiabetic rats subjected to hyperinsulinemic clamps at either euglycemia (mean 5.2 mM) or hyperglycemia (14.4 mM) or from streptozocin-induced diabetic rats at euglycemia (5.1 mM) or hyperglycemia (14.2 mM). Kinase activity toward histone of insulin receptors from nondiabetic animals rendered hyperglycemic for 80-90 min was 50% higher than that of receptors from rats clamped at euglycemia (mean +/- SE 4.5 +/- 0.4 vs. 3.0 +/- 0.3 fmol of phosphate into histone, respectively, P less than 0.02), although kinase activity of receptors isolated from animals rendered diabetic for 10-14 days before hyperglycemic or euglycemic clamps showed no such effect. These results suggest that acute hyperglycemia may increase insulin-receptor kinase activity in vivo, possibly augmenting glucose disposal thereby, whereas the chronic hyperglycemia of diabetes mellitus results in metabolic derangements that nullify this effect.
Diabetes 1991 May
PMID:Regulation of rat insulin-receptor kinase by glucose in vivo. 167 63

Insulin receptor tyrosine kinase activity solubilized from liver of control and streptozotocin diabetic rats was studied using histone H2b and poly-Glu-Tyr (4:1) as phosphoacceptors. Both substrates inhibited autophosphorylation and exogenous kinase activity when added before, but not after, receptor activation with ATP. When H2b was added before ATP, insulin stimulated exogenous kinase activity of diabetic-derived receptors was significantly higher (approximately 50%) than control values at low H2b concentrations, but significantly lower (approximately 50%) than control values at high H2b concentrations, suggesting a decrease in the apparent Km and maximal velocity of the diabetic receptor tyrosine kinase toward H2b. When receptors were allowed to maximally autophosphorylate before the addition of H2b, the maximal H2b kinase activity of diabetic-derived receptors was only approximately 25% lower than that of controls. These effects were not attributable to altered ATP kinetics. Insulin receptor kinase activity toward the substrate poly-Glu-Tyr (4:1) was unaltered by insulinopenic diabetes. Insulin receptor alpha-beta dimers were not detectable in either control or diabetic-derived preparations. We conclude that the impairment of hepatic insulin receptor kinase activity associated with insulinopenic diabetes reflects a decreased ability to maximally activate, which is enhanced when the receptor is activated in the presence of some substrates, e.g. H2b. Impaired signalling by the diabetic-derived receptor appears to be dependent on the type of substrate and its concentration.
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PMID:Diabetes-associated impairment of hepatic insulin receptor tyrosine kinase activity: a study of mechanisms. 184 1

Tyrosine kinase activity of skeletal muscle-derived insulin receptors isolated from rats that had undergone euglycemic clamps at various insulin infusion rates was examined. Receptors were isolated under conditions designed to preserve their in vivo phosphorylation state, and their kinase activity toward histone was measured in the absence of in vitro exposure to insulin. Results showed that significant activation of the insulin-receptor kinase occurred after exposure in vivo to mean serum insulin concentrations as low as 34 +/- 3.5 microU/ml and that maximal activation was achieved by insulin levels less than or equal to 2000 microU/ml. There was a highly significant correlation between receptor kinase activity and serum insulin concentration in the physiologic range (r = .92, P less than .0001) and between kinase activity and glucose utilization rate (r = .74, P less than .0001). These findings further support a role for the insulin-receptor kinase in insulin action in vivo, and this model provides a novel method for the study of the effect of factors known to influence insulin action on the insulin-receptor kinase under physiologic conditions.
Diabetes 1989 Jan
PMID:Rat insulin-receptor kinase activity correlates with in vivo insulin action. 253 23

Activation of skeletal muscle insulin receptor tyrosine kinase in vitro and in vivo was studied in two rat models of insulin resistance: insulinopenic diabetes and hypercortisolemia. In control rats, intravenous insulin administration resulted in dose-dependent in vivo activation of the muscle insulin receptor kinase towards histone H2b. Half-maximal and maximal activation were observed 5 min after injecting 0.1 and 0.5 U insulin/100 g, respectively. Diabetes (7 days) induced with streptozotocin did not affect insulin binding affinity of solubilized muscle receptors but depressed receptor kinase activation in vivo by 52 or 40% after intravenous insulin administration (0.1 or 2 U/100 g, respectively). Cortisone treatment (5 days) resulting in weight loss, hyperglycemia, and hyperinsulinemia did not affect the number, insulin binding affinity, or kinase activity of solubilized receptors activated with insulin in vitro or in vivo. It is concluded that impaired insulin receptor tyrosine kinase activation was demonstrated in vivo in rats with insulinopenic diabetes and that glucocorticoid-induced insulin resistance probably reflects postreceptor defect(s) in muscle.
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PMID:Effects of hypercortisolemia and diabetes on skeletal muscle insulin receptor function in vitro and in vivo. 264 42

Treatment of pancreatic acini from diabetic rats with insulin resulted in a dose-dependent increase in the phosphorylation of ribosomal protein S6 when analyzed by two-dimensional gel electrophoresis. To study the presence of the protein kinase mediating this phosphorylation, soluble extracts of intact acini that had been previously treated with insulin were prepared and assayed for protein kinase activity with rat pancreatic ribosomes as a substrate. Activation of S6 kinase activity, observed in a time-dependent manner, was maximal after 20-30 min and, in a dose-dependent manner, was half-maximal at 1 nM and maximal at 10 nM insulin concentration. Based on cofactor requirements, substrate specificity, and a slow activation of the enzyme, the S6 kinase was distinct from cAMP-dependent, Ca2+-calmodulin-dependent, and Ca2+-phospholipid-dependent protein kinases and protease-activated kinase II. The S6 kinase activated by insulin was highly specific for the ribosomal protein S6 when compared with various substrates, including casein, glycogen synthase, phosphorylase b, phosvitin, histone HIII-S, and histone HVIII-S. Protein S6 phosphorylation in intact acini and activation of the S6 kinase by insulin showed similar dose-response curves, consistent with the S6 kinase being responsible for the protein S6 phosphorylation in intact acini. The comparison of the dose-response curves for S6 phosphorylation and protein synthesis in acini suggests that there is a close correlation between these two insulin actions.
Diabetes 1989 May
PMID:Insulin and ribosomal protein S6 kinase in rat pancreatic acini. 265 25

The effect of sulfonylureas tolbutamide and glyburide on adenylate cyclase- and cAMP-dependent protein kinase (A-kinase) was examined in rat liver cytosol. Both tolbutamide and glyburide inhibited the A-kinase activity in a dose-dependent manner. Half-maximal inhibition was obtained at 10 mM with tolbutamide and at 0.2 mM with glyburide, indicating that glyburide was 50-fold as potent as tolbutamide. Neither tolbutamide nor glyburide affected [3H]cAMP binding to the protein kinase, but both inhibited the activity of catalytic units of the A-kinase. Lineweaver-Burk double-reciprocal plots revealed that the inhibitory effects of these drugs were noncompetitive with respect to the protein substrate histone, as well as to the phosphate-donor substrate ATP. Thus, tolbutamide and glyburide inhibited the A-kinase activity in rat liver cytosol, and it was suggested that, through the inhibition of A-kinase, the sulfonylureas would affect the carbohydrate metabolism in the liver. In fact, the relative potencies of these two drugs on A-kinase activity corresponded well with those of their reported antidiabetic effects.
Diabetes 1988 Jul
PMID:Effect of tolbutamide and glyburide on cAMP-dependent protein kinase activity in rat liver cytosol. 283 57


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