UMLS:C0011849 - FACTA Search

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Query: UMLS:C0011849 (diabetes)
277,896 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We used anti-insulin-receptor and anti-phosphotyrosine antibodies to elucidate the mechanism of decreased insulin-receptor tyrosine kinase activity observed in subjects with non-insulin-dependent diabetes mellitus (NIDDM). Lectin-purified insulin receptors were labeled with 125I-labeled NAPA-DP-insulin and autophosphorylated in the presence of 500 microM unlabeled ATP. Immunoprecipitation occurred in 43 +/- 8% of the autophosphorylated, 125I-labeled receptors from nondiabetic subjects with anti-phosphotyrosine antibodies in contrast to 100% immunoprecipitation with anti-insulin-receptor antibodies. Anti-phosphotyrosine antibodies immunoprecipitated only 14 +/- 6% of NIDDM receptors (P less than .05 vs. nondiabetic receptors). A significant correlation existed between maximal insulin-stimulated receptor tyrosine kinase activity and the proportion of receptors immunoprecipitated by anti-phosphotyrosine antibodies (r = .76, P less than .01). These results suggest that human adipocytes contain two distinct receptor populations, both of which bind insulin but only one of which is capable of insulin-stimulated tyrosine phosphorylation. In nondiabetic subjects, 40-50% of the receptors that bind insulin are capable of insulin-stimulated tyrosine autophosphorylation. The proportion of receptors that bind insulin but are incapable of insulin-stimulated tyrosine autophosphorylation is increased in NIDDM; the magnitude of this increase correlated with the magnitude of the decrease in kinase activity.
Diabetes 1989 Mar
PMID:Mechanism of defective insulin-receptor kinase activity in NIDDM. Evidence for two receptor populations. 246 97

This study was designed to examine the mechanisms causing peripheral insulin resistance in patients with insulin-dependent diabetes mellitus (IDDM) by studying insulin receptor function and glycogen synthase activity in biopsies of skeletal muscle. The results in seven such patients were compared with values obtained in a group of sedentary, age- and sex-matched normal subjects. In addition, since physical training appears to improve insulin sensitivity, the IDDM patients were reexamined after physical training for 6 weeks. The mean maximal glycogen synthase activity was lower in the diabetic than in the normal group [34.5 +/- 10.6 (+/- SD) vs. 45.7 +/- 8.6 nmol/mg protein.min; P less than 0.05], whereas there was no difference in the half-maximal activation constant (A0.5) for glucose-6-phosphate. Likewise, the mean yield of wheat germ agglutinin-purified insulin receptors recovered per mg muscle was 21% lower in the muscle biopsies from the diabetic patients (47 +/- 8 vs. 66 +/- 20 fmol/100 mg; P less than 0.05. However, basal and insulin-stimulated receptor kinase activities, expressed as phosphorylation of the synthetic peptide poly-Glu-Tyr(4:1), were identical in the two groups. After physical training in the diabetic patients the mean maximal oxygen uptake increased from 45.7 +/- 7.4 to 48.9 +/- 9.0 mL O2/kg.min (P less than 0.05), hemoglobin A1c decreased from 7.9 +/- 1.4% to 7.7 +/- 1.5% (P less than 0.05), and insulin requirements decreased from 43 +/- 9 to 38 +/- 8 U/day (P less than 0.05). The number of recovered insulin receptors did not increase, and the receptor kinase activity was similar to the pre-training value. Maximal glycogen synthase activity increased by 15% (P less than 0.02), whereas A0.5 for glucose-6-phosphate did not change. We conclude that insulin binding to muscle-derived insulin receptors is impaired in IDDM patients, whereas receptor kinase function appears to be normal. The capacity for glycogen storage in the diabetic skeletal muscle was reduced. Physical training tended to normalize glycogen synthase activity, but did not improve insulin receptor function significantly.
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PMID:Insulin receptor function and glycogen synthase activity in skeletal muscle biopsies from patients with insulin-dependent diabetes mellitus: effects of physical training. 249 87

1. The effects of a six week period of streptozotocin-induced diabetes on tissue catecholamines and on in vivo noradrenaline turnover were assessed in rats. 2. Noradrenaline concentrations measured in heart ventricle, terminal ileum, vas deferens, spleen and adrenal tissue from the diabetic rats were all found to be elevated compared to those found in control rat tissues. The adrenaline contents of the adrenal glands were also raised in these animals. 3. Noradrenaline turnover in heart ventricle, terminal ileum and vas deferens was estimated from the decline in tissue content of the amine following inhibition of its synthesis with alpha-methyl-p-tyrosine. Turnover was found to be increased in all three tissues. 4. The involvement of the polyol pathway in the above changes was investigated by examining the effects of continuous treatment with an aldose reductase inhibitor, Statil (ICI 128436) or dietary myo-inositol supplementation. Either treatment was found to prevent or reduce the increases in tissue noradrenaline and in its turnover. Myo-inositol treatment also partially prevented the rise in adrenal adrenaline. 5. It is concluded that the elevation of tissue catecholamines and of noradrenaline turnover by diabetes was related to myo-inositol depletion secondary to excessive sorbitol synthesis. Possible mechanisms for the observed increase in noradrenaline turnover could involve Na+, K+-ATPase depression.
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PMID:Tissue noradrenaline and the polyol pathway in experimentally diabetic rats. 250 23

The effect of diabetes-induced chronic tyrosine (Tyr) deficiency on dopamine (DA) synthesis in different areas of the mesotelencephalic DA system was examined. Diabetes was induced using streptozotocin. In vivo Tyr hydroxylation was used as an index of DA synthesis. The brain areas examined were prefrontal cortex (PFC), pyriform cortex (PYR), olfactory tubercle (OT), caudate-putamen (CP), substantia nigra (SN), and ventral tegmental area (VTA). Significant decreases in Tyr hydroxylation were observed in PFC, CP, and PYR. The largest decrease was seen in the PFC. Variations in tissue Tyr levels were shown to account for 62% of the variability in Tyr hydroxylation in the PFC, and 23% of the variability in the CP; a significant correlation between Tyr levels and Tyr hydroxylation was not seen in the other brain areas. The mechanisms underlying this regionally selective effect, and possible clinical relevance are discussed.
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PMID:Regionally-specific alterations in mesotelencephalic dopamine synthesis in diabetic rats: association with precursor tyrosine. 252 83

Calmodulin is a substrate for insulin-receptor kinase obtained from rat adipocytes and hepatocytes and human placenta. In this study, we demonstrate that insulin stimulates the phosphorylation of calmodulin via insulin receptors partially purified from rat skeletal muscle. Phosphorylation of calmodulin was maximal in the presence of Mg2+ and insulin and the absence of Ca2+. Free-Ca2+ concentrations greater than 0.1 microM progressively inhibited phosphorylation with almost total inhibition at 200 microM Ca2+. Insulin-stimulated phosphorylation of calmodulin was dose dependent and saturable with half-maximal effect obtained at approximately 5 x 10(-10) M insulin. There was an absolute requirement for certain basic proteins, e.g., polylysine or protamine sulfate, to obtain phosphate incorporation into calmodulin. Polylysine stimulated the phosphorylation of calmodulin independently of insulin, but this was increased up to sixfold by the addition of insulin. Phosphate incorporation into calmodulin increased with increasing concentration of the substrate up to a saturating concentration of 2.4 microM. The Km for calmodulin was approximately 0.2 microM. Up to 0.15 mol of phosphate was incorporated per mole of calmodulin with tyrosine the predominant amino acid phosphorylated. The observations that calmodulin is phosphorylated by insulin-receptor kinase from all three classic target organs for insulin confirm that calmodulin is a general substrate for this kinase and suggest that Ca2+ and calmodulin may be components of the insulin-signaling mechanism.
Diabetes 1989 Jan
PMID:Calmodulin as substrate for insulin-receptor kinase. Phosphorylation by receptors from rat skeletal muscle. 253 26

Spontaneous hypertensive-corpulent rats (SHR/N-corpulent), homozygous for the corpulent gene (cp/cp), are obese, hyperinsulinemic and exhibit abnormal glucose tolerance and thus represent a model for type II diabetes and obesity. In view of their overall insulin resistance, we examined liver insulin receptor binding and tyrosine kinase activity from corpulent rats and lean littermates fed purified diets containing 54% sucrose or starch for about 12 wk. Specific 125I-insulin binding to crude liver membranes from female corpulent rats fed either starch or sucrose was reduced to approximately 50% of that seen in lean rats (14 vs. 7%). Affinity of insulin receptors was similar in all groups, suggesting that hyperinsulinemic corpulent rats possess fewer hepatic insulin receptors than do lean rats. Using similar numbers of wheat germ agglutinin-agarose (WGA)-purified insulin receptors with similar affinities for insulin, it was found that basal and insulin-stimulated phosphorylation of the synthetic tyrosine-specific kinase substrate poly(Glu, Tyr)4:1 was similar in lean and obese rats fed sucrose or starch. It is suggested that the contribution of the liver to the insulin resistance in obese SHR/N-cp rats probably lies distal to the insulin receptor tyrosine kinase.
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PMID:Liver insulin receptor tyrosine kinase activity in a rat model of type II diabetes mellitus and obesity. 253 93

Postbinding defects in insulin action were described previously in cultured fibroblasts from six patients with lipoatropic diabetes. To define the contribution of the insulin receptor tyrosine kinase in these defects, we studied autophosphorylation and kinase activity of lectin purified receptors from these six patients and six normal cell lines. The patients' insulin receptors, prepared by precipitation with polyethylene glycol, had normal insulin binding characteristics and autophosphorylation properties, but a 56% decrease in the tyrosine kinase activity toward an exogenous substrate. To identify more subtle qualitative defects in autophosphorylation, insulin receptors were sequentially immunoprecipitated and analyzed for their phosphoaminoacid content. The phosphorylated receptors precipitated with an antiphosphotyrosine antibody contained labeled phosphotyrosine, whereas those in the supernatant, when further precipitated with an antireceptor antibody, contained only phosphoserine. Under these conditions, the insulin-stimulated autophosphorylation of tyrosine was significantly decreased by 54% in the patient receptors compared to normal subjects' receptors. In addition, insulin-like growth factor-I stimulation of autophosphorylation of its receptor was reduced by 59% in the patients' cells compared to those from normal subjects. We conclude that fibroblasts from patients with lipoatropic diabetes have defects in the tyrosine kinase activity of their insulin and their insulin-like growth factor-I receptors that might give rise to the in vitro hormone resistance and be related to the in vivo hormone resistance that occurs in these patients.
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PMID:Tyrosine-kinase defect of the insulin receptor in cultured fibroblasts from patients with lipoatropic diabetes. 254 88

The potencies of several opioid agonists are reduced in diabetic animals and in animals made hyperglycemic via injections of glucose. In this report we examined the effects of streptozotocin-induced diabetes on the feeding responses to centrally administered opioid agonists with differing receptor selectivities. The selective mu receptor agonist Tyr-D-Ala-Gly-(Me)Phe-Gly-ol (DAGO) caused a larger increase in intake in diabetic rats than in controls. In both groups feeding responses were greater on the fourth day of daily injections than on the first day. The delta receptor agonist [D-Ser2,Leu5]-enkephalin-Thr6 (DSLET) stimulated intake in controls but not in diabetics. However, the elevated baseline and large variability in intake of the diabetics in this experiment prevent drawing a conclusion on diabetes-induced changes in the potency of this peptide. No differences between controls and diabetics were apparent in the feeding responses to U50, 488H, a selective kappa receptor agonist. These data suggest that diabetes may differentially affect the classes of opioid receptors or the binding of ligands to these receptors.
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PMID:Effects of streptozotocin-induced diabetes on feeding stimulated by centrally administered opioid agonists. 254 90

Substrates of the insulin receptor tyrosine kinase have not been identified in skeletal muscle, a major target organ of insulin action. We observed the insulin-stimulated phosphorylation of a 195K protein (pp195) in extracts prepared from rat skeletal muscle and liver. pp195 copurifies with the insulin receptor on wheat germ agglutinin affinity chromatography. pp195 is not related to the insulin receptor, as assessed by lack of recognition by antinsulin receptor antibodies and by phosphopeptide mapping. Reduction of sulfhydryl bonds does not affect its apparent mol wt. Phosphorylation of pp195 has an absolute requirement in vitro for Mn2+ or Mg2+ and for certain basic poly-amino acids, i.e. poly-L-lysine or poly-L-ornithine. In the presence of 1 microM poly-L-lysine insulin stimulates pp195 phosphorylation in a dose-dependent manner (k0.5, approximately 5 x 10(-10) M; maximum approximately 10(-8) M insulin); pp195 phosphorylation by insulin-like growth factor-I requires about 100-fold higher doses. By phosphoamino acid analysis, pp195 is predominantly phosphorylated on tyrosine, and it is recognized by antiphosphotyrosine antibodies. Insulin receptors isolated from rat muscles 5 min after insulin injection induce about 2-fold greater phosphorylation of pp195 in vitro than receptors isolated from saline-injected controls. Streptozotocin-induced diabetes results in marked diminution of insulin-stimulated pp195 phosphorylation in extracts of muscle and liver (approximately 50% when normalized to protein content of wheat germ agglutinin eluates or approximately 80% reduction when normalized to equal receptor number). The defect is reversible by insulin therapy in vivo.
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PMID:Insulin-stimulated phosphorylation of a 195K protein from muscle and liver in the presence of poly-L-lysine. 254 86

Phosphotyrosine phosphatase (PTPase) activity in rat liver was measured using a phosphopeptide substrate containing sequence identity to the major site of insulin receptor autophosphorylation. PTPase activity was detected in both cytosolic and particulate fractions of rat liver and produced linear dephosphorylation over a 15-min time course. In rats made insulin-deficient diabetic by streptozotocin treatment (STZ), cytosolic PTPase activity increased to 180% of the control values after 2 d of diabetes and remained elevated at 30 d (P less than 0.02). Gel filtration on Sephadex-75 revealed a single peak of activity in the cytosol in both control and diabetic animals and confirmed the increased levels. In BB diabetic rats, another model of insulin deficiency, the PTPase activity in the cytosolic fraction was increased to approximately 230% of control values. PTPase activity in the particulate fraction of liver was also increased by 30 and 80% after 2 and 8 d of STZ diabetes, respectively. However, this increase was not sustained and after 30 d of STZ diabetes, PTPase activity associated with the particulate fraction in the BB diabetic rat was reduced to approximately 70% of the control levels. Treatment of STZ diabetic rats with subcutaneous insulin or vanadate in their drinking water for 3 d reduced tyrosine PTPase activity in the particulate, but not in the cytosolic fraction. This was associated with a change in blood glucose toward normal. These data indicate insulin deficient diabetes is accompanied by significant changes in hepatic PTPase activity. Since tyrosine phosphorylation plays a central role in the cellular action of insulin receptor, an increase in PTPase activity may be an important factor in the altered insulin action associated with these diabetic states.
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PMID:Hepatic phosphotyrosine phosphatase activity and its alterations in diabetic rats. 254 42

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