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)

The tyrosine kinase activity of the insulin receptor was examined with partially-purified insulin receptors from adipocytes obtained from 13 lean nondiabetics, 14 obese nondiabetics, and 13 obese subjects with non-insulin-dependent diabetes (NIDDM). Incubation of receptors at 4 degrees C with [gamma-32P]ATP and insulin resulted in a maximal 10-12-fold increase in autophosphorylation of the 92-kDa beta-subunit of the receptor with a half maximal effect at 1-3 ng/ml free insulin. Insulin receptor kinase activity in the three experimental groups was measured by means of both autophosphorylation and phosphorylation of the exogenous substrate Glu4:Tyr1. In the absence of insulin, autophosphorylation and Glu4:Tyr1 phosphorylation activities, measured with equal numbers of insulin receptors, were comparable among the three groups. In contrast, insulin-stimulated kinase activity was comparable in the control and obese subjects, but was reduced by approximately 50% in the NIDDM group. These findings indicate that the decrease in kinase activity in NIDDM resulted from a reduction in coupling efficiency between insulin binding and activation of the receptor kinase. The insulin receptor kinase defects observed in NIDDM could be etiologically related to insulin resistance in NIDDM and the pathogenesis of the diabetic state.
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PMID:Decreased kinase activity of insulin receptors from adipocytes of non-insulin-dependent diabetic subjects. 354 10

Cellular signaling by insulin is initiated by specific membrane receptors that have been characterized as large multimeric disulfide-linked protein complexes with a minimal subunit structure of (beta-S-S-alpha)-S-S-(alpha-S-S-beta), where the alpha- and beta-subunits are about 125,000 and 90,000 daltons, respectively. The disulfides in this structure are of two classes based on their differential sensitivity to reductants (Massague, J., and Czech, M. P., J. Biol. Chem. 1982; 257:6729-35). An important recent discovery is that the insulin receptor, either in crude detergent extracts or after purification by affinity chromatography, is associated with insulin-activatable tyrosine phosphokinase activity and is itself autophosphorylated (Kasuga, M., et al., Proc. Natl. Acad. Sci. USA 1983; 80:2137-41). We demonstrate here that insulin receptor kinase activity is readily monitored while the receptor is absorbed onto insulin-agarose, using [gamma-32]ATP and histone as substrate. Phosphorylation of histone and the receptor beta-subunit on tyrosine residues is dependent on time, temperature, and Mn2+ in this system. The immobilized insulin receptor kinase is activated by prior phosphorylation with ATP, indicating that the autophosphorylation plays an important role in regulating receptor kinase activity. That the insulin receptor tyrosine kinase activity may be involved in initiating the mechanism of insulin action is currently an attractive hypothesis. A second working model of insulin action proposes that one or more soluble factors are released into the cell in response to insulin as suggested by studies using muscle and fat cell extracts.(ABSTRACT TRUNCATED AT 250 WORDS)
Diabetes Care
PMID:Cellular signaling by the insulin receptor. 637 32

The role of skeletal muscle insulin receptor kinase in the pathogenesis of non-insulin-dependent diabetes mellitus (NIDDM) was investigated. Muscle biopsies from 13 patients with NIDDM and 10 control subjects at fasting serum insulin concentrations and approximately 1,000 pmol/l steady-state serum insulin during euglycemic hyperinsulinemic clamps were immediately frozen. The biopsies were then solubilized, and the receptors were immobilized to anti-insulin receptor antibody-coated microwells. Receptor kinase and binding activities were consecutively measured in these wells. The increase in serum insulin concentration (73 +/- 14 to 1,004 +/- 83 and 45 +/- 7 to 1,07 +/- 77 pmol/l in the NIDDM and control groups, respectively) had similar effects on receptor kinase activity in both study groups (12 +/- 1 to 42 +/- 5 and 12 +/- 2 to 47 +/- 5 amol P.fmol binding activity-1. min-1 in the NIDDM and control groups, respectively). Moreover, by selecting only the receptors that bound to anti-phosphotyrosine antibody, we found similar hyperinsulinemia-induced increases of this receptor fraction and its kinase activity in both study groups. In vitro activation of the immobilized receptors with 2 mmol/l ATP and insulin further increased their kinase activity to almost similar levels, independently of whether they had been previously stimulated in vivo or were from diabetic or nondiabetic subjects. Compared with this activity reached in vitro, the kinase activity obtained by in vivo stimulation at the clamp insulin concentration was only approximately 12%, because most receptors remained inactive and only a few reached almost the in vitro activation level.(ABSTRACT TRUNCATED AT 250 WORDS)
Diabetes 1995 Nov
PMID:Elevation of serum insulin concentration during euglycemic hyperinsulinemic clamp studies leads to similar activation of insulin receptor kinase in skeletal muscle of subjects with and without NIDDM. 758 29

Congenital muscle fiber type disproportion myopathy (CFTDM) is a chronic, nonprogressive muscle disorder characterized by universal muscle hypotrophy and growth retardation. Histomorphometric examination of muscle shows a preponderance of smaller than normal type 1 fibers and overall fiber size heterogeneity. Concomitant endocrine dysfunctions have not been described. We report the findings of altered insulin secretion and insulin action in two brothers affected with CFTDM and glucose intolerance as well as in their nonconsanguineous glucose-tolerant parents. Results are compared with those of six normoglycemic control subjects. All study participants underwent an oral glucose tolerance test to estimate insulin secretion. The oldest boy and his parents volunteered for studies of whole-body insulin sensitivity consisting of a 4-h euglycemic hyperinsulinemic clamp in combination with indirect calorimetry. Insulin receptor function and glycogen synthase (GS) activity and expression were examined in biopsies of vastus lateralis muscle. Despite a 45-90-fold increase in both fasting and postprandial serum insulin levels, both CFTDM patients had diabetes mellitus. Clamp studies revealed that the oldest boy had severe insulin resistance of both liver and peripheral tissues. The impaired insulin-stimulated glucose disposal to peripheral tissues was primarily due to reduced nonoxidative glucose metabolism. These changes were paralleled by reduced basal values of muscle GS total activity, allosterical activation of GS by glucose-6-phosphate, GS protein, and GS mRNA. The father expressed a lesser degree of insulin resistance, and studies of muscle insulin receptor function showed a severe impairment of receptor kinase activity. In conclusion, CFTDM is a novel form of severe hyperinsulinemia and insulin resistance. Whether insulin resistance is causally related to the muscle disorder awaits to be clarified.
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PMID:Severe insulin-resistant diabetes mellitus in patients with congenital muscle fiber type disproportion myopathy. 770

Most patients with non-insulin-dependent diabetes mellitus are resistant to both endogenous and exogenous insulin. Insulin resistance precedes the onset of this disease, suggesting that it may be an initial abnormality. Insulin-receptor kinase activity is impaired in muscle, fibroblasts and other tissues of many patients with non-insulin-dependent diabetes mellitus, but abnormalities in the insulin-receptor gene do not appear to be the cause of this decreased kinase activity. Skin fibroblasts from certain insulin-resistant patients contain an inhibitor of insulin-receptor tyrosine kinase. Here we show that this inhibitor is a membrane glycoprotein, termed PC-1 (refs 10, 11). We find that PC-1 activity is increased in fibroblasts from seven of nine patients with typical non-insulin-dependent diabetes mellitus. In addition, overexpression of PC-1 in transfected cultured cells reduces insulin-stimulated tyrosine kinase activity. These studies raise the possibility that PC-1 has a role in the insulin resistance of non-insulin-dependent diabetes mellitus.
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PMID:Membrane glycoprotein PC-1 and insulin resistance in non-insulin-dependent diabetes mellitus. 783 Jul 88

The insulin receptor was evaluated at different disease stages in the sand rat (Psammomys obesus), a model for nutrition-induced diabetes. Nondiabetic sand rats showed markedly low receptor number in liver compared with albino rats. Their receptor had an intact tyrosine kinase activity but a higher Km for ATP in the phosphorylation reaction of exogenous substrates. The initial effects of overeating (i.e., development of hyperinsulinemia without hyperglycemia) were associated in the sand rat with a dramatic decrease in in vitro and in vivo insulin-induced receptor tyrosine kinase activity in both liver and muscle. In muscle, this coincided with a decrease in receptor number and an increase in basal tyrosine kinase activity. Similar changes were observed upon development of hyperinsulinemia with hyperglycemia. Upon recovery from the diabetic state by diet restriction, the impaired receptor kinase activation was corrected. Complete restoration occurred only in animals that fully recovered from the diabetic state and became normoinsulinemic. These observations indicate that loss and gain of receptor tyrosine kinase activity were dependent on insulin levels. Thus, overeating may lead to the development of hyperinsulinemia through ineffective extraction of excess insulin by the scarce liver receptors. Hyperinsulinemia, in turn, causes a reversible reduction in receptor kinase activity, leading to insulin resistance. This sequence of events may be relevant to diet-related changes in human non-insulin-dependent diabetes mellitus.
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PMID:Hyperinsulinemia induces a reversible impairment in insulin receptor function leading to diabetes in the sand rat model of non-insulin-dependent diabetes mellitus. 812 94

A sensitive microtiter well-based assay for the measurement of insulin activation of insulin receptor kinase in intact human circulating mononuclear cells has been developed and characterized. Mononuclear cells from 100-150 ml blood were incubated with various insulin concentrations to activate the receptor kinase. The cells were then solubilized in the presence of phosphatase and kinase inhibitors and the receptors immobilized to microwells coated with anti-insulin receptor antibody (efficiency of receptor immobilization > 85%). Receptor kinase activity and binding activity were then consecutively measured in the same wells. Insulin incubation of the cells increased the kinase activity three- to fourfold with a half-maximal effect at 5 nM and a maximal effect at 87 nM. In mononuclear cells from 16 subjects with NIDDM, the insulin effect on receptor kinase activation was significantly reduced compared with 16 nondiabetic control subjects (0.135 +/- 0.016 vs. 0.195 +/- 0.024 fmol P.fmol binding activity-1 x min-1, respectively; P < 0.05). We conclude that; 1) it is possible to determine insulin activation of receptor kinase in intact cells in this easily accessible human tissue; 2) insulin activation of insulin receptor kinase is impaired in intact mononuclear cells from patients with NIDDM; and 3) the finding that kinase activation in NIDDM is reduced in a tissue that, according to the literature, contains only the A isoform of the insulin receptor, suggests that mechanisms other than a different abundance of the A and B insulin receptor isoforms must exist that contribute to the decreased kinase activity in NIDDM.
Diabetes 1993 Jun
PMID:A microtiter well assay system to measure insulin activation of insulin receptor kinase in intact human mononuclear cells. Decreased insulin effect in cells from patients with NIDDM. 838 42

Reduced insulin receptor tyrosine kinase activity and internalization have been reported in non-insulin-dependent diabetes mellitus (NIDDM) patients. To clarify whether in NIDDM the defective internalization is caused by the defective kinase activity, we studied receptor tyrosine kinase activity and internalization in monocytes from eight lean control and six obese subjects and 10 obese NIDDM patients. Receptor internalization was also stimulated by an anti-insulin receptor antibody (MA-10) that is unable to stimulate receptor kinase activity. Basal exogenous tyrosine kinase activity was not different in monocytes from the three groups of subjects. As compared with control subjects (2,690 +/- 637 fmol 32P incorporated), insulin (100 nmol/L)-stimulated tyrosine kinase activity was lower in NIDDM patients (1,262 +/- 318, P < .05), but not in obese subjects (2,640 +/- 731). Basal receptor autophosphorylation did not differ between the three groups, whereas insulin-stimulated autophosphorylation in comparison to that in control subjects was reduced in NIDDM patients (P < .05), but not in obese subjects. In NIDDM patients, receptor internalization induced by both insulin and MA-10, was lower (P < .05) than that in control and obese subjects. No correlation was found between receptor internalization and exogenous tyrosine kinase activity (r = .30, NS) or autophosphorylation (r = .08, NS).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Relationship between insulin receptor tyrosine kinase activity and internalization in monocytes of non-insulin-dependent diabetes mellitus patients. 839 56

Insulin elicits an array of biologic responses. Insulin exerts a regulatory role in almost all cells of the body and is the primary hormone responsible for signaling the storage and utilization of basic nutrients. On the molecular level, the actions of insulin are initiated by binding of insulin to the insulin receptor. Interaction of the alpha and beta subunits of the receptor results in tyrosine kinase activity, which is integral to the initiation of cascades of phosphorylation/dephosphorylation reactions that mediate a large number of the actions of insulin. Insulin-receptor substrate 1 may be central to phosphorylation reactions through a role in serine and threonine kinase activity. Insulin action may also involve the generation of low-molecular-weight mediators capable of modulating intracellular enzymes. The regulation of glucose transport is a primary feature of the physiologic role of insulin and is performed by a family of glucose-transporter proteins with different characteristics. One mechanism by which insulin exerts its effect on glucose transport is the stimulation of the translocation of the glucose transporter to the plasma membrane. Degradation of insulin occurs through diverse mechanisms at numerous sites in the body. Reversal of the insulin signal at the cellular level may be accomplished by a class of enzymes termed phosphotyrosine phosphatases, which may play a role in certain pathophysiologic states. Important roles for insulin-receptor kinase, glucose transporters, insulin-receptor substrate 1, and various intracellular enzymes in the actions of insulin have been demonstrated; nonetheless, the formulation of potential therapeutic strategies directed at particular stages of the insulin action cascade will require further elucidation of its components.
J Diabetes Complications
PMID:Molecular determinants of insulin action. 851 61

The insulin resistance of skeletal muscle plays an important role in the pathogenesis of the metabolic endocrine syndrome and diabetes mellitus Type II. Impairment of the signal transmission from the insulin receptor to glycogen synthase and the glucose transport system was shown in insulin resistant subjects. A reduced receptor activation contributes also to insulin resistance. We investigated the mechanisms of modulation of receptor function in isolated cell systems which are transfected with human insulin receptor. Action of TNF alpha and acute hyperglycaemic effects were studied in particular. Acute hyperglycaemia gives rise, in the isolated cell system, to inhibition of the tyrosine kinase activity of the insulin receptor within a few minutes. This inhibitory effect seems to be mediated by translocation and activation of various isoforms of protein kinase C. Activation of protein kinase C probably leads to phosphorylation of the beta-subunit of the insulin receptor at serine residues. The domains of the insulin receptor, which are responsible for the inhibitory effect of hyperglycaemia do not seem to be localized either in the C terminus or in the juxtamembranary region of the insulin receptor. The hyperglycaemic effect can be antagonized in the isolated cell system both by protein kinase C inhibitors and so-called insulin sensitizers such as thiazolidindiones. Similar inhibitory effects, as induced by hyperglycaemia, can also be mediated by administration of the cytokine TNF alpha. As TNF alpha is probably increasingly expressed in obesity, the modulation of receptor kinase activity by TNF alpha could be an important factor for insulin resistance in obesity.
Diabetes Res Clin Pract 1995 Aug
PMID:Pathogenesis of insulin resistance: modulation of the insulin signal at receptor level. 852 11


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