Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0011860 (type 2 diabetes)
57,723 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

DNA variation related to the insulin receptor gene was studied with the restriction endonucleases Sst 1 and Bgl II. These identified 4 alleles, termed S1 (5.3 kilobases), S2 (5.8 kilobases), B1 (23.4 kilobases) and B2 (20.0 kilobases). Random association between these two insulin receptor polymorphisms was found in all of the study groups. The frequencies of genotypes possessing the S2 allele in Caucasian controls (n = 54), race matched non-insulin dependent diabetics (n = 56) and insulin dependent diabetics (n = 34) were 0.06, 0.18 and 0.04 respectively (p less than 0.01 for NIDDM versus IDDM or controls by chi-squared test). There were no significant differences in frequencies of genotypes with the B1 or B2 alleles amongst these three groups. The S2 allele or adjacent loci may provide a useful genetic marker for NIDDM.
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PMID:Genetic variants of the insulin receptor in type II (non-insulin dependent) diabetes mellitus. 290 93

Sera and their IgG from 10/104 diabetic patients (five with insulin-dependent and five with noninsulin-dependent diabetes, NIDDM), contained antibodies that bound 125I-labeled purified human insulin receptors. 9 of these 10 sera failed to inhibit insulin binding (to rat hepatocytes and human placental membranes), did not stimulate glucose oxidation (by isolated rat adipocytes), and did not bind human placental IGF-1 receptors. Only one serum (and its IgG) modestly inhibited insulin binding and stimulated glucose oxidation. We conclude (a) that sera from 9/104 diabetics (five insulin-dependent and four noninsulin-dependent) contained a newly identified species of IgG antiinsulin receptor autoantibodies (AIRA), which bound to the insulin receptor at a locus different from the insulin binding site and did not inhibit insulin binding; and (b) that only 1/104 diabetic sera contained low-titer "conventional" antiinsulin receptor autoantibodies that bound to the insulin receptor at or near the insulin binding site, inhibited insulin binding and caused a clinical condition, which was difficult to distinguish from typical NIDDM.
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PMID:Nonbinding inhibitory antiinsulin receptor antibodies. A new type of autoantibodies in human diabetes. 296 69

We have studied the structure and function of the insulin receptors in obese patients with and without noninsulin dependent diabetes mellitus (NIDDM) and in nonobese controls using partially purified receptors from muscle biopsies. Insulin binding was decreased in obesity due to reduced number of binding sites but no differences were observed in insulin binding between obese subjects with or without NIDDM. The structural characteristics of the receptors, as determined by affinity labeling methods and electrophoretic mobility of the beta-subunit, were not altered in obese or NIDDM compared to normal weight subjects. Furthermore, the ability of insulin to stimulate the autophosphorylation of the beta-subunit and the phosphoamino acid composition of the phosphorylated receptor were the same in all groups. However, insulin receptor kinase activity was decreased in obesity using Glu4:Tyr1 as exogenous phosphoacceptor without any appreciable additional defect when obesity was associated with NIDDM. Thus, our data are supportive of the hypothesis that in muscle of obese humans, insulin resistance is partially due to decreased insulin receptors and insulin receptor kinase activity. In NIDDM the defect(s) in muscle is probably distal to the insulin receptor kinase.
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PMID:Insulin receptor kinase in human skeletal muscle from obese subjects with and without noninsulin dependent diabetes. 303 21

The hyperglycaemia of NIDDM is associated with insulin resistance due, in part, to reduced insulin receptor binding and more especially postreceptor defects. Metformin is an antihyperglycaemic agent which can be used to ameliorate insulin resistance. It appears to act directly on insulin target cells to enhance insulin action. Although metformin may increase insulin-receptor binding, its main effect appears to be directed at the postreceptor level of insulin action. Accordingly the drug potentiates insulin-suppression of hepatic gluconeogenesis and increases insulin-mediated peripheral glucose uptake and metabolism. It does not stimulate insulin release, does not cause weight gain and does not cause clinical hypoglycaemia. The risk of lactate accumulation should be appreciated in patients with renal insufficiency, liver dysfunction and following acute illness with hypoxia, when therapy should be stopped. Although metformin is often bracketed with phenformin in the context of lactic acidosis, different pharmacodynamics and adherence to prescribing guidelines render such a comparison unwarranted.
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PMID:Treatment--metformin. 307 2

Sera from 80 subjects with IDDM and NIDDM, together with sera from 20 patients with miscellaneous autoimmune conditions and 20 healthy adult subjects were tested for insulin receptor antibodies by (1) inhibition of 125I-insulin binding to EBV-transformed lymphoid cells, and by (2) immunoprecipitation of solubilized insulin receptors in the presence of an excess of mono-specific anti-human IgG or IgM; this test allowed the assessment of the class of antibody activity. Anti-insulin antibodies in the sera were also measured using a double antibody technique. Anti-insulin receptor antibodies were found in 13 of 33 subjects with IDDM and six of 47 with NIDDM. These were principally in the IgM class, and in both groups of diabetics there was a good correlation between % inhibition of insulin binding to intact cells, and % of antibody precipitated by IgM (P less than 0.001), but not by IgG (P greater than 0.1). There was also a good correlation between the % inhibition of insulin binding to intact cells and the daily dose of insulin used in treatment (P less than 0.001). Insulin antibodies were found in seven of 33 subjects with IDDM and six of 12 with NIDDM, all of whom were on insulin treatment. These six subjects were the only ones with NIDDM who also had anti-insulin receptor antibody activity, suggesting that such antibodies may represent auto-anti-idiotype activity. This study shows that autoimmunity in insulin dependent (Type I) diabetes is not limited to islet cells and that such patients also develop antibodies to the insulin receptor. While three out of five patients with relative insulin resistance (requirement greater than 90 u/day) also showed evidence of insulin receptor antibody activity, the clinical significance of these antibodies has yet to be determined.
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PMID:Insulin receptor antibodies in diabetes mellitus. 328 Jan 81

Insulin action at the target tissue level in non-insulin dependent diabetes mellitus was investigated using human adipose tissue. Specific adipocyte receptor binding of insulin and the effects of the hormone on glucose oxidation and lipolysis were determined in subcutaneous adipose tissue. The study included 25 patients with untreated non-insulin dependent diabetes mellitus and 38 healthy control subjects matched for age, sex and body weight. Insulin stimulated adipose tissue glucose oxidation in a dose-dependent way in the control subjects. On the other hand, a marked inhibition of this insulin effect was observed in the diabetics. A weak stimulation was observed only at high unphysiological hormone concentrations [greater than or equal to 0.7 nmol/l] and the maximal insulin response was 6 times lower than that in the control subjects. However, neither specific insulin receptor binding nor the antilipolytic effect of insulin were inhibited in diabetes. Similar results with insulin binding and the metabolic effects of insulin were obtained in non-obese normoinsulinemic diabetics as compared to moderately obese hyperinsulinemic diabetics. It is concluded that adipose tissue insulin resistance in non-insulin dependent diabetes mellitus only involves glucose metabolism and not antilipolysis. Furthermore, it may solely be due to postreceptor defects in insulin action and seems not to be influenced by obesity or oversecretion of insulin.
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PMID:Insulin receptor binding and metabolic effects of insulin in human subcutaneous adipose tissue in untreated non-insulin dependent diabetes mellitus. 329 83

Toxemia of pregnancy is a perplexing clinical problem that has defied accurate elucidation of its etiology because the disorder does not occur in undisturbed lower mammalian species that are currently used as animal models of reproductive physiology. We propose that toxemia of pregnancy occurs as the end stage human fetal-placental unit response to decreased maternal uterine blood flow, and that this fetal-placental unit response may be unique to the human species. The human fetus increases insulin secretion in response to progressive intrauterine asphyxia, which may result in decreased fetal-placental prostacyclin production (a vasodilator and inhibitor of platelet aggregation) and increased fetal-placental thromboxane A2 production (a vasoconstrictor). This could result in increased uteroplacental perfusion pressure, maternal hypertension, and increased maternal platelet aggregation. We also suggest that women who develop idiopathic toxemia of pregnancy are at increased risk for adult onset diabetes later on in life because they have a mild derangement in glucose-insulin homeostasis during their reproductive years that results in increased uterine vascular damage, that leads to decreased uterine blood flow, and ultimately the fetal hyperinsulinemia-prostaglandin pressor release mechanism. Therefore, prevention of toxemia may be possible by correction of mild derangements in glucose-insulin receptor homeostasis before conception occurs.
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PMID:Theory of the etiology of human toxemia of pregnancy: fetal hyperinsulinemia as a compensatory response to decreased uterine blood flow. 330 29

The insulin binding characteristics and the structural components of the insulin receptor were studied in the purified liver plasma membranes from seven patients with noninsulin-dependent diabetes (NIDDM) and seven control subjects. In comparison to the controls, diabetic subjects had a 65% reduction in plasma insulin levels in response to an oral glucose load. Specific insulin binding by liver membranes from diabetic patients was, however, twofold greater than the binding activity by membranes from control subjects. This alteration resulted largely from an increase in the number of insulin receptors and a modest increase in receptor binding affinity. Holo (nonreduced) receptor species of similar molecular weights were detected by an affinity labeling technique in the two membrane preparations and sulfhydryl reduction demonstrated an insulin binding subunit of 125,000 mol wt. Overall, these results show that the hepatic insulin resistance of NIDDM cannot be explained by a deficiency in insulin binding.
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PMID:Studies of the human liver insulin receptor in noninsulin-dependent diabetes mellitus. 351 68

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

Susceptibility to IDDM is linked to the HLA-D locus on the short arm of chromosome 6, a region believed to be involved in the process of communication between cells which determines immune responses. Presumably an HLA molecule encoded by this region, unable to present a particular antigenic pathogen to the immune system, is inherited. The HLA-DR locus is quite complex, however. The gene which codes for this defective molecule may be identified by a combination of use of monoclonal antibodies and cloned gene probes which specifically hybridize to various portions of this region. Investigators are searching for HLA-DR4 containing chromosomes in IDDM which show similar patterns of restriction enzyme polymorphism. Hopefully, complete structural analysis of these related sequences will provide information about the mechanisms which confer susceptibility to develop IDDM. A strong genetic component is involved in NIDDM evidenced by a high concordance in monozygotic twins. Nevertheless, there is much evidence of genetic heterogeneity. At the present time no clear cut genetic marker has been defined. The human insulin gene has been cloned and by Southern blot hybridization analysis of peripheral leukocyte DNA, the insulin gene locus is being evaluated as a possible contributor to the genetic defect. Population studies at the present time have not identified any particular polymorphic insulin allele associated with NIDDM. Population studies are complicated by heterogeneity of NIDDM, racial and ethnic differences, and heterogeneity of insulin alleles. Linkage analysis in family studies will provide an alternative approach to population studies to determine what role if any the insulin gene plays in the genetic component of this disease. Because NIDDM is heterogeneous and perhaps polygenic in nature, these linkage analyses in families with NIDDM can be extended to other genes when they are cloned such as that coding for the insulin receptor. The familial aggregation of diabetes has long been noted (see ref. 1 for review). In relatives of diabetics, the prevalence ranges from 10-30%, while it is variously estimated to be between 0.1-3% in the general population. But familial aggregation of a trait may be caused either by genetic or environmental factors. One approach to dissecting the contribution of these factors is the study of concordance in twins. Pyke and associates observed that overall identical twins always show a higher concordance rate than dizygotic twins, irrespective of their age of diagnosis. Furthermore, they noted that identical twins of younger onset are often discordant for diabetes while identical twins of older onset are usually concordant.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:The genetics of type I and type II diabetes: analysis by recombinant DNA methodology. 389 68


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