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

A genetic analysis of diabetic and non-diabetic Punjabi Sikhs (n = 164) was made for markers of non-insulin-dependent diabetes mellitus using insulin receptor, insulin, and HLA-D alpha chain gene probes. Additionally British Caucasoids (n = 163) were studied using the insulin receptor probe. Insulin receptor gene restriction fragment length polymorphisms were defined using Southern blot techniques and the restriction enzyme Bgl II and BAm Hl. In Punjabi Sikhs and British Caucasoids neither of the restriction fragment length polymorphisms distinguished non-insulin-dependent diabetes mellitus subjects from controls. In the Sikhs no association with non-insulin-dependent diabetes mellitus was seen with the hypervariable region of the insulin gene or with HLA-DR/DQ/DX alpha chain restriction fragment length polymorphisms. We therefore conclude that despite the high prevalence of non-insulin-dependent diabetes mellitus in Asians we were unable to find any genetic markers for this disease using the available cloned gene probes.
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PMID:A genetic analysis of type 2 (non-insulin-dependent) diabetes mellitus in Punjabi Sikhs and British Caucasoid patients. 289 7

Insulin receptor associated kinase activity and its relationships with the insulin resistance of streptozotocin-induced diabetes were investigated in rats, using solubilized, partially purified insulin receptors from liver membranes. Insulin receptor kinase activity was measured by means of both autophosphorylation and phosphorylation of the exogenous substrate Glu4:Tyr1. Diabetes was associated with a 45% reduction in kinase activity, in the same number of insulin receptors, with no change in insulin binding affinity. To investigate the independent roles of hyperglycemia and hypoinsulinemia on the observed impairment of receptor kinase activity, diabetic rats were fasted for 24 h in order to normalize blood glucose levels only. After this short fast, no change in kinase activity, from the values measured in fed diabetic animals, was observed. Our findings suggest that streptozotocin diabetes is associated with a reduction of insulin receptor kinase activity, which a short fast is not able to reverse.
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PMID:Insulin receptor autophosphorylation and kinase activity in streptozotocin diabetic rats. Effect of a short fast. 302 36

We recently reported that insulin inhibits basal and cortisone- and T3-stimulated GH secretion by GH3 rat pituitary tumor cells. The effects of purified semisynthetic human insulin were therefore tested on long-term GH secretion in normal pituitary cells. Primary monolayer cultures derived from male rat pituitaries were grown in serum-free defined medium. Insulin (7 nM) maximally inhibited basal GH secretion by almost 60% after 72 h, with 50% of maximal GH suppression occurring with 1.75 nM insulin. Insulin receptor antiserum blocked the suppression of GH by 7 nM insulin, but had no effect on the suppression of GH by IGF-I (3.25 nM). GRF (100 pM) stimulated GH two- to threefold during 48 h. Insulin (7 nM) prevented the stimulation of GH induced by up to 1 nM GRF (P less than 0.01) and this suppression was also selectively blocked by insulin receptor antiserum. The inhibition of GRF-stimulated GH required a lag period of 48 h and the dose of insulin required for 50% inhibition of GRF stimulation was 3.5 nM. Insulin did not alter the degradation rate of 125I-GH in these cultures and medium glucose concentrations were not different in control or insulin-treated wells for up to 72 h of incubation. The insulin-induced suppression of GH was also observed when cells were grown in glucose-free medium. Insulin did not nonselectively suppress cell secretion, as PRL secretion was mildly stimulated (P less than 0.01) by insulin in the same cultures. Fibroblast growth factor, epidermal growth factor, and insulin A-chain at similar doses did not alter basal or GRF-stimulated GH secretion.(ABSTRACT TRUNCATED AT 250 WORDS)
Diabetes 1986 Apr
PMID:Effects of insulin on rat anterior pituitary cells. Inhibition of growth hormone secretion and mRNA levels. 308

The possibility of linkage between the human insulin receptor gene locus and diabetes was examined in three Type 2 (non-insulin-dependent) diabetic families and one family with maturity onset diabetes of the young. Insulin receptor gene haplotypes were established using BglII, Rsal and Sstl restriction enzyme digests of genomic DNA from all available family members. The digested DNA was subjected to agarose gel electrophoresis, Southern blotted, and hybridised to 32P-labelled human insulin receptor gene cDNA. In the pedigree with maturity onset diabetes of the young, formal linkage analysis allowed exclusion of close linkage between the insulin receptor locus and diabetes (logarithm of the odds for linkage versus non-linkage was -5.35 at recombination fraction of 0.01). This confirms the absence of linkage between insulin receptor and diabetes which has been reported in two similar pedigrees. In the three Type 2 diabetic families there were a minimum of 4 recombinants between the insulin receptor locus and diabetes, which makes a direct role for insulin receptor defects unlikely. The importance of using realistic estimates of penetrance when performing linkage analysis in a disease with a late age of onset is emphasised. In contrast to the one previous linkage analysis study of the insulin receptor gene, no specific association of diabetes with the rare Sst1 S1(-) allele was observed in either the maturity onset diabetes of the young or the Type 2 diabetic families.
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PMID:Linkage analysis of the human insulin receptor gene in type 2 (non-insulin-dependent) diabetic families and a family with maturity onset diabetes of the young. 323 33

We have studied the effects of two polyclonal anti-insulin receptor antibodies (AIRA) on insulin receptor downregulation and turnover in rat hepatocytes in primary culture. Downregulation was determined by measurement of insulin binding after acid washing of cells to remove AIRA. Insulin receptor turnover was estimated by measurement of insulin binding after inhibition of synthesis of functional receptors with tunicamycin (0.5 micrograms/ml). Exposure of hepatocytes to AIRA (both sera were of comparable effectiveness) resulted in progressive, time- and dose-dependent losses of insulin binding (maximal loss was about 55% after 24 h of incubation with AIRA diluted 1:25). Cycloheximide (100 microM) prevented AIRA-mediated downregulation. The t1/2 of disappearance of cell surface insulin binding capacity determined with tunicamycin was 8.0 h. Addition of insulin (1000 ng/ml) or AIRA to tunicamycin reduced the t1/2 to 2.6 h (insulin), 2.2 h (patient B10), and 2.0 h (patient 1). These data suggest that AIRA downregulated insulin receptors on cultured hepatocytes by accelerating their rate of disappearance, inhibition of protein synthesis prevented AIRA-mediated downregulation, and downregulation by AIRA of insulin binding may be partially responsible for the desensitization of target cells to some of the insulin-like actions of these autoantibodies.
Diabetes 1986 Jan
PMID:Effects of anti-insulin receptor antibodies (AIRA) on downregulation and turnover of insulin receptors on cultured hepatocytes. 351 Jan 36

The relative effects of obesity alone, and in combination with fasting hyperinsulinemia and glucose intolerance, on the peripheral action of insulin in adipose tissue were investigated in twenty-four 60-yr-old men, who had been followed for 10 yr. They were divided into four groups of six subjects each on the basis of the following criteria: (1) normal body weight, normal fasting insulin level, and normal glucose tolerance; (2) moderate obesity, normal fasting insulin level, and normal glucose tolerance; (3) moderate obesity, fasting hyperinsulinemia, and normal glucose tolerance; and (4) moderate obesity, fasting hyperinsulinemia, and newly developed, moderate, untreated fasting hyperglycemia and/or glucose intolerance (i.e., mild type II diabetes mellitus). Specific adipocyte insulin binding and the effects of the hormone on adipose tissue lipolysis and glucose oxidation were determined. Insulin receptor binding per cell and per cell surface area were similar in all four groups. Regarding antilipolysis, the insulin sensitivity was the same in all groups and the maximum effect was significantly increased in the three obese groups, as compared with the normal-weight control group. In groups 1-3, insulin stimulated adipose tissue glucose oxidation in a dose-dependent way, and the sensitivity and responsiveness to insulin were comparable. In contrast, in the obese glucose-intolerant subjects (4) there was no significant effect of insulin on glucose oxidation when the hormone was added in increasing concentrations of less than or equal to 35 nmol/L. The basal glucose oxidation was similar in all four study groups. The in vivo insulin tolerance was gradually reduced in groups 2-4, as compared with the normal-weight control group.(ABSTRACT TRUNCATED AT 250 WORDS)
Diabetes 1986 Mar
PMID:Effects of obesity, hyperinsulinemia, and glucose intolerance on insulin action in adipose tissue of sixty-year-old men. 351 39

We studied the metabolic effects of 2-wk fructose feeding as the sweetener in the diet of seven non-insulin-dependent diabetic individuals. The data demonstrated reduced postprandial hyperglycemia to an oral glucose challenge after 14 days without a significant difference in insulin response. There was no change in the markedly blunted glucose response to a fructose challenge but a significantly lower insulin response (area under the 3-h curve) was observed after 14 days of fructose feeding. There was reduced postprandial hyperglycemia after 14 days of fructose feeding with test meals as compared with baseline, without significant differences in insulin response. We also found no significant difference in free fatty acids, cholesterol, high-density lipoprotein (HDL) cholesterol, pyruvate, lactate, or uric acid after fructose feedings. There was a 13% increase in triglyceride levels after 14 days in 5 subjects with initial fasting hypertriglyceridemia (greater than 150 mg/dl). Insulin receptor binding to isolated adipocytes did not change after 14 days of fructose feeding.
Diabetes Care
PMID:Metabolic consequence of two-week fructose feeding in diabetic subjects. 351 5

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

The initial step in insulin action is binding to specific receptors. Two covalent receptor modifications possibly involved in producing pharmacodynamic effects as a result of insulin receptor binding are autophosphorylation and disulphide insulin binding. Insulin receptor numbers are 'down regulated' by insulin, but this effect may be minimised by pulsatile insulin secretion. Insulin receptor affinity is modulated rapidly by fasting, exercise and dietary composition. In non-insulin-dependent diabetes coupling of receptor binding to bioeffects is impaired. Binding is also reduced in those subjects with hyperinsulinaemia and non-insulin-dependent diabetes. Insulin-dependent diabetics have reduced insulin sensitivity, which is only partially reversed by conventional insulin therapy. 'Post-binding defects' in some diabetics could be related to defective covalent receptor modifications resulting from genetic receptor defects. High carbohydrate diets improve diabetes control through effects on the binding and coupling defects. In addition to stimulating insulin secretion, oral hypoglycaemics stimulate post-binding insulin action in vivo and in vitro. Insulin therapy in diabetes also tends to reverse post-binding defects. Pulsatile insulin delivery is more effective in lowering blood sugar than continuous administration, and produces less 'down regulation' of receptors. Combined insulin and sulphonylurea drugs reduce insulin requirements only in insulin-dependent diabetics with some endogenous insulin secretion, whereas metformin reduces insulin requirement in C-peptide negative insulin-dependent diabetes mellitus.
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PMID:The insulin receptor concept and its relation to the treatment of diabetes. 355 93

In pregnancy, several physiologic changes take place, the sum of which tends to reset the glucose homeostasis in the direction of diabetes. About 1-2% of all pregnant women develop an abnormal glucose tolerance in pregnancy, but most often glucose tolerance returns to normal postpartum. This condition is called gestational diabetes mellitus (GDM). The possibility that glucose tolerance deteriorates in pregnancy because of diabetes-like changes in the secretory function of the endocrine pancreas has been investigated in healthy controls and in normal-weight gestational diabetic subjects. The insulin responses to oral glucose and mixed meals are equally large in these two groups, but the insulin response per unit of glycemic stimulus is significantly lower in the gestational diabetic subjects than in the controls. Diabetes-like changes in glucagon secretion are not observed in either group. Insulin degradation is unaffected by human pregnancy and the proinsulin share of the total plasma insulin immunoreactivity does not increase in pregnancy. Insulin receptor binding to monocytes from normal pregnant women is increased in midpregnancy but is significantly decreased in late pregnancy. No difference in insulin binding (at tracer insulin concentration) to monocytes from healthy pregnant controls and gestational diabetic subjects is found. The insulin concentration necessary to reduce tracer insulin binding by 50% (ID50) is lower in the gestational diabetic subjects diagnosed in late pregnancy than in the pregnant controls. Together, these findings indicate that the number of insulin receptors on monocytes is decreased in GDM at this stage of pregnancy.(ABSTRACT TRUNCATED AT 250 WORDS)
Diabetes 1985 Jun
PMID:Etiology and pathophysiology of gestational diabetes mellitus. 388 44


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