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)

Selective impairment of glucose-induced insulin secretion and hyper-responsiveness to arginine are known features of GK rats, a genetic model of NIDDM. We focus on the ionic mechanism underlying these phenomena using patch-clamp techniques. Pancreatic islets were isolated from male GK rats and age-matched control Wistar rats and were subjected to dispersion and culture. Single channel recordings of KATP channels were performed using either on-cell mode or inside-out patch mode. Ca2+ channel currents were recorded under conventional whole-cell mode. In GK beta cells, ATP sensitivity of KATP channels itself was not altered, although glucose-induced closure of KATP channels was severely impaired. Among substrates for fuel metabolism, only dehydroxyacetone (DHA) reproduced this anomaly. On the other hand, current densities of L-type Ca2+ channels were increased in GK beta cells. Since DHA is a known substrate for glycerol phosphate shuttle, current data suggest that major metabolic deficit of GK beta cells resides in this shuttle. On the other hand, increased L-type Ca2+ channel activities might be an ionic basis for augmented insulin response to nonglucose depolarizing stimuli in GK beta cells.
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PMID:Altered functions of ion channels in diabetic beta cells. 865 42

The enzyme activity of the mitochondrial glycerol phosphate dehydrogenase (mGPD) in the pancreatic islet has been reported to be less than one-half of normal in the Goto-Kakizaki (GK) rat, a genetic model of NIDDM. In the current study, mGPD enzyme activity and the amount of mGPD protein, as judged by Western analysis, were 35-40% of normal in the islets of these animals. With the exception of pyruvate carboxylase, the activities of other enzymes were not abnormal. The assayable activity and amount of pyruvate carboxylase protein were decreased approximately 50% in the islets of the GK rats. Because mGPD, which is the key enzyme of the glycerol phosphate shuttle, and pyruvate carboxylase, which is the key component of the pyruvate malate shuttle, have been proposed to be essential for stimulus-secretion coupling in the pancreatic beta-cell, an important question is whether the decreases in these enzymes have a causal role in the hyperglycemia or whether the diabetic syndrome caused the decreases. To attempt to differentiate between these two possibilities, GK rats were treated with insulin to normalize their blood sugars. The activities of both mGPD and pyruvate carboxylase were also normalized by insulin treatment. An incidental discovery of this study was the identification of a high level of propionyl-CoA carboxylase activity and a lesser amount of methylcrotonyl-CoA carboxylase activity in pancreatic islets. These enzymes were normal in the islets of the GK rats. This is the first report on the presence of these two carboxylases in the islet and of low pyruvate carboxylase activity in the islet in NIDDM. We conclude that the decreased mGPD and pyruvate carboxylase in the pancreatic islet of the GK rat result from the diabetic syndrome.
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PMID:Normalization by insulin treatment of low mitochondrial glycerol phosphate dehydrogenase and pyruvate carboxylase in pancreatic islets of the GK rat. 866 38

We have previously shown that the mRNA expression of muscle glycogen synthase is decreased in non-insulin-dependent diabetic (NIDDM) patients; the objective of the present protocol was to examine whether the gene expression of muscle glycogen synthase in NIDDM is affected by chronic sulphonylurea treatment. Ten obese patients with NIDDM were studied before and after 8 weeks of treatment with a weight-maintaining diet in combination with the sulphonylurea gliclazide. Gliclazide treatment was associated with significant reductions in HbA1C (p=0.001) and fasting plasma glucose (p=0.005) as well as enhanced beta-cell responses to an oral glucose load. During euglycaemic, hyperinsulinaemic clamp (2 mU x kg-1 x min-1) in combination with indirect calorimetry, a 35% (p=0.005) increase in whole-body insulin-stimulated glucose disposal rate, predominantly due to an increased non-oxidative glucose metabolism (p=0.02) was demonstrated in teh gliclazide-treated patients when compared to pre-treatment values. In biopsies obtained from vastus lateralis muscle during insulin infusion, the half-maximal activation of glycogen synthase was achieved at a significantly lower concentration of the allosteric activator glucose 6-phosphate (p=0.01). However, despite significant increases in both insulin-stimulated non-oxidative glucose metabolism and muscle glycogen synthase activation in gliclazide-treated patients no changes were found in levels of glycogen synthase mRNA or immunoreactive protein in muscle. In conclusion, improved blood glucose control in gliclazide-treated obese NIDDM patients has no impact on the gene expression of muscle glycogen synthase.
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PMID:Unchanged gene expression of glycogen synthase in muscle from patients with NIDDM following sulphonylurea-induced improvement of glycaemic control. 869 Jan 77

The glycerol phosphate shuttle consists of FAD-linked mitochondrial glycerol 3-phosphate dehydrogenase (mGPDH) and its cytosolic NAD-linked isoform (cGPDH). Impaired mGPDH activity has recently been suggested to be one of the primary causes of insulin secretory defects in beta-cells. We found that mGPDH and cGPDH activities in MIN6 cells are comparable to those of isolated islets and higher than those in HIT cells by eightfold and threefold, respectively. Therefore, we selected the MIN6 cell line as a beta-cell model with normally regulated insulin secretion and normal shuttle enzyme activities and the HIT cell line as a beta-cell model with impaired insulin secretion and lower activities of these enzymes. The role of these dehydrogenases in glucose-stimulated insulin secretion was addressed by examining the effects of overexpression of mGPDH and/or cGPDH via recombinant adenoviruses in these cells. Infection with recombinant adenovirus with a cDNA encoding the Escherichia coli beta-galactosidase gene resulted in expression of its gene in 90% of MIN6 and HIT cells. Infection with a recombinant adenovirus with mGPDH cDNA (Adex1CAmGPDH) caused 2.1-fold and 5.7-fold increases in dehydrogenase activity as compared with those of control MIN6 and HIT cells, respectively. Infection with a recombinant adenovirus with cGPDH cDNA (Adex1CAcGPDH) caused a more than 50-fold increase in activity in both cell lines. Glycerol phosphate shuttle flux, as estimated by [2-3H]glycerol conversion to [3H]H2O, was increased to 120-130% by infection with Adex1CAmGPDH, but not with Adex1CAcGPDH infection, in both MIN6 and HIT cells. No further increase in flux through the glycerol phosphate shuttle was detected when the cells were infected with Adex1CAmGPDH together with Adex1CAcGPDH. Furthermore, neither [U-14C]glucose oxidation nor the insulin secretory response to glucose was affected in either cell line. Thus, mGPDH abundance in MIN6 and HIT cells is not directly related to their insulin secretory capacity in response to glucose, and reduced expression of mGPDH is not the primary cause of abnormal insulin secretory responses in HIT cells. The present data indicate that the emerging hypothesis pointing to mGPDH deficiency as a possible cause of NIDDM needs to be carefully evaluated.
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PMID:Effect of mitochondrial and/or cytosolic glycerol 3-phosphate dehydrogenase overexpression on glucose-stimulated insulin secretion from MIN6 and HIT cells. 877 29

Myophosphorylase deficiency [McArdle's disease (MD)] produces a defect in muscle glycogenolysis in which muscular work is limited by delivery of external sources of substrate, primarily glucose and nonesterified fatty acids, to meet energy demands associated with exercise. In the present study, we evaluated an unusual patient with both MD and non-insulin-dependent diabetes mellitus. We hypothesized that insulin resistance would limit transport of extracellular glucose to skeletal muscle during exercise, resulting in impaired exercise performance that was reversible by insulin infusion. The effect of a hyperinsulinemic "euglycemic" clamp on exercise tolerance was evaluated by in vivo 31P-magnetic resonance spectroscopy as well as total work performed. We observed that insulin infusion significantly increased the rate of systemic glucose utilization (P < 0.01) and also significantly decreased the ratio of inorganic phosphate to phosphocreatine (P < 0.001) during forearm exercise compared with the control study. Insulin clamp was also associated with an increase in total work performed (56%) during exercise. Our findings demonstrate that resistance to the biological actions of insulin, as occurs in type II diabetes mellitus, leads to a defect in glucose transport that limits the availability of extracellular glucose to exercising muscle. In our subject with a substrate-limited skeletal muscle metabolism (MD), reversal of this defect in insulin-dependent glucose transport by a hyperinsulinemic euglycemic clamp was associated with significant improvement in magnetic resonance spectroscopy parameters of skeletal muscle metabolism as well as exercise performance.
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PMID:Insulin resistance limits glucose utilization and exercise tolerance in myophosphorylase deficiency and NIDDM. 888 63

Insulin resistance of skeletal muscle glucose uptake is a prominent feature of Type II diabetes (NIDDM); therefore, pharmacological intervention should aim to improve insulin sensitivity. Previous studies have shown that Actovegin, a hemodialysate of calf blood, which has been used for treatment of circulatory disorders for many years, improves glucose tolerance in NIDDM without affecting insulin levels; in vitro studies found an improvement of insulin-stimulated glucose uptake in adipocytes. This pilot study was initiated to see whether this compound augments insulin sensitivity after repeated treatment. Ten patients with NIDDM received the hemodialysate (Actovegin 2.000 pro infusions, 500 ml as daily infusions) over a period of 10 days. A hyperinsulinaemic, isoglycaemic glucose-clamp was done on day 0 and day 11; oral glucose tolerance test (oGTT) was done on day -4 and day 12. Parenteral administration of the hemodialysate markedly augmented insulin stimulated glucose disposal (glucose infusion rate and metabolic clearance rate) by more than 80% (p < 0.003 day 11 vs. day 0). Although tested 44 h after the last infusion, oGTT also improved significantly, as documented by the diminished area under the curve (AUC) for glucose, whereas the AUC for insulin remained unchanged. This is the first clinical study to show that parenteral administration of the tested hemodialysate results in a significant increase of insulin-stimulated glucose disposal in NIDDM. The exact mode of action of the hemodialysate in improving insulin sensitivity is currently not known. The hemodialysate possibly acts via a supplementation of inositol-phosphate-oligosaccharides (IPO), as in experimental studies IPOs isolated from the hemodialysate improved glucose uptake in adipocytes in an insulin-independent manner. Further studies are needed to elucidate the underlying mechanisms.
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PMID:Improvement of glucose metabolism in patients with type II diabetes after treatment with a hemodialysate. 890 Nov 47

Patients with poorly controlled noninsulin dependent diabetes mellitus (NIDDM) are shown to have higher bone mass. However, the influence of changes in glycemic control on bone turnover is not known. To clarify whether metabolic improvement of poorly controlled NIDDM affects bone turnover, markers for glucose, mineral, and bone metabolism were assessed before and after glycemic control for 3 weeks in 78 poorly controlled NIDDM patients with initial hemoglobin A1c over 8%. Metabolic improvement caused a reduction in urinary calcium (Ca) and phosphate (Pi) and serum 1,25(OH)2D levels, and an increase in serum Pi without changes in serum Ca or parathyroid hormone levels. Bone resorption markers, urinary deoxypyridinoline (Dpd) and type I collagen carboxy-terminal telopeptide (CTx), as well as a bone formation marker, serum bone type alkaline phosphatase (BALP), were reduced. However, another bone formation marker, serum osteocalcin (OC), was low before treatment and was elevated after treatment. The decrease in Dpd, CTx and BALP, but not the increase in OC, correlated with each other and with the improvement in glycemic indices. In conclusion, metabolic improvement of poorly controlled NIDDM decreases bone turnover within a short period. Thus, glycemic control may protect NIDDM patients from bone loss. It is possible that serum OC is affected by hyperglycemia per se, and may not correctly reflect bone turnover.
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PMID:Metabolic improvement of poorly controlled noninsulin-dependent diabetes mellitus decreases bone turnover. 928 19

The granulocytes from elderly patients were investigated, in previous studies, with FMLP and it was found that the postreceptor signal, the inositol phosphate production and inositol phosphate dependent calcium signal were markedly reduced. It was observed that the 125I LDL binding was slightly reduced while the intracellular degradation of the LDL and endogenous cholesterol synthesis inhibitory effect was significantly decreased on monocytes of patients with non insulin dependent diabetes mellitus. It was suggested that of in patients suffering from NIDDM with hypercholesterolemia the LDL receptor numbers of monocytes are close to normal, while the post receptor signal transmission is damaged. In this study the monocytes from 12 patients with hypercholesterolemia were investigated before and after LDL treatment and were compared to the 11 age-matched healthy volunteer control patients. The cells were stimulated with LDL and chemotactic peptide FMLP. The postreceptor signal mechanism in monocytes was investigated. According to the results the inositol phosphate level of the patient group decreased independently from the stimulus. The LDL induced IP3 and Ca2+ level elevation was PT resistant both in the control and in the patients group.
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PMID:[Biologic effect of LDL binding and intracellular degradation in monocytes from patients with hypercholesterolemia]. 934 May 72

The regulation of glycogen synthase (GS) and glycogen phosphorylase (GP) activity by phosphorylation/ dephosphorylation has been proposed to be via changes in activities of several different protein (serine/threonine) phosphatases and kinases, including protein phosphatase (PP) 1/2A, PP2C, and cAMP-dependent protein kinase (PKA). In order to determine whether PP1/2A, PP2C, and/or PKA activities are related to GS and/or GP activities, these enzymes were measured in freeze-clamped liver biopsies obtained under basal fasting conditions from 16 obese monkeys. Four monkeys were normoglycemic and normoinsulinemic, five were hyperinsulinemic, and seven had type 2 diabetes (NIDDM). Liver glycogen and glucose 6-phosphate (G6P) contents were also determine. Basal enzyme activities and basal substrate concentrations were not significantly different between the three group of obese monkeys; however, there were several significant linear relationships observed when the monkeys were treated as one group. Therefore, multiple regression was used to determine the correlation between key variables. GS fractional activity was correlated to GP fractional activity (p < 0.05) and to PP2C activity (p = 0.005) (adjusted R2, 53%). GP independent activity was correlated to GS independent activity (p < 0.07) and to PKA fractional activity (p = 0.005) (adjusted R2, 64%). PP2C activity was correlated to GS fractional activity (p < 0.0005) and to PP1/2A activity (p < 0.0001) (adjusted R2, 83%). PKA fractional activity was correlated to GP total activity (p < 0.0005) and to age (p = 0.001) (adjusted R2, 82%). G6P content was correlated to glycogen content (p < 0.05) and to PP2C activity (p = 0.0005) (adjusted R2, 73%). In conclusion, PP2C and PKA are involved in the regulation of GS and GP activity in the basal state in liver of obese monkeys with a wide range of glucose tolerance.
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PMID:Relationship of glycogen synthase and glycogen phosphorylase to protein phosphatase 2C and cAMP-dependent protein kinase in liver of obese rhesus monkeys. 944 47

Reduced ability or failure to stimulate cyclic adenosinemonophosphate (AMP) synthesis on a second addition of hormone 30 min after a first stimulation was taken as an indirect indication of the synthesis of the cyclic AMP antagonist prostaglandylinositol cyclic phosphate (cyclic PIP). In diabetic rats, because of an increased possibility of restimulating cyclic AMP synthesis, the formation of cyclic PIP should be reduced. Additionally, severalfold increased basal cyclic AMP synthesis can be observed in diabetic hepatocytes in comparison with controls. Upon measuring cyclic PIP levels after hormonal stimulation in all organs of diabetic rats, it was found that stimulation of cyclic PIP synthesis by insulin decreased gradually in a time-dependent manner. Plasma membranes were prepared from diabetic Ksj db/db mice and from spontaneously hypertensive rats (SHR), and in a subsequent assay for cyclic PIP synthetase, an up to 60% decrease of enzyme activity was found. Cyclic PIP synthetase can be completely inhibited by preincubation with protein kinase A. It is most likely that this serine phosphorylation reaction by which the enzyme is inhibited also in vivo is a result of increased cyclic AMP levels. The addition of 10(-5)-10(-4) M sulfonylureas to the enzyme assay of liver plasma membrane causes full inhibition, and the addition of 10(-5)-10(-4) M biguanides, a two- to fourfold activation of the enzyme. Activation of cyclic PIP synthetase by biguanides can also be demonstrated in intact cells. It is a fast reaction and additive with respect to the activation by fluoride or guanylyl-imidodiphosphate (GMP-PNP), and it is most likely the effect with which the biguanides produce the correcting changes in metabolism. Furthermore, antihypertensive drugs like captopril, guanethidine, and dihydralazine also activate cyclic PIP synthetase. In contrast to the activation by the biguanides, this effect is not additive to the activation by fluoride. It appears that essential hypertension and type 2 diabetes are connected with or may be the result of a reduction in synthesis of the intracellular messenger cyclic PIP, whose synthesis is stimulated by hormones like insulin and noradrenaline (alpha-adrenergic action).
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PMID:Insulin resistance, a result of reduced synthesis of prostaglandylinositol cyclic phosphate, a mediator of insulin action? Regulation of cyclic PIP synthetase activity by oral antidiabetic and antihypertensive drugs. 945 69


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