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)

We took advantage of the partial protection exerted by suitable dosages of nicotinamide against the beta-cytotoxic effect of streptozotocin (STZ) to create a new experimental diabetic syndrome in adult rats that appears closer to NIDDM than other available animal models with regard to insulin responsiveness to glucose and sulfonylureas. Among the various dosages of nicotinamide tested in 3-month-old Wistar rats (100-350 mg/kg body wt), the dosage of 230 mg/kg, given intraperitoneally 15 min before STZ administration (65 mg/kg i.v.) yielded a maximum of animals with moderate and stable nonfasting hyperglycemia (155 +/- 3 vs. 121 +/- 3 mg/dl in controls; P < 0.05) and 40% preservation of pancreatic insulin stores. We also evaluated beta-cell function both in vitro and in vivo 4-9 weeks after inducing diabetes. In the isolated perfused pancreas, insulin response to glucose elevation (5-11 mmol/l) was clearly present, although significantly reduced with respect to controls (P < 0.01). Moreover, the insulin response to tolbutamide (0.19 mmol/l) was similar to that observed in normal pancreases. Perfused pancreases from diabetic animals also exhibited a striking hypersensitivity to arginine infusion (7 mmol/l). In rats administered STZ plus nicotinamide, intravenous glucose tolerance tests revealed clear abnormalities in glucose tolerance and insulin responsiveness, which were interestingly reversed by tolbutamide administration (40 mg/kg i.v.). In conclusion, this novel NIDDM syndrome with reduced pancreatic insulin stores, which is similar to human NIDDM in that it has a significant response to glucose (although abnormal in kinetics) and preserved sensitivity to tolbutamide, may provide a particularly advantageous tool for pharmacological investigations of new insulinotropic agents.
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PMID:Experimental NIDDM: development of a new model in adult rats administered streptozotocin and nicotinamide. 951 17

Refractoriness of the pancreatic beta-cell to glucose stimulation plays a role in the secretory defect of NIDDM, but the mechanisms underlying this refractoriness are not clear. The purpose of this study was to determine whether the HIT-T15 pancreatic beta-cell line can be used as an investigative model for refractoriness of glucose-induced insulin secretion and, if so, whether the mechanism for this refractoriness involves alteration in stimulus-secretion coupling (desensitization) or results from exhaustion of insulin stores. In perifusion experiments, acute insulin responses (AIRs) in HIT-T15 cells progressively diminished during consecutive 5-min glucose (11.1 mmol/l) pulses (G) given every 20 min (G1=9.2+/-1.3, G2=4.1+/-1.0, G3=2.7+/-0.7, G4=2.5+/-1.1 microU/ml). To determine whether this refractoriness for glucose extended to the potentiating effects of glucose on nonglucose secretagogues, cells were challenged with arginine after desensitization with glucose. In HIT-T15 cells, the response to the arginine pulse (16.7+/-5.2 microU/ml) after three glucose pulses was significantly less (P < 0.01) than the response to a control arginine pulse (29.6+/-12.1 microU/ml) preceded by an infusion of buffer in the absence of glucose pulses. Variable rest periods after desensitization allowed recovery of the AIR in HIT-T15 cells; responses 30, 60, 90, and 120 min after the desensitization procedure increased in a stepwise fashion (3.8+/-2.7, 4.5+/-2.7, 7.8+/-5.2, and 9.7+/-5.3 microU/ml, respectively). To differentiate desensitization from exhaustion of insulin stores, studies were performed in the presence of epinephrine, a potent inhibitor of insulin secretion. In HIT-T15 cells, after three pulses of glucose during the epinephrine infusion, epinephrine was discontinued and the insulin response to a fourth pulse was assessed. The G4 AIR (1.9+/-0.6 microU/ml) was markedly less than a control G4 AIR (5.4+/-1.2 microU/ml) that followed an epinephrine infusion alone with no concurrent glucose pulses. Beta-cell refractoriness was also induced in the HIT-T15 cell using 45-min steady-state infusions of glucose. Cells were exposed to a 45-min infusion of either 3.7 or 11.1 mmol/l glucose, rested for 20 min in the absence of glucose, and then challenged with a 5-min, 11.1 mmol/l glucose pulse. In both cases, the AIR to the 5-min pulse (10.2+/-5.1 and 2.9+/-1.4 microU/ml after the 3.7 and 11.1 mmol/l infusion, respectively) was lower than the AIR to a control pulse (27.4+/-5.9 microU/ml) not preceded by glucose infusion. These studies demonstrated that the HIT-T15 cell line is an appropriate model for studying mechanisms of beta-cell refractoriness to glucose signaling. The short-term intensive glucose stimulation paradigms used in our studies induced an abnormality in insulin secretion that is consistent with desensitization but not beta-cell exhaustion.
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PMID:Differentiation between glucose-induced desensitization of insulin secretion and beta-cell exhaustion in the HIT-T15 cell line. 956 94

Mutations of the hepatocyte nuclear factor-1 alpha (HNF1 alpha) gene are an important cause of autosomal dominant diabetes with onset before age 25 yr [maturity-onset diabetes of the young (MODY)], and some regions of the HNF1 alpha gene appear to be hot spots for mutations. To evaluate the role of HNF1 alpha in the more common familial type 2 diabetes, we studied 62 families of Northern European origin by linkage analysis and molecular screening. Linkage was rejected under dominant models consistent with either late-onset type 2 diabetes or early-onset dominant diabetes. We used single strand conformation polymorphism analysis to screen 53 diabetic members of 36 families who reported diabetes diagnosed before age 40 yr, 9 members of 2 Utah families with typical MODY, and 24 additional members of families with possible linkage. One MODY family showed the previously reported frameshift mutation (P291fsinsC) in exon 4. Among the individuals with more typical type 2 diabetes, we identified the previously reported common polymorphisms, a new intronic polymorphism, and 3 common amino acid variants. We also identified 2 novel missense mutations that segregated with type 2 diabetes in 1 family each: lysine for glutamic acid substitution at codon 619 in exon 10 (E619K), and an arginine for threonine substitution at codon 537 in exon 8 (R537T) in a second family. The exon 8 mutation showed relatively low penetrance, and the role in this family remains uncertain. No coding mutations were identified in the family members screened on the basis of linkage but without early-onset diabetes. Although HNF1 alpha mutations are not a common cause of familial type 2 diabetes, they may account for 5% of families in which at least 1 member has onset of type 2 diabetes before age 40 yr. Incomplete penetrance and a high sporadic frequency make linkage an inefficient screening tool.
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PMID:Linkage and molecular scanning analyses of MODY3/hepatocyte nuclear factor-1 alpha gene in typical familial type 2 diabetes: evidence for novel mutations in exons 8 and 10. 962 39

Human serum paraoxonase (PON1) is located on high density lipoprotein and has been implicated in the detoxification of organophosphates and possibly in the prevention of low density lipoprotein lipid peroxidation. PON1 has two genetic polymorphisms both due to amino acid substitution, one involving glutamine (A genotype) and arginine (B genotype) at position 192 and the other leucine (L genotype) and methionine (M genotype) at position 55. We investigated the effect of these polymorphisms on serum PON1 activity and concentration in 252 non-insulin dependent diabetes mellitus (NIDDM) individuals and 282 non-diabetic controls. Serum PON1 activity in the controls (214.6 nmol/min per ml (26.3-620.8)) was significantly higher than in NIDDM (158.7 nmol/min per ml (3.6-550.5) (P < 0.001) as was serum PON1 concentration (89.1 microg/ml (16.8-527.4)) compared to 76.7 microg/ml (3.6-443.8) (P < 0.01). In the control population MM homozygotes had significantly lower serum PON1 activity regardless of the 192 polymorphism whereas in NIDDM both LM and MM genotypes had lower serum PON1 activity than LL homozygotes only when the 192 AA genotype was present. Serum PON1 concentration was lower in NIDDM with AA/LM, AA/LL, AB/LL and AB/MM genotypes than in controls. Differences in PON1 activity were the major cause of differences in specific activity between genotypes. Neither the PON1 55 or 192 polymorphisms consistently influenced the serum lipid or lipoprotein concentrations in either population. Low serum PON1 activity in NIDDM may be related to an increased tendency to lipid peroxidation and may also increase susceptibility to toxicity from organophosphate exposure. Our findings thus raise the possibility that PON1 may be of importance in both the genetic and acquired predisposition to premature atherosclerosis and neuropathy in diabetes.
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PMID:Serum paraoxonase (PON1) 55 and 192 polymorphism and paraoxonase activity and concentration in non-insulin dependent diabetes mellitus. 971 41

We have proposed that a hyperstimulated insulin secretion causing beta-cell degranulation is the basis for the impaired glucose-potentiated insulin secretion in type 2 diabetes ("overworked beta-cell"). To confirm this idea, we previously investigated tolbutamide-infused euglycemic rats. Two novel kinds of beta-cell dysfunction were observed: altered phasic glucose-potentiated insulin secretion with preferential sparing of the first phase and a raised secreted ratio of amylin to insulin. The current study tested these parameters in 90% (intact beta-cell insulin stores) and 95% (markedly lowered insulin stores) pancreatectomized (Px) diabetic rats. Rats underwent pancreas perfusion 5-6 wk postsurgery. Controls showed nonchanging insulin secretion during a 20-min perfusion of 16.7 mM glucose + 10 mM arginine. In contrast, both Px groups showed an altered phasic pattern, with the first phase being supernormal (for the beta-cell mass) but the second phase reduced in tandem with the insulin content. Amylin secretion from control and 90% Px rats paralleled the insulin output, so that the amylin-to-insulin ratio averaged 0. 12 +/- 0.03% in the controls and 0.16 +/- 0.01% in the 90% Px rats over the two secretory phases. In contrast, the amylin-to-insulin ratio in 95% Px rats equaled that of controls during the first phase (0.12 +/- 0.1%) but was twice normal during the second phase (0.32 +/- 0.4%). These results confirm the validity of the overworked beta-cell schema by showing identical beta-cell functional defects in Px rats and tolbutamide-infused normoglycemic rats.
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PMID:Impaired phasic insulin and amylin secretion in diabetic rats. 972 12

Systemic inhibition of nitric oxide synthase (NOS) with NG-monomethyl-L-arginine (L-NMMA) causes acute insulin resistance (IR), but the mechanism is unknown. We tested whether L-NMMA-induced IR occurs via NOS blockade in the central nervous system (CNS). Six groups of Sprague-Dawley rats were studied after chronic implantation of an intracerebroventricular (ICV) catheter into the lateral ventricle and catheters into the carotid artery and jugular vein. Animals were studied after overnight food deprivation, awake, unrestrained, and unstressed; all ICV infusion of L-NMMA or D-NMMA (control) were performed with artificial cerebrospinal fluid. ICV administration of L-NMMA resulted in a 30% rise in the basal glucose level after 2 h, while ICV D-NMMA had no effect on glucose levels. Insulin, epinephrine, and norepinephrine levels were unchanged from baseline in both groups. Tracer (3H-3-glucose)-determined glucose disposal rates during 2 h euglycemic hyperinsulinemic (300 microU/ml) clamps performed after ICV administration of L-NMMA were reduced by 22% compared with D-NMMA. Insulin secretory responses to a hyperglycemic clamp and to a superimposed arginine bolus were reduced by 28% in L-NMMA-infused rats compared with D-NMMA. In conclusion, ICV administration of L-NMMA causes hyperglycemia via the induction of defects in insulin secretion and insulin action, thus recapitulating abnormalities observed in type 2 diabetes. The data suggest the novel concept that central NOS-dependent pathways may control peripheral insulin action and secretion. This control is not likely to be mediated via adrenergic mechanisms and could occur via nonadrenergic, noncholinergic nitrergic neural and/or endocrine pathways. These data support previously published data suggesting that CNS mechanisms may be involved in the pathogenesis of some forms of insulin resistance and type 2 diabetes independent of adiposity.
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PMID:Central nervous system nitric oxide synthase activity regulates insulin secretion and insulin action. 976 33

One form of maturity-onset diabetes of the young, Type 3 (MODY3), results from mutations in the gene coding for hepatocyte nuclear factor-1alpha (HNF-1alpha), a transcription factor first described in the liver. MODY3 is characterized by a defective glucose-stimulated insulin secretion. Earlier observations of glycosuria with normal blood glucose levels in some MODY families suggest an additional renal manifestation of the respective genetic defect. We measured the renal threshold for glucose in five diabetic carriers of a missense mutation (Arg 272 His) in HNF-1alpha and, for comparison, in eight Type 1 diabetic patients, applying a non-invasive protocol of frequent parallel blood and urine sampling during a slow shift in blood glucose levels. We found that the mean renal threshold for glucose was lowered in the HNF-1alpha diabetic patients compared to those with Type 1 diabetes (6.5 +/- 0.9 mmol l(-1) vs 10.7 +/- 0.5 mmol l(-1); p < 0.01). This lowered glucose threshold might be an indication of an extra-pancreatic effect of HNF-1alpha gene mutations in humans. Defects in HNF-1alpha may lead to an altered tubular glucose reabsorption, possibly due to decreased expression of the renal glucose transporter proteins involved in reabsorption of glucose from the urine.
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PMID:A low renal threshold for glucose in diabetic patients with a mutation in the hepatocyte nuclear factor-1alpha (HNF-1alpha) gene. 979 80

Aging is associated with an increased risk of type 2 diabetes. To determine whether the insulin resistance of aging is associated with an increase in amylin release or whether amylin release parallels the reduction in insulin release, we studied 10 older (72 +/- 2 yr) and 9 young (25 +/- 1 yr) subjects. Insulin sensitivity was quantified as the insulin sensitivity index (SI) and B cell function as the acute insulin and amylin responses to iv glucose (AIRg and AARg, respectively) and iv arginine at a glucose level of >25 mM (AIRmax and AARmax). To account for the effect of SI to modulate B cell function, we calculated SI x B cell function. Older subjects were insulin resistant (SI: 4.6 +/- 0.8 vs. 8.6 +/- 1.4 x 10(-5) min-1/pM, P < 0.05). Acute responses to glucose [AIRg (older vs. young): 420 +/- 106 vs. 537 +/- 87 pM; AARg: 6.5 +/- 1.7 vs. 9.0 +/- 1.5 pM] and arginine (AIRmax: 1,096 +/- 203 vs. 1,572 +/- 307 pM; AARmax: 14.0 +/- 3.5 vs. 16.5 +/- 2.4 pM) did not differ despite the difference in SI. When adjusted for SI, insulin responses were reduced in older subjects (SI x AIRg: 1.54 +/- 0.29 vs. 4.10 +/- 0. 63 x 10(-2) min-1, P = 0.001; SI x AIRmax: 4.03 +/- 0.52 vs. 12.7 +/- 2.9 x 10(-2) min-1, P < 0.01), as was amylin release (SI x AARg: 2.46 +/- 0.59 vs. 6.85 +/- 0.95 x 10(-4) min-1, P < 0.001; SI x AARmax: 4.71 +/- 0.52 vs. 13.5 +/- 2.2 x 10(-4) min-1, P < 0.001). Amylin and insulin release was proportionate, with a molar ratio of 1.5% in older and 1.4% in young subjects. Thus aging is associated with parallel impairments in the adaptation of insulin and amylin release to insulin resistance. It is unlikely that an alteration in amylin release contributes to the increased risk of type 2 diabetes.
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PMID:Human aging is associated with parallel reductions in insulin and amylin release. 981 97

Endothelial dysfunction in non-insulin dependent (Type 2) diabetes mellitus (NIDDM) has implications for the pathogenesis of the two major complications, macrovascular disease and microangiopathy. Endothelial dysfunction is a consequence of a disturbance in the L-arginine/nitric oxide pathway. Its occurrence in NIDDM is well supported by both in vitro and in vivo studies. NIDDM results in diverse abnormalities in lipoprotein metabolism, the most significant being hypertriglyceridaemia which is associated with increased plasma concentrations of small dense LDL and low levels of HDL. Dysglycaemia results in hyperoxidative stress and increased formation of advanced-glycosylation endproducts, both of which enhance the oxidative modification of lipoprotein particles. Based on extensive in vitro studies and on human data, we generate the hypothesis that the development of endothelial dysfunction in NIDDM is a consequence of the effect of dyslipoproteinaemia, in particular increased circulatory concentrations of modified small dense LDL and of hyperoxidative stress on the formation, action and disposal of nitric oxide, by diverse molecular mechanisms; HDL is proposed to have a protective effect on these processes through its enzymic antioxidant properties. The hypothesis proposed is simple, testable and consistent with wide sources of evidence. The practical implications of the hypothesis and the existing opportunities for the prevention and reversal of endothelial dysfunction in NIDDM are also reviewed and discussed.
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PMID:Dyslipoproteinaemia and hyperoxidative stress in the pathogenesis of endothelial dysfunction in non-insulin dependent diabetes mellitus: an hypothesis. 986 35

Paraoxonase is an HDL-associated enzyme implicated in the pathogenesis of atherosclerosis by protecting lipoproteins against peroxidation. Its biallelic gene polymorphism at codon 192 (glutamine/arginine) has been associated with coronary artery disease (CAD). To further evaluate the role of this paraoxonase gene polymorphism for CAD in type 2 diabetes, we determined the paraoxonase genotype in 288 type 2 diabetic patients (170 with and 118 without angiographically documented CAD). The paraoxonase 192 Gln/Arg genotype was assessed using polymerase chain reaction followed by AlwI digestion. The frequency of the Gln allele was 0.656 in the CAD patients and 0.746 in the controls (chi2 = 5.36, P = 0.02). Compared with the Gln/Gln genotypes, the age-adjusted odds ratio for CAD was 1.78 (95% CI 1.08-2.96, P = 0.02) in subjects carrying at least one Arg allele. In the multivariate analysis, this association was even stronger after correction for the possible confounders age, sex, smoking history, and hypertension. Among current and former smokers, the odds ratio (OR) for having CAD among patients with at least one Arg allele was 3.58 (1.45-9.53, P < 0.01). The paraoxonase Arg allele was not associated with the history of myocardial infarction (OR 1.20 [0.73-1.99, NS]), but was with the extent of CAD (OR for three-vessel disease 1.92 [1.15-3.27, P = 0.01]). Our data indicate that the 192 Arg allele of the human paraoxonase gene is a risk factor for CAD but not myocardial infarction in type 2 diabetic patients, a risk factor further modified by cigarette smoking. This risk could possibly be explained by a reduced ability of the paraoxonase Arg isoform to protect lipoproteins against peroxidation.
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PMID:Paraoxonase 192 Gln/Arg gene polymorphism, coronary artery disease, and myocardial infarction in type 2 diabetes. 1007 66


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