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)

Insulin resistance is central to the pathophysiology of type 2 diabetes. It has been known for some time that down-regulation and reduced kinase activity of the insulin receptor play a role in insulin resistance; however, it has recently emerged that defects in the intracellular responses to insulin are also very important. We studied the molecular basis of insulin resistance in mice in which injection with gold thioglucose led to the development of hyperphagia, obesity and insulin resistance over a 4-month period. We found that the insulin-stimulated activation of MAP kinase was defective in obese, insulin-resistant mice. Similarly, we investigated insulin-stimulated PI3-kinase activation in the isolated soleus muscle of lean and obese mice, and found a marked reduction in the PI3-kinase activation of obese animals. The magnitude of the effect was greater than the reduction in insulin receptor activation, suggesting that impairment of PI3-kinase activation is a very important element in the development of insulin resistance in obese mice. In keeping with this, we found that the defect in PI3-kinase activation developed in young obese mice before the emergence of overt insulin resistance. We investigated different mechanisms by which defects in the components of the insulin signalling cascade could emerge, including down-regulation and abnormal phosphorylation of signal molecules. In adipocytes from young obese mice in which insulin resistance had not yet developed, we found that there were already marked defects in IRS-1 tyrosine phosphorylation. Increased IRS-1 phosphorylation on serine and threonine residues affects tyrosine phosphorylation. Such a process could contribute to the defective IRS-1 tyrosine phosphorylation in insulin-resistant animals. We found that brief exposure of 3T3-L1 adipocytes to platelet-derived growth factor led to IRS-1 serine/threonine phosphorylation through a PI3-kinase-dependent pathway, and that this prevented phosphorylation of the tyrosine residues of IRS-1. Such a mechanism, induced by growth factors, TNF-alpha or some other agent, may play an important role in the development of insulin resistance in obese mice.
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PMID:Molecular mechanisms of insulin action in normal and insulin-resistant states. 1032 50

NeuroD/BETA2, a transcription factor of the insulin gene, also plays an important role in the development of pancreatic beta-cells. Recently, the NeuroD/BETA2 gene has been mapped to the long arm of human chromosome 2 (2q32) where the IDDM7 gene has previously been mapped, implying its involvement in diabetes. To identify mutations in the NeuroD/BETA2 gene that may predispose patients to develop diabetes, we studied the gene in 50 Japanese subjects with diabetes (4 with type 1 and 46 with type 2) by the polymerase chain reaction (PCR) followed by single-strand conformation polymorphism and sequencing analyses. Further analysis was performed in 392 Japanese subjects (60 with type 1 and 158 with type 2 diabetes and 174 healthy control subjects) by mismatch PCR restriction fragment length polymorphism. We found a DNA polymorphism of the NeuroD/BETA2 gene. A nucleotide G-to-A transition results in the substitution of alanine to threonine at codon 45 (Ala45Thr). The frequencies of heterozygotes for the Ala45Thr variant were 9.8% in the control subjects, 9.5% in the patients with type 2 diabetes, and 25.0% in the patients with type 1 diabetes, a significant difference (P = 0.006). Because the variant of the NeuroD/BETA2 gene (Ala45Thr) is associated with type 1 but not type 2 diabetes, it may be implicated in the loss of pancreatic beta-cells in type 1 diabetes.
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PMID:Association of polymorphism in the NeuroD/BETA2 gene with type 1 diabetes in the Japanese. 1033 23

The cellular mechanisms for the insulin resistance of pregnancy and gestational diabetes mellitus (GDM) are unknown. The membrane protein plasma cell membrane glycoprotein-1 (PC-1) has been identified as an inhibitor of insulin receptor tyrosine kinase (IRTK) activity. We investigated insulin receptor function and PC-1 levels in muscle from three groups of obese subjects: women with GDM, pregnant women with normal glucose tolerance, and nonpregnant control subjects. Subjects (n = 6 for each group) were similar in age and degree of obesity (body fat >30%). IRTK activity, insulin receptor tyrosine phosphorylation, and protein levels of membrane glycoprotein PC-1 were determined in rectus abdominus muscle biopsies obtained at the time of either elective cesarean section or gynecological surgery. No significant differences were evident in basal insulin receptor tyrosine phosphorylation or IRTK activity in the three groups. After maximal insulin (10(-7) mol/l) stimulation, IRTK activity measured with the artificial substrate poly(Glu,Tyr) increased in all subjects but was lower in women with GDM by 25% (P < 0.05) and 39% (P < 0.001) compared with pregnant and nonpregnant control subjects, respectively. Similarly, insulin receptor tyrosine phosphorylation was significantly decreased in subjects with GDM (P < 0.05) compared with pregnant and nonpregnant control subjects. Treatment of the insulin receptors with alkaline phosphatase to dephosphorylate serine/threonine residues increased insulin-stimulated IRTK activity significantly in pregnant control and GDM subjects (P < 0.05), but these rates were still lower compared with nonpregnant control subjects (P < 0.05). PC-1 content in muscle from GDM subjects was increased by 63% compared with pregnant control subjects (P < 0.05) and by 206% compared with nonpregnant control subjects (P < 0.001). PC-1 content was negatively correlated with insulin receptor phosphorylation (r = -0.55, P < 0.05) and IRTK activity (r = -0.66, P < 0.05). These results indicate that pregnant control and GDM subjects had increased PC-1 content and suggest excessive phosphorylation of serine/threonine residues in muscle insulin receptors and that both may contribute to decreased IRTK activity. These changes worsen in women with GDM when controlling for obesity. These postreceptor defects in insulin signaling may contribute to the pathogenesis of GDM and the increased risk for type 2 diabetes later in life.
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PMID:Decreased insulin receptor tyrosine kinase activity and plasma cell membrane glycoprotein-1 overexpression in skeletal muscle from obese women with gestational diabetes mellitus (GDM): evidence for increased serine/threonine phosphorylation in pregnancy and GDM. 1087 Nov 98

Reduced size at birth has been proposed to be a risk factor for insulin resistance and type 2 diabetes. It is, however, not known whether this association is explained by unfavorable intrauterine environment or by specific susceptibility genotypes predisposing for both reduced fetal growth and insulin resistance and type 2 diabetes. The present study was performed to evaluate whether previously identified amino acid polymorphisms of genes that from animal models have been suggested to play important roles during fetal development are associated with alterations in size at birth. The study population comprised 380 subjects randomly recruited from a population of young Danish Caucasian individuals, aged 18-32 yr. The original data of birth length and weight for 331 of 380 subjects were obtained from the midwife records. The Gly/Arg972 of insulin receptor substrate-1 (IRS-1), the Thr/Ile130 of the hepatocyte nuclear factor-4alpha (HNF-4alpha), the Pro/Ala75 of HNF-6, and the Ile/Leu27, Ala/Val93, and Ser/Asn4s7 polymorphisms of the HNF-lalpha gene were examined for association with birth weight and length and the ponderal index. Using a generalized linear model, including gender and the genotype as fixed variables, and applying Bonferroni correction for multiple testing, we could not demonstrate any significant differences in these estimates among wild-type, heterozygous, and homozygous carriers with respect to any of the gene variants. In conclusion, common variability in the genes encoding the IRS-1, HNF-lalpha, HNF-4alpha, and HNF-6 proteins can be excluded as major factors influencing size at birth among Danish Caucasian subjects.
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PMID:Variability of the insulin receptor substrate-1, hepatocyte nuclear factor-1alpha (HNF-1alpha), HNF-4alpha, and HNF-6 genes and size at birth in a population-based sample of young Danish subjects. 1094 9

Patients with type 2 diabetes are frequently dyslipidemic or hypertriglyceridemic. To assess whether increased intestinal triglyceride input leads to elevated fasting and postprandial triglycerides in type 2 diabetes, we used the codon 54 polymorphism of the fatty acid-binding protein 2 gene, which results in the substitution of threonine (Thr) for alanine and is associated with increased intestinal input of triglyceride. Of the 287 diabetic patients screened, 108 (37.6%) were heterozygous and 31 (10.8%) were homozygous for the Thr-54 allele. Mean (+/-SEM) fasting plasma triglyceride levels in patients with the wild-type (n = 80), those heterozygous for the Thr-54 allele (n = 57), and those homozygous for it (n = 18) were 2.0 +/- 0.09, 2.7 +/- 0.20, and 3.8 +/- 0.43 mmol/L, respectively. A linear relationship of mean fasting plasma triglyceride levels (r2 = 0.97) between the 3 groups was found. After fat ingestion, the postprandial area under the curve of plasma triglyceride (P = 0.025) and chylomicrons (Sf > 400, P = 0.013) was higher in the Thr-54/Thr-54 (n = 6) than in the wild-type (n = 9). Our results are consistent with the hypothesis that, in type 2 diabetes, increased intestinal input of triglyceride can lead to elevated fasting and postprandial plasma triglycerides.
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PMID:Codon-54 polymorphism of the fatty acid-binding protein 2 gene is associated with elevation of fasting and postprandial triglyceride in type 2 diabetes. 1099 2

We investigated the presence and the function of hepatocyte nuclear factor-1alpha (HNF-1alpha) mutations in 26 Japanese subjects with type 2 diabetes. The subjects were between 20 and 39 years of age on diagnosis and had diabetic first-degree relatives. Two different frameshift mutations were found in 2 subjects (8 %). One novel mutation, T539fsdelC (deletion of C in codon 539 for Thr), is predicted to generate a protein of normal 539 residues at the N-terminus followed by an abnormal 119 amino acid protein. The mutation, P291fsinsC (insertion of C in codon 291 for Pro) should lead to production of a truncated protein of 315 amino acids. Transfection reporter assay using MIN6 and HepG2 cells revealed both mutations to have null function in the transactivation of reporter gene expression. When transfected with wild-type gene, these mutations behaved as dominant-negative regulators in both cells. An equimolar amount of T539fsdelC reduced wild-type activity by approximately 80% in MIN6 cells, while the same concentration of P291fsinsc reduced it by 30%. The sequences responsible for the transactivation activity of HNF-1alpha are confined largely to amino acids 547-628, so that the T539fsdelC mutation, which affects this entire region, replacing amino acids 540-631 with an abnormal 119 amino acid protein, may acquire a potent dominant-negative function.
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PMID:A novel dominant-negative mutation of the hepatocyte nuclear factor-1alpha gene in Japanese early-onset type 2 diabetes. 1101 87

Several studies have demonstrated an association of CTLA4 (IDDM12) alanine-17 with type 1 diabetes, but CTLA4 variants have not yet been investigated in type 2 diabetes. The CTLA4 exon 1 polymorphism (49 A/G) was analyzed in 300 Caucasian patients with type 2 diabetes and 466 healthy controls. All patients were negative for glutamate decarboxylase and islet cell antibodies. CTLA4 alleles were defined by PCR, single-strand conformational polymorphism, and restriction length fragment polymorphism analysis using BBV:I. The distribution of alleles as well as the genotypic and phenotypic frequencies were similar among patients and controls [AA, 42 vs. 39%; AG, 47 vs. 46%; GG, 11 vs. 15%, P = not significant (n.s.); A/G, 65/35% vs. 62/38%, P = n.s.; alanine/threonine 92/58% vs. 85/61%, P = n.s.]. However, detailed analysis of clinical and biochemical parameters revealed a tendency of GG (alanine/alanine) toward younger age at disease manifestation (46.8 +/- 0.8 vs. 49.5 +/- 0.8 yr, mean +/- SEM), lower body mass index (21.4 +/- 0.5 vs. 24.4 +/- 0.5 kg/m(2), P = 0.042), and basal C-peptide level (0.33 +/- 0.07 vs. 0.53 +/- 0.07nmol/L), as well as earlier start of insulin treatment (5.8 +/- 1.2 vs. 8.7 +/- 0.6 yr) and higher portion of patients on insulin (71 vs. 61%). Patients with the AA genotype were significantly less likely to develop microangiopathic lesions (P < 0.0005). No differences were found for hypertension or family history of type 2 diabetes. In conclusion, CTLA4 alanine-17 does not represent a major risk factor for type 2 diabetes. Additional studies on larger groups and different ethnic groups are warranted to clarify the association of the GG genotype with faster ss-cell failure and the lower rate of microvascular complications in AA carriers.
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PMID:The codon 17 polymorphism of the CTLA4 gene in type 2 diabetes mellitus. 1115 25

In recent years, a number of cross-talk systems have been identified which feed into the insulin signalling cascade at the level of insulin receptor substrate (IRS) tyrosine phosphorylation, e.g., receptor and non-receptor tyrosine kinases and G-protein-coupled receptors. At the molecular level, a number of negative modulator and feedback systems somehow interacting with the beta-subunit (catecholamine-, phorbolester-, or tumor necrosis factor-alpha-induced serine/threonine phosphorylation, carboxy-terminal trimming by a thiol-dependent protease, association of inhibitory/regulatory proteins such as RAD, PC1, PED, alpha2-HS-glycoprotein) have been identified as candidate mechanisms for the impairment of insulin receptor function by elevations in the activity and/or amount of the corresponding modification enzymes/inhibitors. Both decreased responsiveness and sensitivity of the insulin receptor beta-subunit for insulin-induced tyrosine autophosphorylation have been demonstrated in several cellular and animal models of metabolic insulin resistance as well as in the adipose tissue and skeletal muscle of diabetic patients and obese Pima Indians compared to non-obese subjects. Therefore, induction of the insulin signalling cascade by bypassing the defective insulin receptor kinase may be useful for the therapy of non-insulin dependent diabetes mellitus. During the past two decades, phosphoinositolglycans (PIGs) of various origin have been demonstrated to exert potent insulin-mimetic metabolic effects upon incubation with cultured or isolated muscle and adipose cells. However, it remained to be elucidated whether these compounds actually manage to trigger insulin signalling and if so at which level of hierarchy within the signalling cascade the site of interference is located. Recent studies using isolated rat adipocytes and chemically synthesized PIG compounds point to IRS1/3 tyrosine phosphorylation by p59Lyn kinase as the site of cross-talk, the negative regulation of which by interaction with caveolin is apparently abrogated by PIG. This putative mechanism is thus compatible with the recently formulated caveolin signalling hypothesis, the supporting data for which are reviewed here. Though we have not obtained experimental evidence for the involvement of PIG in physiological insulin action, the potential cross-talk between insulin and PIG signalling, including the caveolae/detergent-insoluble glycolipid-enriched rafts as the compartments where the corresponding signalling components are concentrated, thus represent novel targets for signal transduction therapy.
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PMID:Signalling via caveolin: involvement in the cross-talk between phosphoinositolglycans and insulin. 1121 27

Electrophoretic variants of the vitamin D-binding protein (DBP) have been reported to be associated with type 2 diabetes mellitus (DM) or with prediabetic phenotypes in several non-Caucasian populations. Two frequent missense polymorphisms at codons 416 (Asp --> Glu) and 420 (Thr --> Lys) are the genetic basis for the 3 common electrophoretic variants of DBP (Gc1F, Gc1S, and Gc2) and the resulting circulating phenotypes (Gc1F/Gc1F, Gc1F/Gc1S, Gc1S/Gc1S, Gc1F/Gc2, Gc1S/Gc2, and Gc2/Gc2). In this study, we investigated the association of these polymorphisms with type 2 DM in French Caucasian subjects. Variations at codons 416 and 420 were examined by polymerase chain reaction-restriction fragment length polymorphism (PCR-RFLP). Allele frequencies at both codons did not differ in type 2 DM patients and in control subjects (Asp416: 42.4% v 46.2%, respectively, P =.33; Lys420: 25.5% v 29.0%, respectively, P =.31). Distribution of genotypes at both codons, of the haplotypes defined by the 2 codons, and of the DBP phenotypes defined by the haplotypes were also similar in diabetic and control subjects. In conclusion, our study suggests that genetic variants of the DBP gene are not associated with the susceptibility to type 2 DM in French Caucasians.
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PMID:Variations in the vitamin D-binding protein (Gc locus) and risk of type 2 diabetes mellitus in French Caucasians. 1123 Jul 93

The pleiotropic actions of insulin are mediated by a single receptor tyrosine kinase. Structure/function relationships of the insulin receptor have been conclusively established, and the early steps of insulin signaling are known in some detail. A generally accepted paradigm is that insulin receptors, acting through insulin receptor substrates, stimulate the lipid kinase activity of phosphatidylinositol 3-kinase. The rapid rise in Tris-phosphorylated inositol (PIP(3)) that ensues triggers a cascade of PIP(3)-dependent serine/threonine kinases. Among the latter, Akt (a product of the akt protooncogene) and atypical protein kinase C isoforms are thought to be involved in insulin regulation of glucose transport and oxidation; glycogen, lipid, and protein synthesis; and modulation of gene expression. The presence of multiple insulin-regulated, PIP(3)-dependent kinases is consistent with the possibility that different pathways are required to regulate different biological actions of insulin. Additional work remains to be performed to understand the distal components of insulin signaling. Moreover, there exists substantial evidence for insulin receptor substrate- and/or phosphatidylinositol 3-kinase-independent pathways of insulin action. The ultimate goal of these investigations is to provide clues to the pathogenesis and treatment of the insulin resistant state that is characteristic of type 2 diabetes.
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PMID:Clinical review 125: The insulin receptor and its cellular targets. 1123 71


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