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 receptor substrate-2-deficient (IRS2(-/-)) mice develop type 2 diabetes. The purpose of this study was to determine whether there is a defect in basal, insulin-, and exercise-stimulated glucose transport in the skeletal muscle of these animals. IRS2(-/-) and wild-type (WT) mice (male, 8-10 weeks) exercised on a treadmill for 1 h or remained sedentary. 2-Deoxyglucose (2DG) uptake was measured in isolated soleus muscles incubated in vitro in the presence or absence of insulin. Resting blood glucose concentration in IRS2(-/-) mice (10.3 mM) was higher than WT animals (4.1 mM), but there was a wide range among the IRS2(-/-) mice (3-25 mM). Therefore, IRS2(-/-) mice were divided into two subgroups based on blood glucose concentrations (IRS2(-/-)L < 7.2 mM, IRS2(-/-)H > 7.2 mM). Only IRS2(-/-)H had lower basal, exercise-, and submaximally insulin-stimulated 2DG uptake, while maximal insulin-stimulated 2DG uptake was similar among the three groups. The ED(50) for insulin to stimulate 2DG uptake above basal in IRS2(-/-)H was higher than WT and IRS2(-/-)L mice, suggesting insulin resistance in the skeletal muscle from the IRS2(-/-) mice with high blood glucose concentrations. Furthermore, resting blood glucose concentrations from all groups were negatively correlated to submaximally insulin-stimulated 2DG uptake (r(2) = 0.33, p < 0.01). Muscle GLUT4 content was significantly lower in IRS2(-/-)H mice compared with WT and IRS2(-/-)L mice. These results demonstrate that the IRS2 protein in muscle is not necessary for insulin- or exercise-stimulated glucose transport, suggesting that the onset of diabetes in the IRS2(-/-) mice is not due to a defect in skeletal muscle glucose transport; hyperglycemia may cause insulin resistance in the muscle of IRS2(-/-) mice.
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PMID:Insulin receptor substrate-2 is not necessary for insulin- and exercise-stimulated glucose transport in skeletal muscle. 1040 18

Insulin regulates glucose homeostasis by binding and activating the insulin receptor, and defects in insulin responses (insulin resistance) induce type 2 diabetes. SH2-B, an Src homology 2 (SH2) and pleckstrin homology domain-containing adaptor protein, binds via its SH2 domain to insulin receptor in response to insulin; however, its physiological role remains unclear. Here we show that SH2-B was expressed in the liver, skeletal muscle, and fat. Systemic deletion of SH2-B impaired insulin receptor activation and signaling in the liver, skeletal muscle, and fat, including tyrosine phosphorylation of insulin receptor substrate 1 (IRS1) and IRS2 and activation of the phosphatidylinositol 3-kinase/Akt and the Erk1/2 pathways. Consequently, SH2-B-/- knockout mice developed age-dependent hyperinsulinemia, hyperglycemia, and glucose intolerance. Moreover, SH2-B directly enhanced autophosphorylation of insulin receptor and tyrosine phosphorylation of IRS1 and IRS2 in an SH2 domain-dependent manner in cultured cells. Our data suggest that SH2-B is a physiological enhancer of insulin receptor activation and is required for maintaining normal insulin sensitivity and glucose homeostasis during aging.
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PMID:Disruption of the SH2-B gene causes age-dependent insulin resistance and glucose intolerance. 1531 54

The reduction in insulin secretory capacity and beta-cell mass observed in type 2 diabetes is thought to be caused by glucolipotoxicity secondary to hyperglycemia and hyperlipidemia. Our aim in this study was to elucidate the underlying molecular mechanisms. We found a strong correlation between chronic high-glucose treatment and SREBP-1c activation in INS-1 cells and rat islets. Both high-glucose treatment and SREBP-1c activation in INS-1 cells resulted in lipid accumulation, impaired glucose-stimulated insulin secretion, apoptosis, and strikingly similar gene expression patterns, including upregulation of lipogenic and pro-apoptotic genes and downregulation of IRS2, Bclxl and Pdx1. These lipotoxic effects of high glucose were largely prevented by induction of a dominant-negative mutant of SREBP-1c, suggesting SREBP-1c is a major factor responsible for beta cell glucolipotoxicity. Moreover, overexpression of another lipogenic transcription factor, ChREBP, in INS-1 cells did not cause lipotoxicity. Intriguingly, chronic high glucose treatment in INS-1 cells led to pronounced induction of the ER stress marker genes, BIP and Chop10. Treatment of rat islets with both chronic high glucose and two ER stress inducers, thapsigargin and tunicamycin, enhanced SREBP-1 binding to the human IRS2 promoter. These results suggest that SREBP-1 activation caused by ER stress is implicated in beta-cell glucolipotoxicity.
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PMID:ER stress and SREBP-1 activation are implicated in beta-cell glucolipotoxicity. 1609 21

beta cell dysfunction is a central component of the pathogenesis of type 2 diabetes. Using oligonucleotide microarrays and real-time PCR of pancreatic islets isolated from humans with type 2 diabetes versus normal glucose-tolerant controls, we identified multiple changes in expression of genes known to be important in beta cell function, including major decreases in expression of HNF4alpha, insulin receptor, IRS2, Akt2, and several glucose-metabolic-pathway genes. There was also a 90% decrease in expression of the transcription factor ARNT. Reducing ARNT levels in Min6 cells with small interfering RNA (siRNA) resulted in markedly impaired glucose-stimulated insulin release and changes in gene expression similar to those in human type 2 islets. Likewise, beta cell-specific ARNT knockout mice exhibited abnormal glucose tolerance, impaired insulin secretion, and changes in islet gene expression that mimicked those in human diabetic islets. Together, these data suggest an important role for decreased ARNT and altered gene expression in the impaired islet function of human type 2 diabetes.
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PMID:Loss of ARNT/HIF1beta mediates altered gene expression and pancreatic-islet dysfunction in human type 2 diabetes. 1609 55

The hepatitis C virus (HCV) core protein is a component of nucleocapsids and a pathogenic factor for hepatitis C. Several epidemiological and experimental studies have suggested that HCV infection is associated with insulin resistance, leading to type 2 diabetes. We have previously reported that HCV core gene-transgenic (PA28gamma(+/+)CoreTg) mice develop marked insulin resistance and that the HCV core protein is degraded in the nucleus through a PA28gamma-dependent pathway. In this study, we examined whether PA28gamma is required for HCV core-induced insulin resistance in vivo. HCV core gene-transgenic mice lacking the PA28gamma gene (PA28gamma(-/-)CoreTg) were prepared by mating of PA28gamma(+/+)CoreTg with PA28gamma-knockout mice. Although there was no significant difference in the glucose tolerance test results among the mice, the insulin sensitivity in PA28gamma(-/-)CoreTg mice was recovered to a normal level in the insulin tolerance test. Tyrosine phosphorylation of insulin receptor substrate 1 (IRS1), production of IRS2, and phosphorylation of Akt were suppressed in the livers of PA28gamma(+/+)CoreTg mice in response to insulin stimulation, whereas they were restored in the livers of PA28gamma(-/-)CoreTg mice. Furthermore, activation of the tumor necrosis factor alpha promoter in human liver cell lines or mice by the HCV core protein was suppressed by the knockdown or knockout of the PA28gamma gene. These results suggest that the HCV core protein suppresses insulin signaling through a PA28gamma-dependent pathway.
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PMID:Involvement of the PA28gamma-dependent pathway in insulin resistance induced by hepatitis C virus core protein. 1713 26

Western lifestyle leading to obesity and type 2 diabetes has been associated with increased risk of colorectal cancer (CRC). Diet and related factors may affect the risk by modifying plasma insulin levels. Thus, the inter-individual variation in insulin signaling may play a plausible role in the development of CRC. We hypothesized that functional polymorphisms in the insulin pathway genes INS, INSR, IGFBPI, insulin receptor substrate 1 (IRS1), and IRS2 may be associated with CRC. We studied the association of five single nucleotide polymorphisms (SNPs) with the risk of CRC using a hospital-based case-control design with 712 cases and 748 controls from the Czech Republic. The INSR A-603G promoter SNP, which is located within a known Sp1-binding site, was associated with the risk of CRC, with carriers of the G allele having a decreased risk (odds ratios (OR) 0.71, 95% confidence interval (CI) 0.54-0.93). Carrying the variant allele of the IRS1 Gly972Arg SNP further decreased the risk among the INSR-603G allele carriers (OR 0.28, 95% CI 0.11-0.70). SNPs in the INS, IGFBPI, and IRS2 genes did not affect the risk of CRC. In conclusion, genetic variation in the insulin signaling pathway genes may affect the risk of CRC.
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PMID:Insulin pathway related genes and risk of colorectal cancer: INSR promoter polymorphism shows a protective effect. 1791 3

This paper reports on the effect of GCP-02, a dual activator of the peroxisome proliferator-activated receptors alpha/gamma (PPARalpha/gamma), on glucose and lipid metabolism in insulin-resistant obese mice induced by monosodium glutamate. The mice were divided into four groups on the basis of treatment: control group, rosiglitazone (positive control) (7 micromol/kg), and low- and high-dosage GCP-02 (7 micromol/kg and 3.5 micromol/kg, respectively). Drugs were given orally once a day for 19 days, and mice underwent testing for insulin tolerance, oral glucose tolerance and gluconeogenesis, and plasma cholesterol, triglyceride and free fatty acid levels. Mice were sacrificed, and body length and weight were measured; intraperitoneal adipose, heart and liver weighed; and plasma alanine aminotransferase (ALT) level and aspartate aminotransferase (AST) activity measured. Liver, soleus muscle and myocardium were assayed for glycogen, triglyceride and free fatty acid content and myocardia tested for superoxide dismutase (SOD) activity and malonaldehyde content. RT-PCR revealed expression of insulin receptor substrate 1 and 2 (IRS1, IRS2) and related genes in liver. GCP-02 had a more powerful effect than rosiglitazone on improving insulin sensitivity, ameliorating glucose tolerance, suppressing L-alanine-induced gluconeogenesis, and decreasing plasma levels of cholesterol, triglyceride and free fatty acid. It reduced body weight in control mice, significantly lowered hepatic content of glycogen, triglyceride and free fatty acid and myocardial content of triglyceride, and increased myocardial SOD activity. IRS2 mRNA was down-regulated in control mice but up-regulated by GCP-02. Thus, GCP-02 is a potential candidate for the prevention and therapy of diseases associated with insulin resistance such as type 2 diabetes mellitus and cardiovascular disease.
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PMID:Effect of GCP-02, a PPARalpha/gamma dual activator, on glucose and lipid metabolism in insulin-resistant mice. 1804 28

Inappropriate adaptation of beta-cell mass is a primary cause of the development of diabetic hyperglycemia. However, the mechanisms underlying regulation of the beta-cell mass in response to insulin resistance or in the development of type 2 diabetes remain unclear. We determined the insulin signaling in the beta-cells and the adaptation of the beta-cell mass in response to the progression of insulin resistance in OLETF rats. By 25 weeks of age, at the onset of diabetes, compared to control LETO rats, OLETF rats developed obesity (Body weight: LETO vs OLETF = 474.0+/-9.5 vs 581.3+/-21.8 g, P < 0.001, n=6), hyperlipidemia (Cholesterol: LETO vs OLETF = 1.67+/-0.07 vs 2.19+/-0.20 mM, P < 0.05, n=6; triglyceride: LETO vs OLETF = 0.36+/-0.05 vs 1.36+/-0.12 mM, P < 0.001, n=6), and impaired glucose tolerance (AUC: LETO vs OLETF = 10.3+/-3.4 vs 29.6+/-7.8 mM, P < 0.001, n=6). Insulin sensitivities as assessed by the insulin sensitivity index (ISI) and the homeostasis model assessment (HOMA) indicated that OLETF rats developed severe insulin resistance. The measurement of plasma insulin levels by ELISA demonstrated, at the onset of diabetes, that fasting insulin levels were increased by 1.2-fold, and 2 hr postprandial insulin levels were increased by 3-fold (P < 0.05, n=6) in OLETF rats compared to age-matched LETO mates which is suggestive of hyperinsulinemia. Immunostaining detected a significant reduction in the insulin receptor substrate 1 (IRS1) (by 54%, P < 0.001) and IRS2 (by 55%, P < 0.001) in the beta-cells of the OLETF rats. Interestingly, while the beta-cell mass was found to be increased (by 2.2-fold; P < 0.001), the beta-cell insulin content as determined by immunostaining was significantly reduced by 32% (P < 0.001) in the OLETF rats when compared to the controls. Our findings suggest that despite increasing beta-cell mass the impaired beta-cell insulin signaling and reduced beta-cell insulin content may contribute to the onset of overt diabetes in OLETF rats.
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PMID:Increased beta-cell apoptosis and impaired insulin signaling pathway contributes to the onset of diabetes in OLETF rats. 1845 52

Efficient reproduction using natural mating and reproduction technology [in vitro fertilization (IVF) and embryo transfer (ET)] was investigated in IRS2 deficient mice with C57BL/6JJcl genetic background (Irs2(-/-) mice) as a typical type 2 diabetes model. From the results using various combinations of Irs2(-/-) and Irs2(-/+) mice, the combination of female Irs2(-/+) x male Irs2(-/-) was found to be more efficient than other combinations. In applications of reproduction technology using IVF and ET, the combination of female Irs2(-/+) x male Irs2(-/-) involves the possibility of Irs2(-/-) production by repeats using female Irs2(-/+) mice. However, reproductive continuity using this combination is difficult because of dependence on human technique and the cost of ET. Therefore, we concluded that Irs2(-/-) mice should be produced by embryo transfer using Irs2(-/-) mice from a colony consisting of female Irs2(-/+) x male Irs2(-/-).
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PMID:An Efficient reproductive method for Irs2-/- mice with C57BL/6JJcl genetic background. 1863 64

Diets with high fat content induce steatosis, insulin resistance, and type 2 diabetes. The lipid droplet protein adipose differentiation-related protein (ADRP) mediates hepatic steatosis, but whether this affects insulin action in the liver or peripheral organs in diet-induced obesity is uncertain. We fed C57BL/6J mice a high-fat diet and simultaneously treated them with an antisense oligonucleotide (ASO) against ADRP for 4 wk. Glucose homeostasis was assessed with clamp and tracer techniques. ADRP ASO decreased the levels of triglycerides and diacylglycerol in the liver, but fatty acids, long-chain fatty acyl CoAs, ceramides, and cholesterol were unchanged. Insulin action in the liver was enhanced after ADRP ASO treatment, whereas muscle and adipose tissue were not affected. ADRP ASO increased the phosphorylation of insulin receptor substrate (IRS)1, IRS2, and Akt, and decreased gluconeogenic enzymes and PKCepsilon, consistent with its insulin-sensitizing action. These results demonstrate an important role for ADRP in the pathogenesis of diet-induced insulin resistance.
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PMID:Inhibition of ADRP prevents diet-induced insulin resistance. 1866 27


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