Genetic variants of insulin receptor substrate-1 (IRS-1) in syndromes of severe insulin resistance. Functional analysis of Ala513Pro and Gly1158Glu IRS-1.

AIMS: To define further the role of IRS-1 mutations in human syndromes of severe insulin resistance. METHODS: The IRS-1 gene was scanned for mutations in 83 unrelated affected subjects and 47 unaffected individuals using fluorescent single-strand conformation polymorphism (fSSCP) analysis. A novel heterozygous mutation, Gly1158Glu, was found in one affected subject. Four and two subjects were heterozygous for the previously reported variants Gly972Arg and Ala513Pro, respectively. The previously identified variant Gly819Arg was found in one affected and one unaffected subject. While Gly972Arg has been described to alter the signalling properties of IRS-1, no functional studies of Ala513Pro or Gly1158Glu have been reported. RESULTS: Chinese hamster ovary (CHO) cells stably over-expressing the insulin receptor were transiently transfected with vectors expressing either wild-type, Glu1158 or Pro513 IRS-1. A modest increase in insulin-stimulated tyrosine phosphorylation of Glu1158 IRS-1 was observed. However, this did not result in any significant change in the association of Grb2 or the p85 alpha subunit of PI3-kinase or of PI3-kinase activity. In parallel studies, the Pro513 IRS-1 variant was indistinguishable from wild-type IRS-1. CONCLUSIONS: While subtle effects of these variants cannot be excluded in this system, it is unlikely that these variants are responsible for the extreme insulin resistance seen in the subjects harbouring them. Although IRS proteins play a central role in insulin signalling, functionally significant mutations in the IRS-1 gene are a rare cause of human syndromes of severe insulin resistance.     

Association of Gly972Arg polymorphism of IRS1 gene with type 2 diabetes mellitus in lean participants of a national health survey in Mexico: a candidate gene study

Type 2 diabetes mellitus (T2D) is a main public health problem in the Mexican population. It is characterized by insulin resistance in peripheral tissues and a relative deficiency in the pancreatic β-cell functions. Diverse single nucleotide polymorphisms (SNPs) of the IRS1 gene have been associated with insulin resistance and T2D risk. The aim of this study was to identify the association between known IRS1 polymorphisms (Pro512Ala, Asn1137Asp, Gly972Arg, and Arg158Pro) in a sample of diabetic patients compared with healthy controls selected from Mexico's 2000 National Health Survey, both with normal body mass index (BMI). We identified 444 diabetes cases that were age matched with the same number of controls. Genotypic and allelic frequencies were evaluated, and conditional logistic regression was used to evaluate the association between the SNPs and diabetes risk. Of the 4 SNPs studied, only Gly972Arg showed significant differences between cases and controls, with allele frequency of 2.6% in controls as compared with 7.9% in cases. Subjects with at least 1 copy of the Gly972Arg polymorphism of the IRS1 gene showed a greater risk for diabetes, with a crude odds ratio of 3.26 (95% confidence interval, 2.00-5.33); after adjusting for BMI, age, family history of T2D, and sex, the odds ratio was 2.91 (95% confidence interval, 1.73-4.90). Our results suggest the participation of Gly972Arg polymorphism of IRS1 in the genetic susceptibility to TD2 in Mexican population. The restriction of including only participants with normal BMI might increase the power to detect genetic determinants of T2D.     

The Arg972 variant in insulin receptor substrate-1 is associated with an atherogenic profile in offspring of type 2 diabetic patients

The insulin receptor substrate-1 (IRS-1) gene has been considered a candidate for insulin resistance, type 2 diabetes, and coronary artery disease. To investigate the relationship between the common Gly(972)Arg IRS-1 variant and the presence of cardiovascular risk factors, 153 glucose-tolerant, unrelated offspring of type 2 diabetic patients were studied. There were no differences between Arg(972) IRS-1 carriers and noncarriers in age, gender, body mass index, waist/hip ratio, body composition, fasting glucose and insulin levels, and glucose or insulin levels during the oral glucose tolerance test. Insulin sensitivity, assessed by hyperinsulinemic-euglycemic clamp, was significantly reduced in carriers of Arg(972) IRS-1 (P < 0.03). Carriers of Arg(972) IRS-1 displayed many features of the insulin resistance syndrome, including higher values for serum triglycerides (P < 0.01), total/high density lipoprotein cholesterol ratio (P < 0.01), free fatty acid levels (P < 0.04), systolic blood pressure (P < 0.04), microalbuminuria (P < 0.003), and intima-media thickness (P < 0.02). These results suggest that the Arg(972) IRS-1 variant could contribute to the risk for atherosclerotic cardiovascular diseases associated with type 2 diabetes by producing a cluster of insulin resistance-related metabolic abnormalities.     

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

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.     

Relationship of insulin receptor substrate-1 and -2 genotypes to phenotypic features of polycystic ovary syndrome

Insulin resistance is a key component in the pathogenesis of polycystic ovary syndrome (PCOS) and type 2 diabetes. Polymorphisms in the genes encoding the insulin receptor substrate (IRS) proteins, IRS-1 (Gly(972)Arg) and IRS-2 (Gly(1057)Asp), influence susceptibility to type 2 diabetes. This study was undertaken to assess the influence of these polymorphisms on insulin resistance, glucose tolerance, and androgen levels in nondiabetic PCOS women. We studied 227 PCOS subjects including 126 and 48 nondiabetic white and African-American subjects, respectively. The IRS-1 Gly(972)Arg allele frequencies were identical in whites and African-Americans [0.95 (Gly) and 0.05 (Arg)]. The IRS-2 Gly(1057)Asp allele frequencies were 0.85 (Gly) and 0.15 (Asp) in African-Americans and 0.59 (Gly) and 0.41 (Asp) in whites. There was no association of IRS-1 genotype with any clinical or hormonal measure in nondiabetic white or African-American PCOS subjects. However, nondiabetic subjects with the IRS-2 Gly/Gly genotype had significantly higher 2-h oral glucose tolerance test glucose levels compared with those with Gly/Asp and Asp/Asp genotypes in whites or Gly/Asp genotype in African-Americans (there were no Asp/Asp subjects in our modest size African-American sample). These results suggest that the IRS-2 Gly(1057)Asp polymorphism influences blood glucose levels in nondiabetic white and African-American women with PCOS. Thus, individuals with the common IRS-2 Gly/Gly genotype may be at increased risk of developing type 2 diabetes.     

Amino acid polymorphism Gly 972 Arg in IRS-1 is not associated to lower clamp-derived insulin sensitivity in young healthy first degree relatives of patients with type 2 diabetes.

The Gly 972 Arg variant in the insulin receptor substrate-1 (IRS-1) gene may interact with the pathogenesis of common insulin-resistance disorders raising the hypothesis that the mutation may predispose to type 2 diabetes. We examined the codon 972 variant in 144 non-diabetic first degree relatives of patients with type 2 diabetes (FDR), who underwent extensive phenotyping: Glucose tolerance was determined by an oral glucose load, insulin sensitivity by euglycaemic-hyperinsulinaemic glucose clamp (glucose metabolic clearance rate, MCR) and body composition by bioelectrical impedance. 20 (14%) of the FDR showed the Gly 972 Arg variant in heterozygous form, 2 (1.3%) probands were homozygous. Carriers of the polymorphism did not differ in MCR independent of body weight and total body fat. The polymorphism does not seem to determine clamp-derived insulin sensitivity. Despite identical fasting plasma glucose, carriers of the polymorphism showed a slightly lower fasting serum insulin and lower insulin response to an oral glucose load but higher glucose concentrations. In an obese subgroup (BMI > 25) the polymorphism did not show a higher frequency and was not associated with lower insulin sensitivity. In the investigated group of young, healthy relatives of type 2 diabetes patients, the frequency of the mutation corresponded to that of a diabetic population. In summary our data show that the polymorphism is not suitable to predict insulin resistance.     

Gly482Ser polymorphism of the peroxisome proliferator-activated receptor-gamma coactivator-1 gene might be a risk factor for diabetic retinopathy in Slovene population (Caucasians) with type 2 diabetes and the Pro12Ala polymorphism of the PPARgamma gene is not

BACKGROUND: The peroxisome proliferator-activated receptor-gamma (PPARgamma) gene has been recently associated with type 2 diabetes, obesity and traits depending on VEGF expression (e.g. retinopathy). The PPARgamma gene and its coactivator, the peroxisome proliferator-activated receptor-gamma coactivator-1 (PPARGC1) gene, have been implicated to be involved in glucose uptake and altered lipid oxidation. We therefore hypothesized that the Gly482Ser polymorphism of the PPARGC1 gene and Pro12Ala polymorphism of the PPARgamma gene might confer susceptibility to diabetic retinopathy in type 2 diabetes. The aim of this study was to investigate the association between the Pro12Ala polymorphism in the PPARgamma gene and Gly482Ser polymorphism in the PPARGC1 gene and the development of diabetic retinopathy in the Slovene population (Caucasians) with type 2 diabetes. METHODS: One hundred and sixty subjects with type 2 diabetes and diabetic retinopathy were compared with 101 diabetic subjects without diabetic retinopathy. Chi-square test was used to compare discrete variables, and continuous clinical data were compared by unpaired students t - test. RESULTS: A significantly higher frequency of the AA genotype of the Gly482Ser polymorphism of the PPARGC1 gene was found in the patients with diabetic retinopathy compared to the patients without diabetic retinopathy (14.4% vs 5.9%; p = 0.035), whereas the Pro12Ala polymorphism of the PPARgamma gene failed to yield an association with diabetic retinopathy. CONCLUSIONS: The present study demonstrates that the AA genotype of the Gly482Ser polymorphism in the PPARGC1 gene might be a risk factor for diabetic retinopathy in the Slovene population (Caucasians) with type 2 diabetes (odds ratio 2.7, 95% confidence interval 1.0-6.8), whereas the Pro12Ala polymorphism of the PPARgamma gene failed to confer susceptibility to diabetic retinopathy.     

The Gly-->Arg972 amino acid polymorphism in insulin receptor substrate-1 affects glucose metabolism in skeletal muscle cells

Molecular scanning of insulin receptor substrate-1 (IRS-1) revealed several amino acid substitutions. The most common IRS-1 variant, a Gly to Arg972 change, is more prevalent among type 2 diabetic patients. In this study we overexpressed wild-type and Arg972IRS-1 variant in L6 skeletal muscle cells and examined the functional consequences of this polymorphism on insulin metabolic signaling. L6 cells expressing Arg972-IRS-1 (L6-Arg972) showed a decrease in insulin-stimulated IRS-1-associated phosphatidylinositol 3-kinase (PI 3-kinase) activity compared with L6 cells expressing wild-type IRS-1 (L6-WT) as a consequence of decreased binding of p85 subunit of PI 3-kinase to IRS-1. L6-Arg972 exhibited a decrease in both basal and insulin-stimulated glucose transport due to a reduction in the amount of both GLUT1 and GLUT4 translocated to the plasma membrane. Both basal and insulin-stimulated Akt phosphorylations were decreased in L6-Arg972 compared with L6-WT. Basal glycogen synthase kinase-3 (GSK-3) activity was increased in L6-Arg972 compared with L6-WT, and insulin-induced inactivation of GSK-3 was also reduced in L6-Arg972. This change was associated with a significant decrease in insulin-stimulated glucose incorporation into glycogen and glycogen synthase activity in L6-Arg972 compared with L6-WT. These results indicate that the Arg972-IRS-1 polymorphism impairs the ability of insulin to stimulate glucose transport, glucose transporter translocation, and glycogen synthesis by affecting the PI 3-kinase/Akt/GSK-3 signaling pathway. The present data indicate that the polymorphism at codon 972 of IRS-1 may contribute to the in vivo insulin resistance observed in carriers of this variant.     

IRS1, KCNJ11, PPARγ2 and HNF‐1α: do amino acid polymorphisms in these candidate genes support a shared aetiology between type 1 and type 2 diabetes?

AIMS: Type 1 diabetes mellitus (T1DM) is a chronic disorder primarily triggered by environmental and immunological factors in genetically susceptible individuals. Despite the fact that there are indications of common aetiological features of T1DM and type 2 diabetes (T2DM), variation in genes involved in insulin secretion and insulin signalling has to a large extent been ignored as potential modifiers in the pathogenesis of T1DM. Recent studies suggest, however, that proven T2DM susceptibility gene variants may be involved in the pathogenesis of T1DM. The objective of this study was to estimate the impact of four selected amino acid polymorphisms -IRS-1 Gly972Arg, Kir6.2 Glu23Lys, HNF-1alpha Ala98Val and PPARgamma2 Pro12Ala in a Danish population of T1DM families. METHODS: All variants were genotyped in 490 simplex- and multiplex-T1DM families applying polymerase chain reaction-restriction fragment length polymorphism, and results were evaluated by means of a transmission disequilibrium test (TDT) analysis. RESULTS: TDT analysis revealed that the Arg972 IRS-1, the Lys23 Kir6.2 and the Val98 HNF-1alpha variants were transmitted from heterozygous parents to affected probands at frequencies of 49.1%, 47.0% and 54.1%, respectively (p > 0.05 for all). This was similar to the rate of transmission to unaffected siblings. The transmission rate of the Ala12 PPARgamma2 variant to affected probands was 46.5% (p > 0.05) which differed significantly from the transmission to unaffected offspring (p = 0.024). A combined analysis of the present and published pertinent data of 1691 transmissions showed a significantly decreased transmission of the PPARgamma2 Ala12 allele to affected probands (p = 0.0045). CONCLUSIONS: The Pro12Ala variant of PPARgamma2 is associated with T1DM, the minor Ala allele conferring a reduced risk. This same finding has been reported in patients with T2DM.     

Polymorphisms of insulin receptor substrate 1 and beta3-adrenergic receptor genes in gestational diabetes and normal pregnancy

Gestational diabetes mellitus (GDM) is considered an important risk factor for the development of type 2 diabetes mellitus. We studied possible relations between GDM and both insulin receptor substrate 1 (IRS-1) (Gly972Arg) and beta3-adrenergic receptor (ADRB3 Trp64Arg, beta3-AR) gene mutations, considered potential modifying factors in the etiology of type 2 diabetes mellitus. We evaluated the 2 gene mutations in late gestation in 627 pregnant women, all studied using the glucose challenge test, followed (in positive tests) by the oral glucose tolerance test (100 g, Carpenter and Coustan [J Obstet Gynecol. 1982;144:768-773] criteria) We diagnosed 309 women with GDM, 41 with gestational impaired glucose tolerance and 277 normal pregnant women. Age, family history of diabetes, prepregnancy body mass index, weight gain during pregnancy, plasma glucose levels, hemoglobin A1c, islet autoantibody levels, and insulin treatment during pregnancy were all evaluated. All pregnant women were genotyped for IRS-1 (Gly972Arg) and beta3-AR (ADRB3 Trp64Arg) polymorphisms. The frequency of IRS-1 gene polymorphism was significantly higher in women with GDM than in women with a normal glucose tolerance (NGT) (P = .039), and there was a significant trend (P = .032) in the increasing frequency of mutant allele Arg from NGT > gestational impaired glucose tolerance > GDM. The search for beta3-AR gene polymorphism showed no significant differences between women with GDM and women with NGT. The X-Arg genotype of IRS-1 was significantly associated with a positive family history of diabetes in NGT (P = .006) and neared significance in GDM (P = .057). Moreover, we found that NGT carriers of both polymorphisms had a higher prepregnancy body mass index than carriers of the IRS-1 variant alone (P = .0034), the beta3-AR variant alone (P = .039), or neither (P = .048), suggesting a possible synergistic effect of the 2 gene polymorphisms. These results suggest that the IRS-1 genetic polymorphism is involved in the occurrence of gestational diabetes, as well as type 2 diabetes mellitus.     

The Gly146Ala variation in human SF-1 gene: its association with insulin resistance and type 2 diabetes in Chinese

AIMS: While steroidogenic factor 1 (SF-1) is traditionally an essential nuclear receptor for steroidogenic tissues, current emerging studies revealed that the receptor is also closely implicated in metabolism. Mutations of SF-1 gene cause metabolic disorders like obesity in both human and mice. The aim of the present study is to examine whether the Gly146Ala variation in the gene for SF-1, that is known to impair SF-1 function and related to adrenal disorders, affects susceptibility to type 2 diabetes. METHODS: Hundred and fifty-one type 2 diabetic subjects and 141 non-diabetic control subjects of Han Chinese were recruited and the SF-1 genotype were analyzed by PCR-RFLP method. RESULTS: The Gly146Ala variation occurs frequently in the Han Chinese. Allele Ala frequency in the control subjects (27.3%) was significantly lower than that in type 2 diabetic subjects (37.1%, chi2=6.37, p=0.01). The Gly/Ala and Ala/Ala genotypes frequencies were also higher in diabetic subjects. In both the diabetic and control populations, subjects carrying allele Ala, as compared to those not, had higher fasting insulin levels and higher HOMA values. CONCLUSIONS: The SF-1 Gly146Ala variation may constitute a susceptible factor for development of type 2 diabetes and impairment of insulin actions.     

Relationship Between Insulin Sensitivity and Insulin Receptor Substrate-1 Mutations in Non-diabetic Relatives of NIDDM Families

Insulin receptor substrate-1 (IRS-1) occupies a key position in the insulin-signalling pathway. Two mutations of the IRS-1 gene (Gly₉₇₂Arg and Ala₅₁₃Pro) have been described, although their roles in the development of insulin resistance and non-insulin-dependent diabetes mellitus (NIDDM) remain controversial. Insulin resistance has been described in non-diabetic relatives of NIDDM families, suggesting that it may be due to an inherited defect of insulin action. We therefore examined the relationships between the two mutations and insulin senstivity in 93 non-diabetic first degree relatives from North European families with 2 or more living NIDDM subjects. Anthropometric measurements, an oral glucose tolerance test, and an insulin tolerance test to assess insulin sensitivity (K_ITT) were performed. Basal insulin sensitivity was assessed by homeostasis model assessment (HOMA). Comparisons were made between the following relative subgroups: with (n = 9) and without (n = 84) the 972 mutation; with (n = 5) and without (n = 88) the 513 mutation; and with either one or both mutations (n = 13) or without either (n = 80). General linear model analysis was used to compare K_ITT and HOMA between the subgroups with the anthropometric variables known to influence insulin sensitivity as covariates. There were no significant differences between the subgroups for K_ITT and HOMA. In conclusion, the 513 and 972 mutations, alone and in combination, are not associated with decreased insulin sensitivity in non-diabetic relatives of NIDDM families.     

胰岛素受体底物1基因Gly972Arg多态性与2型糖尿病不相关

目的：探讨中国汉族人群胰岛素受体底物1（IRS－1）基因Gly972Arg多态性与2型糖尿病的关系。方法：选取102例2型糖尿病患者及102例糖耐量正常的患者配偶进行对照研究，应用聚合酶链反应－－限制性片断长度多态性的方法进行胰岛素受体底物1基因Gly972Arg多态性位点基因型检测。结果：IRS－1基因Gly972Arg突变频率在病例组和对照组均为2％，明显低于白人。结论：在中国汉族人群中，IRS－1基因Gly972Arg突变不是2型糖尿病的主要致病因素。     

A study on the genetics of obesity: influence of polymorphisms of the beta-3-adrenergic receptor and insulin receptor substrate 1 in relation to weight loss, waist to hip ratio and frequencies of common cardiovascular risk factors.

Beta-3-adrenergic receptor (beta-3-AR) and insulin receptor substrate 1 (IRS-1) have been implicated in the pathogenesis of obesity and in obesity related increase in insulin resistance which is associated with, among other diseases, dyslipidemia and type 2 diabetes mellitus. We studied 210 white female Caucasian obese subjects, who underwent a formal weight loss program (Optifast). We examined the association between mutations of the IRS-1 gene at codon 972, mutations of the beta-3-AR gene at codon 64, and the combination of both mutations with the degree of weight loss, waist to hip ratio and the prevalence of hypertension, dyslipidemia and type 2 diabetes mellitus. Twenty-four women (11.4%) were polymorph only for the beta-3-AR mutation, 23 women (10.9%) only for the IRS-1 mutation, and 6 subjects (2.9%) were polymorph for both alleles. No patient displayed a homozygous polymorphism. Similar frequencies of these polymorphisms were observed when the 100 non-obese control women were tested (14.0, 15.0, 3.0, respectively). After 13 weeks of weight loss the group with multiple polymorph alleles had lost less of their weight than the obese controls without mutation (Delta BMI 5.32+/-0.18 versus 6.12+/-0.2 kg/m2, p<0.05). In this group, the frequency of type 2 diabetes (66.7%) was significantly higher than in the obese control group without mutations (16.7%, p=0.008). Our findings suggest there is a synergy between the polymorphisms of Trp64Arg beta-3-AR and Gly972Arg IRS-1 in Caucasian German obese women leading to a decreased weight loss. This seems to be accompanied with an increased frequency of type 2 diabetes.     

胰岛素受体底物1（IRS-1）基因Gly972Arg突变与中国人糖尿病的相关性

目的 研究胰岛素受体物１（ＩＲＳ－１）基因Ｇｌｙ９７２Ａｒｇ突变与中国人糖尿病的相关性。方法 随机选取上海地区中国人３５９例,用ＰＣＲ／ＢｓｔＮ１酶解法检测Ｇｌｙ９７２Ａｒｇ突变。结果 本组中国人中仅发现２例该突变且均为非糖尿病者。结论 该突变可能不是中国人糖尿病的重要遗传因素。     

The insulin receptor substrate-1 Gly972Arg polymorphism is not associated with Type 2 diabetes mellitus in two population-based studies.

AIMS: The insulin receptor substrate-1 (IRS-1) gene is among the most frequently studied candidate genes for Type 2 diabetes, but findings have been inconsistent. This may have been due to generally small study sizes, or to interaction with body fatness as suggested by studies of insulin sensitivity. The aim of this study was to test the hypothesis that the IRS-1 Gly972Arg variant increases risk of Type 2 diabetes. METHODS: We conducted two large population-based studies including a total of 725 cases and 742 control subjects, who were Caucasian Dutch men and women aged 40-70 years. We calculated odds ratios adjusted for body mass index, study centre, sex and age. RESULTS: Carriers of the Arg allele did not have a higher prevalence of newly detected (OR 0.49, 95% CI 0.24-1.01) or treated (OR 0.71, 0.37-1.35) Type 2 diabetes in the first study, or a higher prevalence of glucose intolerance (OR 1.07, 0.71-1.59) in the second study. The summary odds ratio was 0.86 (0.62-1.17) for carrying the Arg allele as compared with the Gly/Gly genotype. Associations did not differ appreciably by degree of obesity. Also, the Arg variant was not associated with detrimental values for body mass index, waist circumference, plasma HDL-and total cholesterol or hypertension. CONCLUSIONS: Our findings indicate that the IRS-1 Gly972Arg variant does not substantially increase risk of common Type 2 diabetes, or Type 2 diabetes in obese persons.     

Impaired endothelial function in never-treated hypertensive subjects carrying the Arg972 polymorphism in the insulin receptor substrate-1 gene

Some cardiovascular risk factors, such as hypertension and insulin resistance, are associated with endothelial dysfunction. Insulin regulates both in vitro and in vivo expression of endothelial nitric oxide synthase (eNOS) via a pathway involving insulin receptor substrate-1 (IRS-1) and phosphatidylinositol-3 kinase. Recently, we found that human endothelial cells obtained from carriers of the Arg(972) IRS-1 polymorphism exhibited reduced eNOS expression in response to chronic exposure to insulin. A reduction in eNOS expression would be expected to be associated with impaired endothelium-dependent vasodilation. To investigate a possible relationship between Arg(972) IRS-1 polymorphism and endothelial dysfunction in vivo, we enrolled a cohort of 100 never-treated hypertensive subjects. Endothelium-dependent and endothelium-independent vasodilation were assessed by increasing doses of acetylcholine and sodium nitroprusside. IRS-1 polymorphism was detected by PCR. The allelic frequency of the Arg(972) IRS-1 variant was 8.0%. Stratifying subjects according to IRS-1 genotype, we observed that acetylcholine-stimulated forearm blood flow was significantly (P < 0.0001) lower in Gly/Arg heterozygous carriers than in Gly/Gly carriers (11.3 +/- 4.4 vs. 14.7 +/- 5.9 ml/100 ml(-1) of tissue per min(-1)). Sodium nitroprusside caused comparable increments in forearm blood flow in both groups (12.9 +/- 2.4 vs. 13.3 +/- 3.5 ml/100 ml(-1) of tissue per min(-1)). Our data strongly suggest that, by inducing endothelial dysfunction, the Arg(972) IRS-1 polymorphism may contribute to the genetic predisposition to develop cardiovascular disease.     

Genetic determinants of insulin action in polycystic ovary syndrome.

INTRODUCTION: Insulin resistance is associated with both type 2 diabetes (T2 D) and polycystic ovary syndrome (PCOS). There is an association of T2 D with several polymorphisms in candidate genes related to insulin resistance. However, there is limited information about the association of these polymorphisms with PCOS. METHODS: 57 non-diabetic women with PCOS and a control group of 567 healthy non-diabetic women underwent an oral glucose tolerance test (OGTT). They were genotyped for the polymorphisms Gly972Arg in IRS-1, Gly1057Asp in IRS-2, SNP 43, 44, and 45 in CAPN10, Pro12Ala in PPAR(gamma)2, C-512 T in FOXC2, and T45 G in adiponectin. RESULTS: Women with PCOS had higher 2-h blood glucose levels (6.5 +/- 0.2 vs. 6.0 +/- 0.06 mmol/l, p = 0.03) compared to control women, higher fasting insulin (79 +/- 7 vs. 53 +/- 2 pmol/l, p = 0.02), and a lower insulin sensitivity estimated from the OGTT (12.4 +/- 1.1 vs. 19.1 +/- 0.5 U, p = 0.0001). More homozygous G allele carriers of the T45 G polymorphism in the adiponectin gene were found in women with PCOS compared to controls (13.2 % vs. 2.6 %, p = 0.008). In women with PCOS, G-allele carriers had lower fasting insulin levels than TT carriers (61 +/- 9 vs. 88 +/- 10, p = 0.02) in contrast to controls (p = 0.03 for interaction genotype x PCOS). The other polymorphisms were distributed equally among women with PCOS and controls (all p > 0.5). SUMMARY: We found a higher prevalence of the T45 G polymorphism in the adiponectin gene in women with PCOS compared to controls. This was not associated with a more insulin resistant phenotype in PCOS, however. Other frequent polymorphisms in genes related to insulin resistance and type 2 diabetes showed no association with PCOS.     

Complete amino acid sequence of murine beta 2-microglobulin: structural evidence for strain-related polymorphism.

Primary structural analyses of beta 3-microglobulin isolated from the tumor cell lines EL4.BU (derived from a C57BL/6 mouse) and C14 (derived from a BALB/c mouse) have revealed the presence of an amino acid difference at position 85 of this molecule. beta 2-Microglobulin isolated from histocompatibility antigens of EL4.BU has alanine at this position, whereas that from C14 has aspartic acid. Determination of the sequence of these molecules has employed radiochemical methodology that was developed in studies of murine histocompatibility antigens. The sequence obtained in this study is: Ile - Gln - Lys - Thr - Pro - Gln - Ile - Gln - Val - Tyr - Ser - Arg - His - Pro - Pro - Glu - Asn - Gly - Lys - Pro - Asn - Ile - Leu - Asn - Cys - Tyr - Val - Thr - Gln - Phe - His - Pro - Pro - His - Ile - Glu - Ile - Gln - Met - Leu - Lys - Asn - Gly - Lys - Lys - Ile Pro - Lys - Val - Glu - Met - Ser - Asp - Met - Ser - Phe - Ser - Lys - Asp - Trp - Ser - Phe - Tyr - Ile - Leu - Ala - His - Thr - Glu - Phe - Thr - Pro - Thr - Glu - Thr - Asp - Thr - Tyr - Ala - Cys - Arg - Val - Lys - His - Ala/Asp - Ser - Met - Ala - Glu - Pro - Lys - Thr - Val - Tyr - Trp - Asp - Arg - Asp - Met. Comparison of the sequence of murine beta 2-microglobulin to the sequences reported for the homologues from man, rabbit, and guinea pig indicate identities of 68%, 66%, and 61%, respectively.     

Phosphorylation of human insulin receptor substrate-1 at Serine 629 plays a positive role in insulin signaling

The function of insulin receptor substrate-1 (IRS-1) is regulated by both tyrosine and serine/threonine phosphorylation. Phosphorylation of some serine/threonine residues in IRS-1 dampens insulin signaling, whereas phosphorylation of other serine/threonine residues enhances insulin signaling. Phosphorylation of human IRS-1 at Ser(629) was increased by insulin in Chinese hamster ovary cells expressing the insulin receptor (1.26 +/- 0.09-fold; P < 0.05) and L6 cells (1.35 +/- 0.29-fold; P < 0.05) expressing human IRS-1. Sequence analysis surrounding Ser(629) revealed conformity to the consensus phosphorylation sequence recognized by Akt. Phosphorylation of IRS-1 at Ser(629) in cells was decreased upon treatment with either an Akt inhibitor or by coexpression with kinase dead Akt, whereas Ser(629) phosphorylation was increased by coexpression with constitutively active Akt. In addition, Ser(629) of IRS-1 is directly phosphorylated by Akt in vitro. In cells, preventing phosphorylation of Ser(629) by a Ser(629)Ala mutation resulted in increased phosphorylation of Ser(636), a known negative regulator of IRS-1, without affecting phosphorylation of Tyr(632) or Ser(616). Cells expressing the Ser(629)Ala mutation, along with increased Ser(636) phosphorylation, had decreased insulin-stimulated association of the p85 regulatory subunit of phosphatidylinositol 3'-kinase with IRS-1 and decreased phosphorylation of Akt at Ser(473). Finally, in vitro phosphorylation of a Ser(629)-containing IRS-1 fragment with Akt reduces the subsequent ability of ERK to phosphorylate Ser(636/639). These results suggest that a feed-forward mechanism may exist whereby insulin activation of Akt leads to phosphorylation of IRS-1 at Ser(629), resulting in decreased phosphorylation of IRS-1 at Ser(636) and enhanced downstream signaling. Understanding the complex phosphorylation patterns of IRS-1 is crucial to elucidating the factors contributing to insulin resistance and, ultimately, the pathogenesis of type 2 diabetes.