UMLS:C0011860 - FACTA Search

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Query: UMLS:C0011860 (type 2 diabetes)
57,723 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The aim of this study was to investigate the relationships among insulin resistance and albumin excretion rate in 25 nondiabetic patients with essential hypertension and in 28 patients with non-insulin dependent diabetes mellitus (NIDDM). Two groups of healthy subjects matched for age, sex, and weight served as controls. Patients with essential hypertension were divided into two subgroups: without (H1) and with (H2) microalbuminuria. Diabetic patients were divided into four subgroups: those with normoalbuminuria without (NIDDM1) and with (NIDDM2) hypertension and those with microalbuminuria without (NIDDM3) and with (NIDDM4) hypertension. Whole-body glucose utilization during euglycemic hyperinsulinemic clamp (40 mU/m2/min insulin infusion) was calculated by tracer dilution techniques (6,6 2H2 glucose tracer continuous infusion) and was significantly lower in hypertensives with microalbuminuria than in those without (H2 versus H1 versus controls: 3.41 +/- 0.51 versus 6.52 +/- 0.62 versus 7.03 +/- 0.48 mg/kg/min; mean +/- SE). Whole-body glucose utilization in NIDDM patients--NIDDM4 versus NIDDM3 versus NIDDM2 versus NIDDM1 versus controls--was: 1.86 +/- 0.31 versus 2.21 +/- 0.39 versus 2.01 +/- 0.40 versus 5.98 +/- 0.77 versus 5.52 +/- 0.92 mg/kg/min (mean +/- SE). Whereas the first three subgroups did not differ among themselves, they had significantly lower glucose utilization than did the normotensive NIDDM1 patients without microalbuminuria and nondiabetic controls (P < 0.01). Hypertensives with microalbuminuria had higher Vmax of sodium-lithium countertransport (Na/Li CTT) in red blood cells than did both hypertensives without microalbuminuria and controls. It was also observed that NIDDM patients with microalbuminuria had higher Vmax of Na/Li CTT than did NIDDM patients without microalbuminuria and controls.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Close relationship between microalbuminuria and insulin resistance in essential hypertension and non-insulin dependent diabetes mellitus. 145 61

Non-insulin-dependent (type 2) diabetes mellitus (NIDDM) is a common disorder of middle-aged individuals characterized by high blood glucose levels which, if untreated, can cause serious medical complications and lead to early death. Genetic factors play an important role in determining susceptibility to this disorder. However, the number of genes involved, their chromosomal location and the magnitude of their effect on NIDDM susceptibility are unknown. We have screened the human genome for susceptibility genes for NIDDM using non-and quasi-parametric linkage analysis methods in a group of Mexican American affected sib pairs. One marker, D2S125, showed significant evidence of linkage to NIDDM and appears to be a major factor affecting the development of diabetes mellitus in Mexican Americans. We propose that this locus be designated NIDDM1.
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PMID:A genome-wide search for human non-insulin-dependent (type 2) diabetes genes reveals a major susceptibility locus on chromosome 2. 932 32

Complex disorders such as diabetes, cardiovascular disease, asthma, hypertension and psychiatric illnesses account for a large and disproportionate share of health care costs, but remain poorly characterized with respect to aetiology. The transmission of such disorders is complex, reflecting the actions and interactions of multiple genetic and environmental factors. Genetic analyses that allow for the simultaneous consideration of susceptibility from multiple regions may improve the ability to map genes for complex disorders, but such analyses are currently computationally intensive and narrowly focused. We describe here an approach to assessing the evidence for statistical interactions between unlinked regions that allows multipoint allele-sharing analysis to take the evidence for linkage at one region into account in assessing the evidence for linkage over the rest of the genome. Using this method, we show that the interaction of genes on chromosomes 2 (NIDDM1) and 15 (near CYP19) makes a contribution to susceptibility to type 2 diabetes in Mexican Americans from Starr County, Texas.
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PMID:Loci on chromosomes 2 (NIDDM1) and 15 interact to increase susceptibility to diabetes in Mexican Americans. 998 76

Recent advancement of molecular biology highlighted three areas of basic research which may be important for clinical diabetology. One is the understanding of mechanisms of differentiation in pancreatic beta-cells and adipocytes. The second is the development of methods of tissue-specific knock-out mouse. This approach revealed that muscle may not be important for insulin-dependent glucose disposal in vivo. The third is the advancement of genetics which enabled to clone a major susceptibililly gene for type 2 diabetes mellitus (NIDDM1). These progress may bring new therapies for clinical diabetology.
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PMID:[Molecular biology and clinical diabetology]. 1019 24

Type 2 or non-insulin-dependent diabetes mellitus (NIDDM) is the most common form of diabetes worldwide, affecting approximately 4% of the world's adult population. It is multifactorial in origin with both genetic and environmental factors contributing to its development. A genome-wide screen for type 2 diabetes genes carried out in Mexican Americans localized a susceptibility gene, designated NIDDM1, to chromosome 2. Here we describe the positional cloning of a gene located in the NIDDM1 region that shows association with type 2 diabetes in Mexican Americans and a Northern European population from the Botnia region of Finland. This putative diabetes-susceptibility gene encodes a ubiquitously expressed member of the calpain-like cysteine protease family, calpain-10 (CAPN10). This finding suggests a novel pathway that may contribute to the development of type 2 diabetes.
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PMID:Genetic variation in the gene encoding calpain-10 is associated with type 2 diabetes mellitus. 1101 62

Previous linkage studies in Mexican-Americans localized a major susceptibility locus for type 2 diabetes, NIDDM1, to chromosome 2q. This evidence for linkage to type 2 diabetes was recently found to be associated with a common G-->A polymorphism (UCSNP-43) within the CAPN10 gene. The at-risk genotype was homozygous for the UCSNP-43 G allele. In the present study among Pima Indians, the UCSNP-43 G/G genotype was not associated with an increased prevalence of type 2 diabetes. However, Pima Indians with normal glucose tolerance, who have a G/G genotype at UCSNP-43, were found to have decreased rates of postabsorptive and insulin-stimulated glucose turnover that appear to result from decreased rates of glucose oxidation. In addition, G/G homozygotes were found to have reduced CAPN10 mRNA expression in their skeletal muscle. A decreased rate of insulin-mediated glucose turnover, or insulin resistance, is one mechanism by which the polymorphism in CAPN10 may increase susceptibility to type 2 diabetes mellitus in older persons.
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PMID:A calpain-10 gene polymorphism is associated with reduced muscle mRNA levels and insulin resistance. 1101 67

Diabetes mellitus is a group of metabolic disorders characterized by hyperglycemia resulting from defects in insulin secretion, insulin action or both. Genetic factors contribute to the development of diabetes. Some forms such as the condition called maturity-onset diabetes of the young(MODY) result from mutations in a single gene. Other forms such as type 1 or type 2 diabetes are multifactorial in origin with different combinations of genes together with non-genetic factors contributing to the development of hyperglycemia. MODY has been a good model for studying the genetics and pathophysiology of diabetes. This form of diabetes can result from mutations in at least seven different genes: hepatocyte nuclear factor(HNF)-4 alpha/MODY1, glucokinase/MODY2, HNF-1 alpha/MODY3, insulin promoter factor(IPF-1)/MODY4, HNF-1 beta/MODY5, NeuroD1/MODY6 and Islet(Isl)-1/MODY7. Mutations in HNF-1 alpha/MODY3 are the most common cause of MODY in Japanese identified to date accounting for about 15% of cases of MODY. Mutations in the HNF-4 alpha/MODY1, glucokinase/MODY2, HNF-1 beta/MODY5 and Isl-1/MODY7 genes have also been found in Japanese; however, they are rare causes of MODY. Clinical studies indicate that patients with MODY are generally not obese and that all forms of MODY are characterized by pancreatic beta-cell dysfunction. Patients who have mutations in the HNF-1 beta/MODY5 gene have non-diabetic kidney dysfunction including renal cysts. Female carriers may also exhibit abnormalities in the upper vagina and uterus. Genetic approach for type 2 diabetes had done by using non-parameteric linkage analysis such as sibpair analysis which worked well and NIDDM1 and NIDDM2 have been identified to date. The responsible gene for NIDDM1 was recently identified to be Calpain 10, and SNP43 in this gene could explain all of the evidence for linkage in Mexican American type 2 diabetes.
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PMID:[Diabetes mellitus]. 1130 9

Macrovascular disease is a major complication of type 2 diabetes. Epidemiological data suggest that the risk of macrovascular complications may predate the onset of hyperglycemia. Hypertriglyceridemia, low levels of HDL cholesterol, and an atherogenic profile characterize the insulin resistance/metabolic syndrome that is also prevalent among nondiabetic members of familial type 2 diabetic kindreds. To identify the genes for lipid-related traits, we first performed a 10-cM genome scan using 440 markers in 379 members of 19 multiplex families ascertained for two diabetic siblings (screening study). We then extended findings for three regions with initial logarithm of odds (LOD) scores >1.5 to an additional 23 families, for a total of 576 genotyped individuals (extended study). We found heritabilities for all lipid measures in the range of 0.31 to 0.52, similar to those reported by others in unselected families. However, we found the strongest evidence for linkage of triglyceride levels to chromosome 19q13.2, very close to the ApoC2/ApoE/ApoC1/ApoC4 gene cluster (LOD 2.56) in the screening study; the LOD increased to 3.16 in the extended study. Triglyceride-to-HDL cholesterol ratios showed slightly lower LOD scores (2.73, extended family) in this same location. Other regions with LOD scores >2.0 included HDL linkage to chromosome 1q21-q23, where susceptibility loci for both familial type 2 diabetes and familial combined hyperlipidemia have been mapped, and to chromosome 2q in the region of the NIDDM1 locus. Neither region showed stronger evidence for linkage in the extended studies, however. Our results suggest that genes in or near the ApoE/ApoC2/ApoC1/ApoC4 cluster on 19q13.2 may contribute to the commonly observed hypertriglyceridemia and low HDL seen in diabetic family members and their offspring, and thus may be a candidate locus for the insulin resistance syndrome.
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PMID:Quantitative trait linkage analysis of lipid-related traits in familial type 2 diabetes: evidence for linkage of triglyceride levels to chromosome 19q. 1181 65

The calpain-10 gene (CAPN10) has been implicated in type 2 diabetes (T2DM) susceptibility by both linkage and association in a Hispanic population from Starr County Texas. Common intronic variants seem to alter CAPN10 mRNA levels and were associated with insulin resistance but not diabetes in Pima Indians. The role of these variants in Caucasian populations is less clear. We found some evidence for linkage of T2DM to chromosome 2q approximately 20 cM proximal to the NIDDM1/CAPN10 locus. To test the hypothesis that CAPN10 is a diabetes susceptibility locus in Caucasian families at high risk for T2DM, we examined the influence of the three previously implicated CAPN10 variants on both diabetes risk and measures of insulin sensitivity and glucose homeostasis. We genotyped approximately 700 members of 63 families for 3 variants (SNP-43, SNP-19, and SNP-63). We tested each variant separately and as haplotype combinations for altered transmission from parents to affected children (transmission disequilibrium test), and we tested for an effect of each variant individually on measures of glucose and insulin during a glucose tolerance test in nondiabetic family members. Finally, we looked for an effect of each variant on measures of insulin sensitivity (S(I)) and insulin secretion estimated by frequently sampled iv glucose tolerance test and Minimal Model analysis. We could not confirm an increase in risk for T2DM susceptibility for any variant or for any haplotype combination, although we found marginal evidence for an increased risk of the 111/221 haplotype combination (P = 0.036) after ascertainment correction. However, both SNP-19 and SNP-63 increased fasting and/or postchallenge insulin levels, consistent with reduced insulin sensitivity. Furthermore, SNP-19 had modest effects on insulin sensitivity measured by homeostatic model, and on postchallenge glucose. The reduction in insulin sensitivity was confirmed by analysis of the subset of individuals who underwent iv glucose tolerance tests, where SNP-19 significantly altered the insulin sensitivity index. CAPN10 cannot be considered a major diabetes susceptibility gene in our population and seems unlikely to explain the observed linkage findings. However, CAPN10 influences insulin sensitivity and glucose homeostasis in nondiabetic members of kindreds at high risk for T2DM.
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PMID:Role of calpain-10 gene variants in familial type 2 diabetes in Caucasians. 1183 99

Twin and family studies have demonstrated a strong genetic component to type 2 diabetes mellitus (T2DM), but mapping the susceptibility genes that account for this risk has proved difficult. At least seven single gene defects are known to cause T2DM, often with early onset and insulin deficiency, but these causes account for 5% or less of all T2DM. A large number of candidate genes have been evaluated for typical T2DM, but few have been confirmed in multiple studies, and among these, the effect on individual risk is modest. A large number of genome-wide scans have been published in the last few years, and at least four regions show evidence in multiple studies. However, only NIDDM1 has been mapped to a single gene, and that gene (calpain 10) appears to have a major role only in selected populations. Work is ongoing in many laboratories and multiple populations to map additional regions, but T2DM and other complex diseases have proved recalcitrant to current methodology. In addition to the ongoing progress in completing the genome sequence and in developing a comprehensive map of single nucleotide polymorphisms, new statistical models will be needed to incorporate the multiple loci with modest effect and the known environmental interactions that characterize the susceptibility to T2DM.
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PMID:Perspective: the search for genes for type 2 diabetes in the post-genome era. 1202 Nov 63

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