UMLS:C0011849 - FACTA Search

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Query: UMLS:C0011849 (diabetes)
277,896 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Recently, several studies have demonstrated that tumor necrosis factor microsatellite polymorphism (TNFalpha) contributes to the susceptibility of type 1 diabetes. This study investigates the influence of TNFalpha on the predisposition to insulin dependency in adult-onset diabetic patients with type 1 diabetes-protective human leukocyte antigen haplotypes. The TNFalpha of three groups of DRB1*1502DQB1*0601-positive diabetic patients who had initially been nonketotic and noninsulin dependent for more than 1 yr was analyzed. Group A included 11 antibodies to glutamic acid decarboxylase (GADab)-positive patients who developed insulin dependency within 4 yr of diabetes onset. Group B included 11 GADab-positive patients who remained noninsulin dependent for more than 12 yr. Group C included 12 GADab-negative type 2 diabetes, and a control group included 18 nondiabetic subjects. In the group C and control subjects, DRB1*1502-DQB1*0601 was strongly associated with the TNFalpha13 allele. DRB1*1502-DQB1*0601 was strongly associated with the TNFalpha12 allele among the group A patients, but not among the group B patients. Interestingly, sera from all patients with non-TNFalpha12 and non-TNFalpha13 in group B reacted with GAD65 protein by Western blot. These results suggest that TNFalpha is associated with a predisposition to progression to insulin dependency in GADab/DRB1*1502DQB1*0601-positive diabetic patients initially diagnosed with type 2 diabetes and that determination of these patients' TNFalpha genotype may allow for better prediction of their clinical course.
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PMID:Tumor necrosis factor microsatellite polymorphism influences the development of insulin dependency in adult-onset diabetes patients with the DRB1*1502-DQB1*0601 allele and anti-glutamic acid decarboxylase antibodies. 1099 32

Autoimmune polyendocrinopathy-candidiasis-ectodermal dystrophy (APECED) is caused by lack of functional products of the autoimmune regulator gene located on chromosome 21q22.3. The patients are at high risk of developing insulin-dependent (type 1) diabetes, but the positive predictive value of GAD65 or islet cell antibodies for type 1 diabetes is only 27%. Autoantibodies against the IA-2 tyrosine phosphatase-like protein (IA-2 ab) or insulin (IAA) have been suggested to be better markers for active ss-cell destruction. We studied these antibodies in sera from 60 Finnish patients with APECED, 12 of whom subsequently developed type 1 diabetes. Four (36%) of the 11 patients for whom we had prediabetic samples had IA-2 ab, and 4 (36%) had IAA. None of the 48 nondiabetics had IAA, and only 2 (4%) had IA-2 ab. Both had the antibodies for years without diabetes. Thus, IA-2 ab or IAA have a low sensitivity (36%), but high specificity (96% or 100%), with a positive predictive value of 67% for type 1 diabetes in patients with APECED. Data for human leukocyte antigen haplotypes were available for 59 of the patients, including 11 diabetics, and for 8 additional nondiabetic Finnish patients. No association between type 1 diabetes and high risk genotypes was seen. None of the 11 patients with type 1 diabetes, but 15 of the 56 (27%; P: < 0.05) nondiabetic patients and 24 of 93 (26%; P: < 0.05) of the control subjects had the DQB1*0602 allele, which is considered protective for type 1 diabetes. This is remarkable, as previously no positive or negative associations have been reported for any disease components of APECED with human leukocyte II antigens.
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PMID:ss-cell autoantibodies, human leukocyte antigen II alleles, and type 1 diabetes in autoimmune polyendocrinopathy-candidiasis-ectodermal dystrophy. 1113 89

The incidence of type 1 diabetes in Korea is less than 1/10th of that in the United States, and it has been suggested that human leukocyte antigen (HLA) alleles of Asian patients associated with diabetes differ from those of Caucasians. In this study we analyzed the common susceptibility and transmission pattern of a series of HLA DRB1-DQB1 haplotypes to Korean and Caucasian patients with type 1 diabetes. We performed HLA DR and DQ typing of 158 type 1 diabetic patients in a case control study, 140 nondiabetic subjects from the same geographical area, 49 simplex families from Seoul, and 283 families from the Human Biological Data Interchange. Although the haplotype frequencies in the two populations are quite different, when identical haplotypes are compared, their odds ratios are nearly the same. For all parental haplotypes, the transmission to diabetic offspring was similar for Korean and Caucasian families (r = 0.8; P: < 10(-)(4)). Allowing for ethnic differences in allelic associations due to different frequencies of DRB1 and DQB1 haplotypes (linkage disequilibrium), these data show, not only by case-control comparison but also by transmission analyses of the haplotypes, that the susceptibility effects of DRB1-DQB1 haplotypes are consistent in Koreans and Caucasians. Thus, the influence of class II susceptibility and resistance alleles appears to transcend ethnic and geographic diversity of type 1 diabetes.
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PMID:Common susceptibility and transmission pattern of human leukocyte antigen DRB1-DQB1 haplotypes to Korean and Caucasian patients with type 1 diabetes. 1113 5

Susceptibility to Graves' disease (GD), which is determined by environmental and genetic factors, is conferred by genes in the human leukocyte antigen (HLA) and genes unlinked to HLA, including the CTLA-4 gene. We recently described the association of GD with the vitamin D receptor (VDR) exon 2 initiation codon (VDR-FOK:I) polymorphism. An association of some VDR genotypes with osteoporosis, primary hyperparathyroidism, and some autoimmune diseases, such as insulin-dependent diabetes mellitus and multiple sclerosis, has been reported. We investigated the distribution of VDR gene polymorphism in 180 Japanese patients with GD (48 males and 132 females) and 195 controls (67 males and 128 females). A VDR allelic polymorphism was assessed by BSM:I endonuclease restriction after specific PCR amplification. Genotypic polymorphism was clearly defined as BB (no restriction site on both alleles), bb (restriction site on both alleles), or Bb (heterozygous). The distribution of genotype frequencies differed between patients with GD and controls (chi(2) = 7.53; 2 degrees of freedom; P: = 0.023). The relative risk conferred by at least 1 B allele (BB or Bb) was 1.5. We also found an association between VDR-APA:I polymorphism and GD. No relation was detected between this polymorphism and the VDR-FOK:I polymorphism in the patients. The present results support the association of the VDR gene with GD in Japanese by showing that the VDR gene could be a non-HLA-linked gene predisposing an individual to GD. The role of the VDR gene polymorphism should be further studied in other populations, and the distribution of other polymorphisms, such as the polyadenylase polymorphism further down the VDR 3'-untranslated region, should be studied in terms of GD susceptibility.
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PMID:Vitamin D receptor gene polymorphism is associated with Graves' disease in the Japanese population. 1113 21

Type 1 diabetes (T1D; or insulin-dependent diabetes mellitus, IDDM) is an autoimmune disease with both genetic and environmental components. In addition to the human leukocyte antigen (HLA) complex, the single major genetic contributor of susceptibility, an unknown number of other unidentified genes are required to mediate disease. Although many loci conferring susceptibility to T1D have been mapped, their identification has proven problematic due to the complex nature of this disease. Our strategy for finding T1D susceptibility genes has been to test for human homologues of loci implicated in diabetes-prone NOD (non-obese diabetic) mice, together with application of biologically relevant stratification methods. We report here a new susceptibility locus, IDDM18, located near the interleukin-12 (IL-12)p40 gene, IL12B. Significant bias in transmission of IL12B alleles was observed in affected sibpairs and was confirmed in an independent cohort of simplex families. A single base change in the 3' UTR showed strong linkage disequilibrium with the T1D susceptibility locus. The IL12B 3' UTR alleles showed different levels of expression in cell lines. Variation in IL-12p40 production may influence T-cell responses crucial for either mediating or protecting against this and other autoimmune diseases.
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PMID:Linkage disequilibrium of a type 1 diabetes susceptibility locus with a regulatory IL12B allele. 1117 71

Type 1A diabetes is an autoimmune disease with genetic and environmental factors contributing to its etiology. Twin studies, family studies, and animal models have helped to elucidate the genetics of autoimmune diabetes. Most of the genetic susceptibility is accounted for by human leukocyte antigen (HLA) alleles. The most-common susceptibility haplotypes are DQA1*0301-DQB1*0302 and DQA1*0501-DQB1*0201. Less-common haplotypes such as DQA1*0401-DQB1*0402 and DQA1*0101-DQB1*0501 are associated with high risk for diabetes; however, large study populations are needed to analyze their effect. The DQA1*0102-DQB1*0602 haplotype is associated with diabetes resistance. DR molecules, such as DRB1*1401, confer protection from diabetes. Monozygotic twins of patients with type 1A diabetes have a diabetes risk higher than that for HLA-identical ordinary siblings, suggesting that non-HLA genes contribute to diabetes risk. Polymorphisms in the regulatory region of the insulin gene (designated IDDM2), polymorphisms in cytotoxic T lymphocyte antigen-4 (CTLA-4) gene (IDDM12), and other genes are likely to contribute to diabetes risk and susceptibility in some individuals. In selected families, major diabetogenes (e.g., IDDM17, autoimmune regulator gene (AIRE)) are likely to be of importance. Other factors--either noninherited genes (i.e., somatic mutations and T-cell receptor or immunoglobulin rearrangements) or environment--may have a role in progression to diabetes. This is suggested by the finding that the risk for monozygotic twins of patients with type 1A diabetes is not 100 percent. Studying the genetics of type 1A diabetes will allow us to better define this disease, to improve our ability to identify individuals at risk, and to predict the risk of associated disorders.
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PMID:Genetics of type 1A diabetes. 1123 26

Type 1 diabetes mellitus is a common disease with a complex mode of inheritance. Its aetiology is underpinned by a major locus, insulin-dependent diabetes mellitus 1 (IDDM1) in the human leukocyte antigen (HLA) region of chromosome 6p21, and an unknown number of loci of lesser individual effect. In linkage analyses IDDM1 is a single peak, but it is evident that the linkage is caused by allelic variation of three adjacent genes in a 75 kb region, namely the class II genes, HLA-DRB1, -DQA1 and -DQB1. However, even these three genes may not explain all of the HLA association. We investigated, in the founder population of Sardinia, whether non-DQ/DR polymorphic markers within a 9.452 Mb region encompassing the whole HLA complex further influence the disease risk, after taking into account linkage disequilibrium with the disease loci HLA-DQB1, -DQA1 and -DRB1. We generalized the conditional association test, the haplotype method, to detect marker associations that are independent of the main DR/DQ disease associations. Three regions were identified as risk modifiers. These associations were not only independent of the polymorphic exon 2 sequences of HLA-DQB1, -DQA1 and -DRB1, but also independent of each other. The individual contributions of these risk modifiers were relatively modest but their combined impact was highly significant. Together, alleles of single nucleotide polymorphisms at the DMB and DOB genes, and the microsatellite locus TNFc, identified approximately 40% of Sardinian DR3 haplotypes as non-predisposing. This conditional analysis approach can be applied to any chromosome region involved in the predisposition to complex traits.
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PMID:Conditional linkage disequilibrium analysis of a complex disease superlocus, IDDM1 in the HLA region, reveals the presence of independent modifying gene effects influencing the type 1 diabetes risk encoded by the major HLA-DQB1, -DRB1 disease loci. 1128 54

It has been postulated that variation in the distribution of human leukocyte antigen (HLA)-encoded susceptibility alleles for insulin-dependent diabetes mellitus (IDDM) is the genetic basis for variation in the incidence of the disease between populations. The aim of this study was to characterize HLA-encoded susceptibility to IDDM in Hungary and to identify whether HLA-DRB1/DQ-encoded susceptibility could account for the five times lower incidence of disease in Hungary compared with Finland. The haplotypes DRB1*03-DQA1*05-DQB1*02 (DRB1*03-DQ2) and DRB1*04-DQA1*0301-DQB1*0302 (DRB1*04-DQ8) were significantly associated with disease in both populations. Three genotypes incorporating either or both of these haplotypes accounted for over 70% of the diabetic population in both races. The combined background frequency and the degree of risk as measured by odds ratios of these HLA-DRB1-DQ genotypes were not significantly different in the two countries. Comparison of the DRB1*0401-DQ8 haplotype between the two races suggested a role for HLA-B alleles in susceptibility. These data indicate that the susceptibility associated with high risk DRB1-DQ genotypes alone is insufficient to account for the fivefold variation in incidence of IDDM between Hungary and Finland. Other genetic and/or environmental influences must be involved.
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PMID:HLA alleles and IDDM in children in Hungary: a comparison with Finland. 1129 72

The human leukocyte antigen (HLA) system plays a crucial role in the autoimmune process leading to childhood diabetes. The purpose of this study was to evaluate the association between type 1 diabetes and the polymorphism encoded by the HLA-DQB1 gene by using case-parents trios. The study area was the metropolitan region of Santiago, Chile, and cases were ascertained from March 1997 to August 1998. Genotyping was performed in 94 trios comprising incident cases less than 17 years of age at the time of diagnosis and their parents. The transmission/disequilibrium test was used to detect differential transmission in the HLA-DQB1 locus. The authors found that alleles DQB1(*)0302 and DQB1(*)0201 were strongly associated with the disease. By using 1:3 matched sets of cases-pseudosibs and conditional logistic regression models, allelic relative risks were estimated for DQB1(*)0302 (r = 7.2, 95% confidence interval: 2.8, 18.5) and DQB1(*)0201 (r = 4.7, 95% confidence interval: 1.9, 11.6); DQB1(*)0301 was considered the baseline allele. When case-parents trios were used, alleles DQB1(*)0302 and DQB1(*)0201 were strongly associated with a higher risk of type 1 diabetes in the population of SANTIAGO:
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PMID:Association between HLA-DQB1 alleles and type 1 diabetes in a case-parents study conducted in Santiago, Chile. 1129 53

We established the detailed polymorphism of the 5'-flanking region and the first exon of the human leukocyte antigen (HLA)-DQB1 alleles. One hundred and forty-five Spanish rheumatoid arthritis (RA) patients and 200 healthy voluntary blood donors from southern Spain along with 42 B-cell lines were analyzed for the presence of the retrovirus-derived long terminal repeats (LTRs) LTR3, LTR5, and LTR13. LTR3 positivity was always associated with certain DQB1 alleles, i.e., *0302, *0402, *0601, *0202, and *0305. Sequencing analysis of the 5'-flanking region of DQB1*0301, *0303 and *0502 alleles in homozygous B-cell lines showed the absence of LTR3 and a massive deletion of 5635 base pairs. The undetected deletion in the flanking region of some DQB1 alleles and a lack of stratification for HLA typing explain previously reported associations of the LTR3 element with RA and type I diabetes (IDDM). LTR5 showed identical distribution to LTR3, consistent with a previously suggested LTR3-LTR5 tandem arrangement. LTR13 positivity was associated with DQB1*0302, *0303, and *0402 alleles. Distributions of the LTR elements in all B-cell lines, RA patients, and controls could be explained entirely by linkage disequilibrium with DQB1 alleles, independently of the haplotypes carrying them. LTR elements are known to regulate gene expression. Therefore, a possible involvement of LTR13 in the association of DQB1*0302, *0303, and *0402 with IDDM requires further investigation. The sequencing results of the DQB1 first exon demonstrated that DQB1*0601 was generated by a recombination event between a DR53 and a non-DR53 haplotype. Our results shed new light on the phylogeny of the HLA region and the possible contribution of DQB1 to susceptibility to autoimmunity.
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PMID:Distribution of HERV-LTR elements in the 5'-flanking region of HLA-DQB1 and association with autoimmunity. 1134 87

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