UMLS:C0011854 - FACTA Search

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Query: UMLS:C0011854 (type 1 diabetes)
20,749 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Insulin-dependent diabetes mellitus (IDDM) and Graves' disease (GD) are autoimmune endocrinopathies and associated with distinct HLA-DR and -DQ alleles as well as several tumor necrosis factor alpha (TNF-alpha) and beta (TNF-beta) alleles. TNF-alpha and TNF-beta interact with TNF receptor (TNF-R), of which two subtypes have been described: TNF-R1 and TNF-R2. We investigated TNF-R2 alleles in 90 patients with IDDM, 101 with GD and 70 healthy controls. Genomic DNA was amplified with specific flanking primers for the untranslated 3' region of TNF-R2. SSCP analysis revealed two alleles by different fragment patterns: TNF-R2*1 and TNF-R2*2. Patients with IDDM or Graves' disease and controls did not differ significantly: TNF-R2*1/*1:IDDM(8%)/GD(2%)/KO(4%); TNF-R2*2/*2:IDDM(34%)/GD(48%)/KO(42%), heterozygosity TNF-R2*1/*2:IDDM(58%)/GD(50%)/KO(54%) (IDDM vs KO: P=0.46, chi2=1.57; GD vs KO: P=0.59, chi2=1.05). In conclusion, the studied polymorphism of TNF-R2 was associated with neither IDDM nor GD in a German population.
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PMID:Polymorphisms of tumor necrosis factor receptor 2 are not associated with insulin-dependent diabetes mellitus or Graves' disease. 917 53

In 27 patients with uncontrolled type 1 diabetes the changes of the endogenous TNF alpha serum concentration in correlation with blood glucose level were investigated. In the first 24 hours period, the concentration of glucose was analysed in the following way: immediately after the admission, next every hour for three hours and then after 6, 9, 12, 18 and 24 hours. In the followed days the blood glucose was determined five times a day. The serum concentration of endogenous TNF alpha was monitored immediately after the admission, after first hour of treatment and next after 6, 24, 72 hours. The control group consisted of 23 healthy persons. Glycaemia level and TNF alpha concentration were analyzed with Student-1 test for combined variables and the correlation Spearmann test. The level of TNF alpha markedly decreases together with the decrease of blood glucose level in each patient. The level of TNF correlates with the level of glycaemia (linear correlation). The results presented above unequivocally show that there is a correlation between endogenous TNF alpha and glucose level in serum of the patients with type 1 diabetes (at the decompensation stage of the disease).
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PMID:[Monitoring of changes in levels of endogenous TNF alpha in patients with uncontrolled insulin dependent diabetes mellitus]. 941 20

We analyzed 11 markers in the IDDM1 region in 120 IDDM patients and 83 healthy control subjects who were fully matched for the highest risk HLA-DQA1*0301-DQB1 *0302/DQA1*0501-DQB1*0201 genotype. Our study provides strong evidence that two regions in the major histocompatibility complex contribute to IDDM susceptibility or protection. First, despite selection for highest IDDM-associated risk DQ genotypes, this region displays extensive linkage disequilibrium (LD) differences between IDDM patients and control subjects. A second critical region was mapped around the microsatellite locus D6S273 centromeric of TNF, and it is approximately 200 kb in size. LD analysis shows that "diabetogenic haplotypes" may have resulted from a recombination telomeric of D6S1014 in the region of D6S273 and TNFa. Haplotype analysis using HLA and microsatellite loci refines IDDM risk assessment in carriers of the HLA-DQ highest risk genotype.
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PMID:Genetic structure of IDDM1: two separate regions in the major histocompatibility complex contribute to susceptibility or protection. Belgian Diabetes Registry. 951 23

Recent reports suggest that the pancreas participates in tumor necrosis factor alpha (TNF-A) production during stress, and that the islets are predominantly responsible for such synthesis. In vitro TNF-A and interleukin 1-beta (IL-1-beta) inhibit insulin release from islet beta-cells. We measured the circulating levels of IL-1-beta, TNF-A and islet cell antibody (ICA) in 30 children with IDDM (10 of them at their first presentation), 30 of their non-diabetic siblings, and 30 normal age-matched children. In the non-diabetic children we investigated the early phase of insulin release after intravenous bolus of glucose and evaluated tolerance to oral glucose (OGTT). IL-1-beta and TNF-A concentrations were significantly higher in IDDM-siblings (31.8 +/- 7.7 pg/ml and 650 +/- 155 pg/ml respectively) versus normal children (21.2 +/- 6.4 pg/ml and 383 +/- 122 pg/ml respectively). IL-1-beta and TNF-A concentrations did not differ significantly between the diabetic children and healthy age-matched controls. ICA were detected in 60% of the recently diagnosed diabetic children vs. 30% of those with longer duration of diabetes (3.1 +/- 1.2 years). Despite the significantly high prevalence of ICA in the recently diagnosed children with IDDM, their IL-1-beta and TNF-A concentrations were lower than those for the normal children. In experimental animals these cytokines can induce round cell infiltration (insulinitis) and inhibit insulin secretion by beta-cell. The presence of significantly higher concentrations of these cytokines in IDDM siblings, with high prevalence of ICA (16%), was associated with normal oral glucose tolerance and normal peak insulin response (60 +/- 10.4 mlU/ml) after i.v. glucose bolus compared to normal children (52.3 +/- 9.5 mlU/ml). However, after 2 years of follow up, one of them developed IDDM and another developed IGT but none of the normal controls developed abnormal glucose tolerance. It appears that the process of autoimmune aggression against beta-cells, and its effect on insulin release and glucose homeostasis, is a slow and chronic process. However, the production of these cytokines and consequently the degree of beta-cell destruction, in a genetically susceptible subject, might be enhanced by several factors including viral infections. In summary, IL-1-beta and TNF-A levels can be used as indicators of continuing autoimmune aggression against beta-cells before the development of extensive beta-cell destruction.
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PMID:Interleukin-1-beta, tumor necrosis factor-alpha, insulin secretion and oral glucose tolerance in non-diabetic siblings of children with IDDM. 1077 98

Although MHC class II genes have a stronger association with type 1 diabetes than MHC class I genes, studies have shown that MHC class I molecules play an independent role in the etiology of type 1 diabetes, and the existence of susceptibility genes within a segment of MHC between the HLA-B and TNF genes has been predicted, where MHC class I chain-related gene A (MICA) resides. MICA has a triplet repeat polymorphism in the transmembrane region consisting of five alleles. We analyzed this polymorphism in 162 unrelated children (82 boys) with type 1 diabetes (age at diagnosis 7.01 +/- 3.76 yr) and 154 randomly selected unrelated children (87 boys), age 2.81 +/- 2.12 yr. Phenotype frequency of allele A9 in children with type 1 diabetes was significantly higher than in controls (RR = 2.42, 95% CI = 1.52-3.85, p = 0.000162, pc = 0.00081). Gene frequency of allele A9 was also significantly higher in children with type 1 diabetes when compared with control children (RR = 2.73, 95% CI = 1.85-4.03, p = 2.62 x 10(-7), pc = 1.31 x 10(-6)). This study demonstrates that MICA allele A9 confers risk of type 1 diabetes.
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PMID:Polymorphism in the transmembrane region of the MICA gene and type 1 diabetes. 1080 66

In the cascade hormone--second messenger--cellular G-proteins (GTP binding proteins), impairment can occur also at the last step: Mutant G-proteins may amplify the response (e.g. hypophyseal and thyroid adenomas) or reduce it (pseudohypoparathyreosis, testitoxicosis). Other new group of diseases appears to be anexinopathy: Among anexins belong also lippocortins and impairments occur in the hemocoagulation. "Reverse endocrinology" is a process description when the recognition of receptor (called an "orphan receptor") comes earlier than that of the hormone: Such receptors are known for several steroid hormones, retinoids and eicosanoids and it appears they are important also in the metabolism of cholesterol. A single antigen--glutamic acid decarboxylase (GAD), can cause autoimmune disease as the immuno-dependent diabetes (IDDM). Treatment of the skin T-cell lymphoma by some retinoids can result in hypothyroidism. Retrotransposones are example of the human genome modification with yet unknown clinical manifestations. Hepatocytal growth factor reveals to be the hope for treatment of cirrhosis. Search for effective peroral insulin substitutes is at present based on testing of various metabolites of fungi. Antibodies against TNF (tumor necrosis factor) become tested as "anti-cytokine therapy" in patients with rheumatoid arthritis. Some other suggestions for new ways of treatment is also listed, including the intranasal administration of estradiol.
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PMID:[Endocrinology 1998-1999]. 1083 33

TNF-alpha is a proinflammatory cytokine that has been implicated in the severity of different immune-regulated diseases including autoimmune diseases and transplantation. The gene for TNF-alpha is located within the MHC region on chromosome 6p21.3. This is a highly polymorphic region, and the TNF-alpha itself contains a large number of polymorphisms. Some of these polymorphisms form extended haplotypes with the HLA class I and II alleles. TNF polymorphisms have been investigated in different diseases and most often whenever there is an HLA association with the disease (for example IDDM and RA) association(s) with TNF polymorphisms has been described. There are many studies on the function of the TNF polymorphisms showing the influence of the different alleles on the in vitro and in vivo levels of TNF production. However, recent studies in animal models suggest that not only polymorphisms within the TNF cluster are important in the regulation of TNF production but also the receptors as well (TNF R). This suggests that investigating polymorphisms within the TNF cluster and TNF receptors will be important in understanding the role of TNF regulation in a given disease.
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PMID:TNF-alpha gene polymorphism: clinical and biological implications. 1089 87

Several studies have indicated that additional genes in the major histocompatibility complex (MHC) region, other than the class II genes HLA-DQB1 and -DRB1 (the IDDM1 locus), may contribute to susceptibility and resistance to type 1 diabetes. The relative magnitude of these non- DR/DQ effects is uncertain and their map location is unknown owing to the extraordinary linkage disequilibrium that extends over the 3.5 Mb of the MHC. The homozygous parent test has been proposed as a method for detection of additional risk factors conditional on HLA-DQB1 and -DRB1. However, this method is inefficient since it uses only parents homozygous for the primary disease locus, the DQB1-DRB1 haplotype. To overcome this limitation, Conditional ETDT was used in the present report to test for association conditional on the DQB1-DRB1 haplotype, thereby allowing all parents to be included in the analysis. First, we confirm in UK and Sardinian type 1 diabetic families that allelic variation at HLA-DRB1 has a very significant effect on the association of DQB1 and vice versa. The Conditional ETDT was then applied to the HLA TNF (tumour necrosis factor) region and microsatellite marker D6S273 region, both of which have been reported to contribute to IDDM1 independent of the HLA-DQB1-DRB1 genes. We found no evidence for a major role for either of these two regions in IDDM1.
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PMID:Conditional ETDT analysis of the human leukocyte antigen region in type 1 diabetes. 1124 73

Insulin-dependent diabetes mellitus results from T-cell-mediated destruction of pancreatic islet beta cells. Both CD4 and CD8 T cells have been shown to be independently capable of beta cell destruction. However, the mechanism of beta cell destruction has remained elusive. It has previously been shown that the absence of TNF-alpha receptor 1 (p55) on the islets protected islets from CD4 T-cell-mediated destruction as long as the T cells did not have access to wild-type islets in vivo. Wild-type and TNF-alpha receptor 1 (p55) deficient islets induce similar levels of proliferation of BDC2.5 T cells. In this study, we demonstrate that islet TNF-alpha receptor 1 (p55) influences the expression of LIGHT (TNFSF-14), a TNF family member with both cytolytic and costimulatory properties, on BDC2.5 T cells and the expression of its receptor HVEM (TNFRSF-14) by islets, indicating a role for LIGHT-HVEM interactions in autoimmune diabetes.
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PMID:TNF-alpha receptor 1 (p55) on islets is necessary for the expression of LIGHT on diabetogenic T cells. 1146 49

Insulin-dependent diabetes mellitus (IDDM), also known as type 1 diabetes, is an organ-specific autoimmune disease resulting from the destruction of insulin-producing pancreatic beta cells. The hypothesis that IDDM is an autoimmune disease has been considerably strengthened by the study of animal models such as the BioBreeding (BB) rat and the nonobese diabetic (NOD) mouse, both of which spontaneously develop a diabetic syndrome similar to human IDDM. Beta cell autoantigens, macrophages, dendritic cells, B lymphocytes, and T cells have been shown to be involved in the pathogenesis of autoimmune diabetes. Among the beta cell autoantigens identified, glutamic acid decarboxylase (GAD) has been extensively studied and is the best characterized. Beta cell-specific suppression of GAD expression in NOD mice results in the prevention of IDDM. Macrophages and/or dendritic cells are the first cell types to infiltrate the pancreatic islets. Macrophages play an essential role in the development and activation of beta cell-cytotoxic T cells. B lymphocytes play a role as antigen-presenting cells, and T cells have been shown to play a critical role as final effectors that kill beta cells. Cytokines secreted by immunocytes, including macrophages and T cells, may regulate the direction of the immune response toward Th1 or Th2 as well as cytotoxic effector cell or suppressor cell dominance. Beta cells are destroyed by apoptosis through Fas-Fas ligand and TNF-TNF receptor interactions and by granzymes and perforin released from cytotoxic effector T cells. Therefore, the activated macrophages and T cells, and cytokines secreted from these immunocytes, act synergistically to destroy beta cells, resulting in the development of autoimmune IDDM.
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PMID:Cellular and molecular pathogenic mechanisms of insulin-dependent diabetes mellitus. 1179 11

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