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)

The non-obese diabetic (NOD) mouse is an animal model of human insulin dependent diabetes mellitus (IDDM). In this strain, the serum concentration of tumor necrosis factor-alpha (TNF alpha) after OK432 (a streptococcal preparation) stimulation is much lower than in any other non-diabetic control strain. Female NOD mice which have a higher incidence of diabetes have significantly lower TNF alpha level (6.5 +/- 4 U/ml, mean +/- SEM) than do male NOD mice (21 +/- 5 U/ml) (P < 0.02) which have lower incidence of diabetes. On the basis of these results, we designed a prospective study to evaluate the relationship between the serum TNF alpha concentration and the incidence of diabetes in individual male NOD mice. Mice were studied until 30 weeks of age. During this period four of eight mice with a low TNF alpha level (TNF alpha < or = 1.1 U/ml) became diabetic, whereas none of eighteen mice with a high TNF alpha level (TNF alpha > 1.1 U/ml) developed overt diabetes. These results indicate that by measuring of endogeneous TNF alpha level after stimulation by OK432, one could predict IDDM in male NOD mice.
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PMID:Prediction of insulin dependent diabetes mellitus in non-obese diabetic mice by the endogeneous tumor necrosis factor-alpha level. 128 40

HLA antigens have been shown to be associated with several immunoinflammatory diseases. The mechanisms by which these antigens confer susceptibility to disease continue to be of major interest. Rapid progress has been made in the elucidation of the structure and function of class I and II MHC molecules, and several genes located within the HLA complex have been identified which are potentially involved in immunologic processes. Because of the HLA localization of the TNF-alpha and -beta genes and the biologic activities of the gene products, recent investigation has focused on a possible role of polymorphic TNF genes in the pathogenesis of HLA-associated diseases. Allelic variations have only been detected in the TNF-beta gene. No evidence has been found so far that a particular TNF-beta allele contributes significantly in the susceptibility to the diseases studied. Although it has been postulated that the TNF beta*2 allele contributes to susceptibility to IDDM in HLA-DR3, 4 heterozygous individuals, a larger group of HLA-typed patients and controls is needed to provide more conclusive evidence for this hypothesis. The increasing number of genes of unknown function encoded by the class III region leaves the possibility that the observed HLA associations in some diseases may be related to the presence of these genes. In AS, the lack of association with the TNF-beta alleles furthermore supports the function of the HLA-B27 molecule in the disease and underlines the improbability that HLA-B27 is merely a marker for a closely linked susceptibility gene.
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PMID:Polymorphism of the tumor necrosis factor region in relation to disease: an overview. 134 86

The major histocompatibility complex (MHC) contains multiple and diverse genes which may be relevant to the induction and regulation of autoimmune responses in insulin dependent diabetes mellitus (IDDM). In addition to HLA class I and II, the possible candidates include TNF, C4, and several other poorly defined polymorphic genes in the central MHC region. This study describes two approaches which take advantage of the fact that the relevant genes are carried by highly conserved ancestral haplotypes such as 8.1 (HLA-B8, TNFS, C4AQ0, C4B1, DR3, DQ2). First, three "diabetogenic" haplotypes (two Caucasoid and one Mongoloid) have been compared and it has been shown that all three share a rare allele of BAT3 as well as sharing DR3, DQ2. In 43 sequential patients with IDDM the cross product ratio for BAT3S was 4.8 (p less than 0.01) and 6.9 for HLA-B8 plus BAT3S (p less than 0.001). Second, partial or recombinant ancestral haplotypes with either HLA class I (HLA-B8) or II (HLA-DR3, DQ2) alleles were identified. Third, using haplotypic polymorphisms such as the one in BAT3, we have shown that all the patients carrying recombinants of the 8.1 ancestral haplotype share the central region adjacent to HLA-B. These findings suggest that both HLA and non-HLA genes are involved in conferring susceptibility to IDDM, and that the region between HLA-B and BAT3 contains some of the relevant genes. By contrast, similar approaches suggest that protective genes map to the HLA class II region.
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PMID:Ancestral haplotypes reveal the role of the central MHC in the immunogenetics of IDDM. 135 98

We have analyzed the roles of tumor necrosis factor alpha (TNF-alpha) in human systemic lupus erythematosus (SLE) and murine models of lupus as well as in type 1 diabetes in NOD mice. These studies suggest an important role for TNF-alpha in the pathogenesis of autoimmune disease. Rather than being involved mainly in the effector arm of the inflammatory process of autoimmune organ destruction, our data suggest a primary involvement in some of the basic mechanisms of the autoimmune process. Evidence has been presented that emphasizes the possibility of the involvement of this cytokine in the genetic predisposition to SLE. The data may imply that the effect of TNF on the immune system may be more relevant to the pathogenesis of the autoimmune disease than direct local effects at some target organs. Based on the data presented, one should be cautious in extrapolating the effects of this cytokine in various in vitro systems to the in vivo situation.
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PMID:Studies on the role of tumor necrosis factor in murine and human autoimmunity. 150 8

48 Tunisian people suffering from the IDDM auto-immune disease were compared to 35 control healthy persons for the polymorphisms of the complement BF, C2 and C4 proteins and genes, of the IgG (Gm allotypes) as well as of the TNF alpha and TCR C beta genes. Our study shows that the BFF1-C4A3-C4BQO and BFS-C4AQ0-C4B1 complotypes are associated to IDDM (RR of 2.97 and 3.07 respectively), as previously reported for other circummediterranean populations. The frequency of the Gm 21.28; 1.17; .. haplotype is increased, but not significantly, among the patients. The RFLP analysis reveals that the 2.65 kb SacI allelic restriction fragment of the C2 gene may be considered as a genetic marker of susceptibility to IDDM because its frequency raises to 0.206 among the patients vs 0.021 in the healthy individuals (p less than 0.001). The frequencies of the C4AQ0 and C4BQ0 alleles are more important among the IDDM patients than within the control sample, but the only C4BQ0 allele frequency is significantly increased. Both C4AQ0 and C4BQO result mainly from deletions. The frequencies of the allelic restriction fragments of the TNF alpha and TCRC beta genes are not significantly different among the patients and the controls. But the small sample size don't allow us to conclude definitively. It would be very interesting to extend the RFLP analysis to the TCR V beta and V alpha gene regions on more numerous samples.
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PMID:[Immunogenetic markers (BF, C2, C4, 21-OH, TNF alpha, TCR beta, Ig) and insulin-dependent diabetes in the Tunisian population: serological and molecular study]. 168 90

New immunogenetic markers are demonstrated for type 1 diabetes mellitus, Graves' disease and Hashimoto's thyroiditis. These markers are detected by restriction fragment length polymorphism (RFLP) analysis of HLA-D region genes and genes for the tumor necrosis factor alpha (TNF alpha). By analysing haplotypes transmitted to diabetic probands in families and comparing them with haplotypes that are only transmitted to healthy siblings it is shown that DQw8-DQB1 gene variation is important for susceptibility on DR4 haplotypes. Analysis of this DQw3 split in patients with Hashimoto's thyroiditis reveals that the other DQB1 gene variation, namely DQw7, displays the strongest association with Hashimoto's thyroiditis. This DQB1 variation has several implications for susceptibility and/or pathogenesis of both autoimmune endocrine diseases. Novel polymorphisms for TNF alpha are detected and it is shown that heterozygosity for TNF polymorphisms is significantly associated with type I diabetes and Graves' disease. Furthermore, DR4 haplotypes transmitted to diabetic probands possess significantly more the 10.5 Kb fragment in contrast to DR4 haplotypes transmitted only to healthy family members. This genetic polymorphism raises functional issues in susceptibility to autoimmune disease and can lead to a new explanation of the enigmatic HLA-association with a variety of diseases.
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PMID:Immunogenetic markers for autoimmune diseases of the endocrine system. 197 65

IL-1 and TNF alpha are assumed to be major mediators of islet cell destruction during the pathogenesis of type 1 diabetes. Here we show by neutralization of the two cytokines with excess antibody that IL-1 and TNF alpha do not contribute to the cytotoxic activity of activated macrophages towards isolated islet cells. However, islet cells can be protected from lysis by depleting the culture medium of L-arginine or by adding the antagonist NG-monomethyl-L-arginine, both of which inhibit the generation of nitric oxide by activated macrophages. These results indicate a role of nitric oxide or its equivalent, the endothelium-derived relaxing factor in the development of type 1 diabetes. This is the first report showing that nitric oxide may damage normal cells and thus may be a hitherto unrecognized pathogenetic factor in tissue inflammation and autoimmune disence.
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PMID:Activated macrophages kill pancreatic syngeneic islet cells via arginine-dependent nitric oxide generation. 202 50

Anti-class II ag mAb (DR and DQ) inhibited, in a dose-dependent manner, LPS-induced IL-1 and TNF secretions from human monocytes (34 to 95% inhibition). The potentiating effect of IFN-gamma on LPS-induced TNF secretion (15.3 +/- 0.7 to 44 +/- 0.6 ng/ml) was also blocked by anti-class II ag mAb (44 +/- 0.6 to 0.3 +/- 0.03 ng/ml). We also report a relationship between interindividual differences in monocyte IL-1 and TNF secretions and the HLA-D-encoded genetic polymorphism. Heterozygotes were, in general, higher secretors of those cytokines than homozygotes. Analysis of these secretions in heterozygotes demonstrated a differential effect of certain haplotype combinations (i.e., DR2-DR4 vs DR2-DR3) that could be arbitrarily characterized as being "low" or "high" secretors (6,230 +/- 2,950 vs 13,029 +/- 6,541 cpm for IL-1, and 12 +/- 10 vs 25 +/- 15 ng/ml for TNF, p = 0.006 and 0.048). DR-associated Dw subtypes appeared to account for differences within certain haplotype combinations (Dw18 vs Dw19 in DRw13/DR4) (11,227 +/- 3,648 vs 17,166 +/- 3,176 cpm for IL-1, and 13 +/- 9 vs 25 +/- 10 ng/ml for TNF, p = 0.02 and 0.047). Interindividual differences were better explained by differences in LPS sensitivity than by differences in the kinetics of secretion and related not to the secretory process itself but to the rate of cytokine synthesis. Finally, there were no relationships between high secretor genotypes and IDD high risk genotypes. Thus, we conclude that, a) LPS-induced IL-1 and TNF secretions are, at least in part, regulated by class II MHC molecules, b) that HLA-D region-encoded genetic polymorphism accounts for interindividual differences in these secretions, and c) that the HLA-associated risk to develop IDD is not explained by these cytokine secretory differences as previously proposed.
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PMID:Involvement of class II MHC molecules in the LPS-induction of IL-1/TNF secretions by human monocytes. Quantitative differences at the polymorphic level. 278 51

Study of two diseases with autoimmune characteristics (IDDM and SLE) has demonstrated that alleles carried in the MHC can confer disease susceptibility. The MHC alleles most strongly associated with the development of IDDM are encoded within the class II region (HLA-DR or -DQ). Recent studies indicating that the class III gene products TNF alpha and beta may play a critical role in the initiation of the autoimmune attack on the pancreatic beta-cells have suggested the possibility that the class III region may also contribute to genetic susceptibility in IDDM. In SLE, although there is some evidence suggesting that certain alleles of class II genes may confer disease risk, a more striking association has been detected in the class III region. Deficiency of the class III encoded C4A molecule (either homozygously or heterozygously) shows a high correlation with disease risk. This finding is attractive because C4A plays a central role in the metabolism of immune complexes, the aberrant deposition of which leads to the most prominent alterations in SLE.
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PMID:The major histocompatibility complex and autoimmunity. 332 10

We have used genomic analysis to characterize a region of the central major histocompatibility complex (MHC) spanning approximately 300 kilobases (kb) between TNF and HLA-B. This region has been suggested to carry genetic factors relevant to the development of autoimmune diseases such as myasthenia gravis (MG) and insulin dependent diabetes mellitus (IDDM). Genomic sequence was analyzed for coding potential, using two neural network programs, GRAIL and GeneParser. A genomic probe, JAB, containing putative coding sequences (PERB11) located 60 kb centromeric of HLA-B, was used for northern analysis of human tissues. Multiple transcripts were detected. Southern analysis of genomic DNA and overlapping YAC clones, covering the region from BAT1 to HLA-F, indicated that there are at least five copies of PERB11, four of which are located within this region of the MHC. The partial cDNA sequence of PERB11 was obtained from poly-A RNA derived from skeletal muscle. The putative amino acid sequence of PERB11 shares approximately 30% identity to MHC class I molecules from various species, including reptiles, chickens, and frogs, as well as to other MHC class I-like molecules, such as the IgG FcR of the mouse and rat and the human Zn-alpha 2-glycoprotein. From direct comparison of amino acid sequences, it is concluded that PERB11 is a distinct molecule more closely related to nonmammalian than known mammalian MHC class I molecules. Genomic sequence analysis of PERB11 from five MHC ancestral haplotypes (AH) indicated that the gene is polymorphic at both DNA and protein level. The results suggest that we have identified a novel polymorphic gene family with multiple copies within the MHC.
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PMID:A new polymorphic and multicopy MHC gene family related to nonmammalian class I. 792 38

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