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 (type 1) diabetes mellitus (IDDM) is a multifactorial disease with a strong genetic component. The majority of the genetic component can be explained by associations between IDDM and genes in the major histocompatibility complex (MHC). The best single marker for IDDM is based on amino acid polymorphism of the HLA-DQ gene. Current evidence, however, indicates that the MHC susceptibility to IDDM is determined by a combination of HLA class I, II and III genes contained on HLA haplotypes. A non-MHC genetic component to IDDM also exists. To date, the most consistent association is between IDDM and markers of the insulin gene locus.
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PMID:The immunogenetics of insulin-dependent diabetes. 760 36

In the nonobese diabetic (NOD) mouse, susceptibility to insulin-dependent diabetes mellitus is in part controlled by a single expressed class II major histocompatibility complex (MHC) molecule, I-Ag7. This molecule probably exerts its control through the representation of a self-peptide, derived from an unknown beta cell antigen, leading to T cell activation and eventual islet destruction. In this paper, synthetic peptides have been used to compete for binding to the I-Ag7 molecule in an attempt to suppress the autoimmune response. The administration of an I-Ag7-binding immunogenic peptide, lambda repressor (cI) 12-26, in a water and oil emulsion (incomplete Freund's adjuvant) can prevent the transfer of IDDM into irradiated recipients by spleen cells from diabetic donors. Nonbinding, nonimmunogenic peptides have no effect in this situation. However, the immune response to the "blocking" peptide in these experiments was a complicating factor in interpreting the results. To establish that the effect was at the level of competition for MHC binding, two additional approaches were tried. First, tolerance was induced to the immunogenic peptide, cI 12-26, before using it to "block" disease. Tolerance abolished the effect on diabetes transfer. Second, an effort was made to identify peptides that were nonimmunogenic but that bound to I-Ag7. Such a peptide, mouse prostatic secretory glycoprotein precursor 63-76, had no effect on the incidence of transferred disease. We conclude that the "blocking" effects seen in initial experiments in the NOD mouse were not caused by blockade of MHC presentation, but by other unknown effects related to the immunogenicity of the "blocking" peptide.
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PMID:Prevention of insulin-dependent diabetes mellitus in nonobese diabetic mice by immunogenic but not by tolerated peptides. 765 Apr 94

We describe the induction and prevention of autoimmune insulin dependent diabetes mellitus (IDDM), and its pathological substrate, insulitis, in congenitally athymic nude rats following injections of major histocompatibility complex (MHC) compatible lymph node T cells. The cells capable of adoptive transfer of autoimmunity were obtained from diabetes resistant (DR) BB rats that had been rendered hyperglycemic by in vivo depletion of the RT6+ regulatory T cell subset. We first established that our adoptive transfer assay system is cell dose- and time dependent and therefore amenable to quantitative analysis. It was also observed that both CD4+ and CD8+ T cells are required for efficient transfer of autoimmunity. The data indicate that, as in the NOD mouse, a synergistic interaction between CD4+ and CD8+ T cells is important for beta cell destruction. Finally, we demonstrated that the admixture of equal numbers of lymph node T cells, 60% of which were RT6+, from intact, non-diabetic DR rats prevented the adoptive transfer of IDDM mediated by diabetogenic T cells from RT6-depleted DR-BB rats. We conclude that an equilibrium between autoreactive and regulatory cells determines the expression of autoimmunity in the DR-BB rat and in the adoptive transfer of diabetes in quantitative analytical systems.
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PMID:Adoptive transfer of autoimmune diabetes mellitus to athymic rats: synergy of CD4+ and CD8+ T cells and prevention by RT6+ T cells. 788 38

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

Insulin-dependent diabetes mellitus (IDDM) in NOD/Lt mice represents a complex polygenic disease. NOR/Lt is a recombinant congenic strain (RCS) in which limited regions of the NOD/Lt genome have been replaced by genome from the C57BL/KsJ strain. NOR mice are insulitis resistant and diabetes free despite genetic identity with NOD at numerous chromosomal regions containing previously described insulin-dependent diabetes (Idd) genes, including the strongly diabetogenic H2g7 major histocompatibility complex (MHC) haplotype. The present study revealed BKs-derived genome on segments of chromosomes (Chr) 1, 2, 4, 5, 7, 11, 12, and 18, approximating 11.6% of the total NOR genome analyzed. (NOD x NOR)F2 segregation analysis was employed to identify chromosomal regions in NOR containing Idd resistance alleles. IDDM developed in 33% (10/30) of F1 females, and 29.3% (36/123) of F2 females aged to 1 yr. A previously unrecognized diabetes resistance locus (designated Idd13r) strongly protective in homozygous state was identified on NOR Chr 2 in linkage with the Il1 alpha structural gene. The existence of this locus was confirmed by construction of a NOD stock congenic for NOR-derived markers on Chr 2. Our analysis shows the utility of RCS and congenic stocks for the identification and isolation of non-MHC genes with strong antidiabetogenic functions.
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PMID:Use of recombinant congenic and congenic strains of NOD mice to identify a new insulin-dependent diabetes resistance gene. 793 Oct 87

Insulin-dependent diabetes mellitus is a multigenic autoimmune disease, for which one of the best animal models is the nonobese diabetic (NOD) mouse strain. In both humans and NOD mice, major histocompatibility complex genes are implicated as risk factors in the disease process. Other susceptibility genes are also involved, and a number have been mapped in the mouse to specific chromosomal locations. To identify further susceptibility genes, diabetic backcross mice, produced after crossing NOD/Lt to the nondiabetic strains SJL and C57BL/6 (B6), were examined for markers not previously associated with disease susceptibility. Linkage was found to loci on chromosomes 4 and 14. Of the candidate loci on chromosome 4, the gene encoding the Na+/H+ exchanger-1, Nhe-1, was the most likely, since the NOD allele was different from that of both nondiabetic strains. NOD lymphocytes were found to have a higher level of Na+/H+ exchange activity than lymphocytes from either B6 or SJL mice. Since the chromosome 4 susceptibility gene is recessive, the B6 allele should prevent diabetes. This prediction was tested in fourth-generation backcross mice, selected for retention of the B6 allele at Nhe-1. Mice homozygous for Nhe-1 developed diabetes after cyclophosphamide treatment, but heterozygotes were largely protected from disease. These results implicate the Na+/H+ exchanger (antiporter) in the development of type 1 diabetes and may provide a screening test for at-risk individuals as well as offering prospects for disease prevention.
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PMID:Genetic and physiological association of diabetes susceptibility with raised Na+/H+ exchange activity. 801 86

The transporter associated with antigen processing (TAP) encoded in the major histocompatibility complex (MHC) class II region is a molecule required for endogenous antigen processing. We have typed TAP polymorphism in 95 Japanese patients with insulin-dependent diabetes mellitus (DDM) and 75 normal controls. Amino acid substitutions at positions 333 and 637 of TAP1 and at positions 379, 665, and 687 of TAP2 were typed by the polymerase chain reaction (PCR)-sequence-specific oligonucleotide method. In addition, DNA typing of human leukocyte antigen (HLA)-DQA1 and -DQB1 loci was performed by the PCR-restriction fragment length polymorphism method. There was no significant difference between IDDM patients and normal controls in the frequencies of TAP1 and TAP2 alleles. On the contrary, the HLA-DQ locus showed a strong association with IDDM in the same series of subjects. The frequencies of HLA-DQA1*0301 and -DQB1*0401 were increased significantly and those of HLA-DQA1*0103, -DQB1*0501, -DQB1*0601 and -DQB1*0602 were decreased significantly in Japanese IDDM patients compared with normal controls. Positive linkage disequilibrium was observed between HLA-DQB1*0303 and TAP2C and between HLA-DQB1*0401 and TAP2B. Negative linkage disequilibrium was observed between HLA-DQA1*0103 and TAP2A. Even when subjects with HLA-DQA1*0103, -DQA1*0301, -DQB1*0302, -DQB1*0303, and -DQB1*0401 were considered separately, no significant differences was found in the distribution of TAP1 and TAP2 alleles between IDDM patients and normal controls. We conclude that it is not TAP but HLA-DQ that exhibits a primary association with Japanese IDDM.
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PMID:Lack of association of the transporter associated with antigen processing with Japanese insulin-dependent diabetes mellitus. 805 40

We have searched the human genome for genes that predispose to type 1 (insulin-dependent) diabetes mellitus using semi-automated fluorescence-based technology and linkage analysis. In addition to IDDM1 (in the major histocompatibility complex on chromosome 6p21) and IDDM2 (in the insulin gene region on chromosome 11p15), eighteen different chromosome regions showed some positive evidence of linkage to disease. Linkages to chromosomes 11q (IDDM4) and 6q (IDDM5) were confirmed by replication, and chromosome 18 may encode a fifth disease locus. There are probably no genes with large effects aside from IDDM1. Therefore polygenic inheritance is indicated, with a major locus at the major histocompatibility complex.
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PMID:A genome-wide search for human type 1 diabetes susceptibility genes. 807 38

Cytokines have been regarded as effector molecules responsible for beta-cell death and major histocompatibility complex hyperexpression in endocrine pancreas of type I diabetes. However, the mechanism that results in beta-cell-selective destruction has not been elucidated. We demonstrated in this study, using cell lines of transformed mouse beta-cells and alpha-cells, that only pancreatic beta-cells but not alpha-cells produced tumor necrosis factor-alpha when exposed to interleukin-1 beta. Northern blot analysis confirmed the beta-cell-selective expression of tumor necrosis factor-alpha mRNA. Interleukin-1 beta also provoked tumor necrosis factor-alpha mRNA expression in vitro by normal mouse islet cells. Because tumor necrosis factor-alpha has been shown to potentiate beta-cell cytotoxicity of interleukin-1 and interferon-gamma, tumor necrosis factor-alpha produced in situ by beta-cells might be self-destructive. In fact, a low dose of interleukin-1 beta in combination with a low dose of interferon-gamma preferentially injured beta-cells. Hence endogenous tumor necrosis factor-alpha production by beta-cells may be involved in beta-cell-selective destruction in type 1 diabetes.
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PMID:Pancreatic beta-cell-selective production of tumor necrosis factor-alpha induced by interleukin-1. 809 83

The 12th International Immunology of Diabetes Workshop was held during April 1993 in Orlando, Florida, to review research progress since the 11th Immunology of Diabetes Workshop meeting in Nagasaki, Japan, one and a half years before. The NOD mouse may have as many as 10 susceptibility genes, including its novel IA major histocompatibility complex antigen and a defective interferon-gamma receptor, whereas human IDDM is so far known to be encoded by cis and trans complementation products of certain DQ genes on chromosome 6q, and a gene in the insulin-like growth factor II region on chromosome 11p. A unique protein regulator of the X box promotor of the highly susceptible DQB1*0302 allele has also been found. Islet cell antibody negative siblings of IDDM patients appear to have lower than expected abilities to secrete insulin in response to intravenous glucose. Sera from patients before and/or after developing IDDM immunoprecipitate two native proteins of 64,000- and 38,000-M(r) glutamic acid decarboxylase (GAD65) reacting to conformational epitopes. However, a multitude of other autoantibodies often reacting to denatured proteins through linear epitopes have also been identified. The first workshop for GAD antibody assays was successfully completed; however, the 38,000-M(r) antigen has not yet been identified. Other autoantibodies reactive to gangliosides and to sulfatides continue to be reported. Insulitis has come to be recognized as a sometimes protective event. Protective insulitis predominates in older lesions. It can be induced by as disparate means as tuberculin antigen administration, by interleukin-4 treatments, by transfer of T-cell lines generated in autologous mixed lymphocyte responses, and by immunization to insulin B-chain, whereas oral islet cell antigens, such as insulin, can delay diabetes onset in the NOD mouse.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:The 12th International Immunology and Diabetes Workshop. Orlando, Florida. 810 Jul 86

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