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)

It has been speculated that stressful life events can precipate some autoimmune diseases by altering the immune system. This study was undertaken to test this hypothesis in type I (insulindependent) diabetes. Thirty-two young patients (less than 40 years) with a recently diagnosed IDDM and 53 age-matched controls were interviewed according to a standardized questionnaire designed to identify, date, and weigh past stressful life events. In patients immunological status was assessed during the six months following the first manifestation of the disease by measuring anti-organ and anti-islet cell antibodies, T lymphocyte subsets, PHA mitogenic activity, IL2 production by blood mononuclear cells, IgG, IgA, IgM, and C3, C4 component fraction levels. The diabetic population experienced fewer life events, stressful or non-stressful, but in the 12 months preceding the onset of the disease, 50% of the diabetics endured at least one stressful life event as against only 18.8% of the controls (p less than 0.01). The only difference in the immunological status of the patients who had experienced a stressful life event in the previous twelve months and those that had not, involved PHA mitogenic activity which was significantly lower after a stressful event. While these findings do attest to a temporal relation between stress and type I diabetes in at least 1 out of 2 patients, they do not establish a causative connection.
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PMID:Stress antecedents and immune status in recently diagnosed type I (insulindependent) diabetes mellitus. 265 29

One of the strongest non-MHC susceptibility genes for type 1 diabetes, Idd3, has been mapped to a 0.15-cM segment of chromosome 3, where a strong candidate gene, Il2, encoding cytokine IL2, is located. To prove that the NOD allele of Il2 is responsible for the Idd3 effect, it is necessary to find a recombinant chromosome with the NOD allele of Il2, but with different flanking markers from NOD mice, and to demonstrate that NOD mouse strains that are congenic for the recombinant Il2 region develop type 1 diabetes with similar incidence and age at onset of the disease. As a first step in this approach, we searched for recombinant Il2 region in NOD-related strains derived from the same outbred colony, Jcl:ICR. The same Il2 allele as is found in the NOD mouse was found in four out of seven NOD-related strains, indicating that the NOD allele of Il2 is common in NOD-related strains. One of these strains, IIS, was found to have a recombinant Il2 region with the same Il2 allele as the NOD, but different alleles at flanking markers from the NOD mouse. A preliminary study on a NOD strain congenic for the Il2 region of IIS has shown that the Il2 region of IIS confers susceptibility to type 1 diabetes, suggesting that Il2 may be responsible for the Idd3 effect.
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PMID:Genetic dissection of type 1 diabetes susceptibility gene, Idd3, by ancestral haplotype congenic mapping. 1202 Nov 34

We describe in detail the labelling of interleukin-2 with I ( I-IL2), its biochemical characterization, the binding assay and its use for the detection of tissues infiltrated with mononuclear cells. Human recombinant IL2 was labelled using an enzymatic method and its biochemical characterization was performed using high performance liquid chromatography (HPLC) analysis of cyanogen bromide-cleaved protein. biological and binding assays were performed on CTLL-2 cell line and on activated peripheral blood lymphocytes. studies were performed 1 h after administration of 2-3 mCi of I-IL2 in 10 newly diagnosed type 1 diabetes patients, five pre-diabetic patients, 10 Hashimoto's thyroiditis patients, 10 coeliac disease patients and 10 normal volunteers. I-IL2 scintigraphy allowed the detection and quantification of activated mononuclear cells in several affected tissues. In detail, I-IL2 accumulation was detected in the thyroid of all patients affected by Hashimoto's thyroiditis, in the bowel of all coeliac disease patients and in the pancreas of all pre-type 1 diabetic patients. By contrast, in newly diagnosed type 1 diabetics, I-IL2 scan was positive in five of the 10 studied patients. I-IL2 scintigraphy may be useful for studying autoimmune phenomena and in diagnostic protocols to evaluate the presence of other tissue involvement in patients with an organ-specific autoimmune disease.
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PMID:123I-Interleukin-2: biochemical characterization and in vivo use for imaging autoimmune diseases. 1261 72

The identification of causative genes for the autoimmune disease type 1 diabetes (T1D) in humans and candidate genes in the NOD mouse has made significant progress in recent years. In addition to sharing structural aspects of the MHC class II molecules that confer susceptibility or resistance to T1D, genes and pathways contributing to autoimmune pathogenesis are held in common by the two species. There are data demonstrating a similar need to establish central tolerance to insulin. Gene variants for the interacting molecules IL2 and CD25, members of a pathway that is essential for immune homeostasis, are present in mice and humans, respectively. Variation of two molecules that negatively regulate T cells, CTLA-4 and the tyrosine phosphatase LYP/PEP, are associated with susceptibility to human and NOD T1D. These observations underscore the value of the NOD mouse model for mechanistic studies on human T1D-associated molecular and cellular pathways.
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PMID:Type 1 diabetes genes and pathways shared by humans and NOD mice. 1625 8

Recently, association of celiac disease with common single-nucleotide polymorphism (SNP) variants in an extensive linkage-disequilibrium block of 480 kb containing the KIAA1109, Tenr, IL2, and IL21 genes has been demonstrated in three independent populations (rs6822844P combined=1.3 x 10(-14)). The KIAA1109/Tenr/IL2/IL21 block corresponds to the Idd3 locus in the nonobese diabetic mouse model of type 1 diabetes (T1D). This block was recently found to be associated with T1D in a genomewide association study, although this finding lacks unequivocal confirmation. We therefore aimed to investigate whether the KIAA1109/Tenr/IL2/IL21 region is involved in susceptibility to multiple autoimmune diseases. We tested SNP rs6822844 for association with disease in 350 T1D-affected and 1,047 rheumatoid arthritis (RA)-affected Dutch patients and in 929 controls. We replicated the association with T1D (P=.0006; OR 0.64 [95% CI 0.50-0.83]), and revealed a similar novel association with RA (P=.0002; OR 0.72 [95% CI 0.61-0.86]). Our results replicate and extend the association found in the KIAA1109/Tenr/IL2/IL21 gene region with autoimmune diseases, implying that this locus is a general risk factor for multiple autoimmune diseases.
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PMID:Novel association in chromosome 4q27 region with rheumatoid arthritis and confirmation of type 1 diabetes point to a general risk locus for autoimmune diseases. 1799 65

Interleukin-2 (IL-2) plays an established role in T-cell regulation through binding to the high-affinity IL-2 receptor (IL-2R). The alpha-chain encoded by the IL2RA (CD25) gene is a substantial component of the high-affinity receptor molecule highly expressed by activated T lymphocytes. Recently, a strong evidence was obtained for the involvement of IL-2RA in conferring susceptibility to type 1 diabetes (T1D). Significant association with T1D was also found in the region on chromosome 4q27 containing the IL2 gene and homologous to the susceptibility locus idd3 in non-obese diabetic (NOD) mice, an animal model for human T1D. Here we focus on the discussion of these new findings suggesting for a crucial role of IL-2/IL-2RA-mediated regulatory mechanisms in preventing T1D. The non-redundant role of IL-2 and its receptor in etiology of T1D could be particularly attributable to the regulation of CD4+ CD25+ regulatory T cells, whose function is critical in maintaining immune homeostasis.
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PMID:The crucial role of IL-2/IL-2RA-mediated immune regulation in the pathogenesis of type 1 diabetes, an evidence coming from genetic and animal model studies. 1841 24

We carried out a meta-analysis of data from three genome-wide association (GWA) studies of type 1 diabetes (T1D), testing 305,090 SNPs in 3,561 T1D cases and 4,646 controls of European ancestry. We obtained further support for 4q27 (IL2-IL21, P = 1.9 x 10(-8)) and, after genotyping an additional 6,225 cases, 6,946 controls and 2,828 families, convincing evidence for four previously unknown and distinct risk loci in chromosome regions 6q15 (BACH2, P = 4.7 x 10(-12)), 10p15 (PRKCQ, P = 3.7 x 10(-9)), 15q24 (CTSH, P = 3.2 x 10(-15)) and 22q13 (C1QTNF6, P = 2.0 x 10(-8)).
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PMID:Meta-analysis of genome-wide association study data identifies additional type 1 diabetes risk loci. 1897 92

Administration of a humanized monoclonal anti-CD3 antibody (mAb) to patients with type 1 diabetes (T1D) increases their C-peptide responses and the CD8/CD4 ratio. Incubation of human peripheral blood mononuclear cells (PBMC) with mAb in vitro has been shown to induce CD8(+) regulatory T cells (Tregs) capable of inhibiting proliferation of CD4(+) T cells. We hypothesized that CD8(+) Tregs function through secretion of cytokines. To test that possibility, we generated CD8(+) Tregs, sorted them by FACS, incubated them with syngeneic CD8-depleted PBMC in the presence of staphylococcal enterotoxin B (SEB), and measured proliferation of T cells and cytokines. Using neutralizing anti-cytokine mAbs, we show that the inhibitory effect of CD8(+) Tregs could be partially alleviated by anti-CCL-4, anti-TNF, and to a lesser extent anti-IL2, suggesting that these cytokines contribute to CD8(+) Treg function.
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PMID:Human regulatory CD8 T cells. 1912 Mar 2

CD8+ T cells are important contributors to the initiation and progression of type 1 diabetes (T1D). A very significant fraction of islet-associated CD8 T cells in NOD mice recognize epitopes of islet-specific glucose-6-phosphatase catalytic subunit-related protein (IGRP), a non-essential endoplasmic reticulum-resident protein of unclear function. IGRP is also a target of CD8 T cell responses in human T1D patients. In NOD mice, most IGRP-reactive CD8 T cells target the IGRP(206-214) epitope and are diabetogenic. We have shown that the pathogenic activity of this T cell subset is controlled by genetic elements associated with diabetes susceptibility and resistance. One of these elements (Il2) has been recently implicated in susceptibility to several human autoimmune disorders, including TID. In mice, Il2 polymorphisms control a negative feedback mechanism initiated by activated, IL2-producing autoreactive T cells in the pancreatic lymph nodes that increases the regulatory activity of CD4+CD25+ T cells. Not all IGRP-reactive CD8 T cell clones are pathogenic, however, and we have evidence that some of these clonotypes are actually anti-diabetogenic. We had previously shown that administration of altered peptide ligands (APL) targeting IGRP(206-214)-reactive CD8 T cells resulted in diabetes protection only at doses that did not delete low-avidity clones, suggesting a protective role for these clonotypes. I discuss evidence showing that transgenic expression of a low-avidity IGRP(206-214)-reactive T cell receptor (TCR) efficiently prevents the development of insulitis and diabetes in NOD (non-obese diabetic) mice and that these cells do so by killing autoantigen-loaded antigen presenting cells in the pancreas-draining lymph nodes. These results illustrate a novel mechanism for regulation of immune responses to self-antigens and expose a new target for therapeutic intervention. Here I briefly summarize work done by us and others indicating that a prevalent subset of autoreactive CD8 T-cells in the NOD mouse are major (albeit likely dispensable) players in the pathogenesis of spontaneous autoimmune diabetes in the NOD mouse; that these T cells are targets of genetic elements affording autoimmune disease susceptibility and resistance; that they can either be diabetogenic or anti-diabetogenic according to their avidity for peptide/MHC; and that they can serve as useful targets for therapeutic intervention.
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PMID:Genetic and therapeutic control of diabetogenic CD8+ T cells. 1920 63

Polymorphisms from the TENR-IL2-IL21 block in the 4q27 chromosome were recently associated with type 1 diabetes, celiac disease, rheumatoid arthritis and psoriasis. We undertook this study to investigate the potential role of polymorphisms rs3136534, rs6822844 and rs2069762 (-330 T/G IL2) in multiple sclerosis (MS) (805 patients of Spanish Caucasian origin and 952 health controls). We did not find evidence for association with any single nucleotide polymorphisms (SNPs) tested. Allele and genotype frequencies of the SNPs, which were studied, were similar in DRB1*15-positive or DRB1*15-negative patients. After stratification of MS patients by clinical course, a weak association was observed with rs2069762 G allele and haplotype bearing this allele with secondary progressive MS, although these cases represent 22% of the MS cases. Our results did not show major influence of TENR-IL2-IL21 locus on susceptibility or disease progression in MS. However, we could not exclude completely the effect in MS for this region. Additional studies, using much larger sample sizes and analysis of additional polymorphisms in the gene and its flanking region, will be required to ascertain their contributions to MS susceptibility.
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PMID:Multiple sclerosis association study with the TENR-IL2-IL21 region in a Spanish population. 1952 43

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