Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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

It is well established that insulin-dependent diabetes (IDDM) is an autoimmune disease with a strong genetic link to the HLA locus. It is less well understood, however, how the destruction of the insulin-producing beta cells is effected and why neighboring non-beta islet cells are spared. Also incompletely explained are the observations that, unlike other autoimmune diseases such as multiple sclerosis, IDDM does not preferentially affect females, the incidence of the disease is highest among young adults, and there are temporal correlations between the onset of the disease and emotional trauma. We have addressed some of these questions by using transgenic mice that constitutively express the MHC class I antigen Dd in the beta cells of the pancreas. Although both male and female Ins.Dd mice expressed equivalent amounts of the Dd protein only the males developed diabetes. The diabetes in the males could be reversed by castration, and the normoglycemic females became diabetic following either ovariectomy and the implantation of a slow-release pellet containing testosterone or the inclusion of dexamethasone in the drinking water. In contrast, transgenic mice that expressed the herpes simplex virus type 1 glycoprotein D in the pancreatic beta cells were normoglycemic and showed no obvious histopathological consequences. The observation that the beta-cell dysfunction by the increased expression of the MHC class I protein Dd cannot be induced by the herpes viral protein suggests that the cellular damage is related to a specific structure or function of the MHC proteins.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Male-specific beta-cell dysfunction and diabetes resulting from increased expression of a syngeneic MHC class I protein in the pancreata of transgenic mice. 196 48

A situation in which virus can be used as a therapeutic agent to prevent a lethal autoimmune disease is explored. Nonobese insulin-dependent diabetes (NOD) mice spontaneously develop insulin-dependent diabetes mellitus (IDDM), characterized by lymphocytic infiltration into the islets of Langerhans and beta cell destruction, resulting in hypoinsulinemia, hyperglycemia, ketoacidosis, and death. Infection of NOD mice with lymphocytic choriomeningitis virus (LCMV) aborts the autoimmune manifestations and resultant IDDM. The viruses' effect is on a subset of CD4+ lymphocytes. Ablating this autoimmune diabetes does not significantly alter immune responses to a variety of non-LCMV antigens that require CD4+ lymphocyte participation. The prevention of IDDM associated with viral therapy is maintained throughout the life spans of NOD mice.
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PMID:Viruses as therapeutic agents. I. Treatment of nonobese insulin-dependent diabetes mice with virus prevents insulin-dependent diabetes mellitus while maintaining general immune competence. 197 80

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

We studied the association of a T-cell receptor (TcR) beta restriction fragment length polymorphism (RFLP) and a new TcR-alpha RFLP with insulin-dependent (Type I) diabetes mellitus. This study is part of our effort to find new non-HLA disease genes involved in this chronic organ-specific autoimmune disease. Distribution of a 9.2 kb and a 10.0 kb diallelic TcR beta 2 RFLP was not different in diabetics and controls. A new TcR-alpha RFLP, which gave a 2.7 kb Hind III restriction fragment (A2 allele) was found with a frequency of 0.78 in a population of 78 IDDM patients, compared to 0.68 in 68 control subjects (X2 = 3.62, p = 0.057). In 11 multiplex families studied, a high prevalence of the A2 allele was also observed, but cosegregation with the disease was not seen. Our data suggest that a TcR beta 2 RFLP is not associated with the disease, whereas a particular T-cell receptor alpha germline RFLP (A2 allele) is increased in Type I diabetics although formal proof of linkage is lacking. HLA typing reconfirmed that the HLA-DR4 specificity and the DQ allele HLA-DQw8 are primary risk markers in insulin-dependent (Type I) diabetes mellitus.
Diabetes Res 1990 Oct
PMID:TcR-alpha and TcR-beta dialellic RFLPs in insulin-dependent (type I) Caucasian diabetic patients. 198 28

Chemically induced autoimmunity is a recently recognized environmental hazard that may affect individuals genetically predisposed to autoimmune disease and chronically exposed to certain chemicals. For example, moderate concentrations of mercury may lead to renal autoimmune disease in a small but significant percentage of the exposed population. Mercury also induces autoimmune glomerulonephritis in susceptible Brown Norway (BN) and MAXX inbred strain rats. Autoimmune responses, directed to epitopes of the renal glomerular basement membrane (GBM), are rapid in onset and have a self-limiting course in mercury-treated rats. Both regulatory T cells and idiotype-anti-idiotype network have been implicated in the resolution of this autoimmune process. In our investigations of immune regulation of mercury-induced autoimmune glomerulonephritis, we have used flow cytometry to quantitate lymphocyte subpopulations in the spleen and lymph nodes of mercury-treated and control BN rats. Of particular interest was the RT6+ T cell subset, that appears to have important immunoregulatory properties in a rat model of autoimmune insulin-dependent diabetes mellitus. Spleen and lymph nodes from control BN rats contained 22 and 52%, respectively, RT6+ cells. Spleens from mercury-treated animals contained 21% RT6+ cells on Day 10 of treatment, 13% on Day 17, 16% on Day 24 and 20% on Day 30. Lymph nodes from the same rats had 36% RT6+ cells on Day 10, 23% on Day 17, 29% on Day 24, and 28% on Day 30. The decrease in RT6+ cells correlated inversely with autoimmune responses to GBM, which peaked on Days 17-24 and declined by Day 30. Moreover, autoimmune responses were also associated with elevated RT6-:RT6+ T cell ratios. Similar results were obtained in two additional groups of BN rats, comprising both younger and older animals, sacrificed at Day 18 of mercury treatment. Analysis of other lymphocyte subpopulations demonstrated a decrease of CD4+ and CD5+ cells, whereas B cells as well as CD8+, IL-2 receptor+, and MHC class II+ subsets showed no consistent correlation with the onset or resolution of the autoimmune process. These findings suggest that mercury-induced changes in RT6+ T lymphocytes may be related to the development of renal autoimmune disease in genetically predisposed BN rats.
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PMID:Reduction of the RT6.2+ subset of T lymphocytes in brown Norway rats with mercury-induced renal autoimmunity. 201 77

Insulin-dependent (Type I) diabetes mellitus is a chronic autoimmune disease. From studies in discordant twins and multiplex families a long prediabetic period has been reported. In a population-based program started in 1983, fifteen individuals at possible risk for future Type I diabetes were followed for up to 74 months. Two individuals (13%) developed Type I diabetes. These probands were characterized by the presence of high-level cytoplasmic islet cell antibodies (ICA), complement-fixing ICA, and an impaired first-phase insulin response after intravenous glucose load. Both were homozygous for a high-risk immunogenetic marker of Type I diabetes, i.e., non-Asp at codon 57 of the HLA-DQ beta chain. In all other subjects studied, the immunogenetic marker that confers "dominant resistance", aspartic acid at codon 57, was found. On the basis of our data we conclude that a combination of assays which determine ICA, first-phase insulin release, and HLA-DQB1 polymorphisms will identify individuals with a high probability of developing Type I diabetes at the population level. Conversely, HLA haplotypes positive for aspartic acid seem to confer resistance to the disease.
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PMID:Aspartic acid at position 57 of the HLA-DQ beta chain is protective against future development of insulin-dependent (type 1) diabetes mellitus. 204 76

To investigate the influence of environmental factors on inherited tendencies, the impact of chronic environmental stress on the expression of a genetically determined autoimmune disease was explored in the bio-breeding (BB) rat, which is an animal model for human autoimmune insulin-dependent diabetes mellitus. Animals assigned at random to the experimental group received a triad of stressors designed to model chronic moderate stress over a 14-week period. Animals from 25 to 130 days of age were weighed and tested for glycosuria twice weekly. Weekly blood sampling was performed on all animals. Diabetes was diagnosed on the basis of weight loss, 2+ glycosuria, and blood glucose levels of 250+ mg/dl. We found that in the BB rat chronic stress significantly increased the incidence of the phenotypic expression of the gene for Type I diabetes. Eighty percent of the male stress and 70% of the female stress animals developed diabetes, compared with 50% in both control groups. Stressed males developed manifest diabetes at the same time as their matched controls, whereas stressed females had significantly delayed onset in relation to controls.
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PMID:Impact of environmental stress on the expression of insulin-dependent diabetes mellitus. 204 71

Type 1 (insulin-dependent) diabetes mellitus results from an autoimmune disease which is directed to insulin-secreting islet cells. In man, it is closely associated to definite major histocompatibility complex alleles. The islets are infiltrated by inflammatory cells (insulitis). Anti-islet cell autoantibodies are present in most patients and represent a valuable marker for the autoimmune reaction. The major role of autoreactive T lymphocytes has been demonstrated in animal models of spontaneous insulin-dependent diabetes (the BB rat and the NOD mouse). Such pathophysiological concepts already have clinical applications. The presence of anti-islet cell antibodies identifies patients with type 1 diabetes of slow onset who initially present with non-insulin dependent diabetes. In the same respect it is now feasible to predict the possible occurrence of diabetes in 'at risk' subjects (such as siblings of a diabetic patient) on the basis of HLA typing and the presence of markers of anti-beta cell immunity. Lastly, both in animal models and in human diabetes, it has been demonstrated that immune intervention can alter the course of anti-islet autoimmunity. From these results one may hope in the future to get preventive treatment of type 1 diabetes before the onset of metabolic disturbances.
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PMID:[Type 1 diabetes mellitus, autoimmune disease: physiopathologic aspects and practical applications]. 206 84

Nonobese diabetic (NOD) mice spontaneously develop a T-cell-mediated autoimmune disease that is similar in many respects to insulin-dependent diabetes mellitus in humans. T-cell clones that specifically recognize pancreatic islet cell antigens can be derived from NOD mice, and most of these have been diabetogenic upon transfer to healthy recipients. We report herein the sequences of the T-cell receptor alpha and beta chains from four NOD-derived, islet-specific clones. The sequences are quite heterogeneous--in the junctional regions, specifically--so there seems to be little hope for treating this disease with specific anti-T-cell receptor reagents. This result contrasts with the strikingly restricted junctional region sequences reported for the receptors on clones derived from mice with experimental allergic encephalomyelitis, another T-cell-mediated autoimmune disease. We discuss possible explanations for this difference.
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PMID:Islet-specific T-cell clones from nonobese diabetic mice express heterogeneous T-cell receptors. 206 98

Self-tolerance is generally induced by intrathymic clonal deletion of T cells with reactivity directed to antigens synthesized within the thymus (Kappler et al. 1987, Kisielow et al. 1988). It may also be induced in peripheral T cells when these encounter antigens unique to extra-thymic tissues. Two transgenic models have been particularly useful in the study of peripheral self tolerance: in one model, a known antigen is expressed in a particular extra-thymic site; in the other, the T-cell repertoire is predominantly reactive to this antigen. We, and others, have shown that expression of class I or II MHC molecules in defined extra-thymic sites leads to a state of T-cell tolerance. To account for this, we have proposed two hypotheses which have different implications for autoimmune disease. According to one, tolerance is imposed by deletion or functional silencing of specific high-affinity cytolytic T cells; alternatively, the target cell for tolerance induction may be a regulatory IL-2-producing T-cell, rather than the effector cell itself. To distinguish between these hypotheses it is essential to examine the fate of T cells which have the potential to react to the transgene product. Since the frequency of such T cells is low and there is no dominant clonotype for H-2Kb, which is the class I molecule we used, it was necessary to create double transgenic mice by mating class I transgenic mice with transgenic mice whose T-cell pool was compared of cells reactive to H-2Kb and could be detected by an antibody directed to the TCR. Initial studies showed that such T cells did persist despite the presence of antigen to which they may be reactive. If these double transgenic mice can be shown to be tolerant, they will offer a rich source of tolerant T cells for detailed investigation of their phenotype and fate, and they will be most useful in enabling us to probe the mechanisms responsible for the induction of peripheral self tolerance. Transgenic mouse technology has also been used successfully to unravel the genetic influences which may lead to or prevent autoimmunity. In particular, we have prevented autoimmune diabetes in the nonobese diabetic mouse by introducing a non-NOD MHC class II gene and further work is implicating the failure of intrathymic positive selection of a protective cell as one step in the pathogenesis of diabetes in NOD mice.
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PMID:Transgenic models of T-cell self tolerance and autoimmunity. 207 27


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