Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: UMLS:C0011849 (diabetes)
 277,896 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Molecular genetic techniques are being widely applied to the study of autoimmune diseases. Major advances have been made in diabetes, rheumatoid arthritis and coeliac disease. Work on experimental models of autoimmune uveitis suggests that similar advances will follow in this field. The application of molecular genetics to the study of immunology has lead to great advances in our understanding of the anatomy of antigen recognition. This work has lead to the identification of some of the structural determinants of antigen binding by MHC molecules and is helping to explain some MHC-disease associations. More recently, molecular studies of the T cell receptor have characterized patterns of T cell receptor expression in humans and have lead to the identification of regions of the T cell receptor critical for antigen recognition. These techniques will hopefully provide insights into the nature of autoimmunity and permit the identification of targets for disease specific immunotherapies. This review describes attempts to corelate MHC structure and function in the context of autoimmunity and discusses some of the strategies for analyzing T cell receptor usage in autoimmune disease.
 ...
PMID:Molecular aspects of autoimmunity: a review. 138 42

Current knowledge of the phenotype of mononuclear cells accumulating in pancreatic islets in insulin-dependent diabetes (IDDM) and factors determining their homing into the pancreas is limited. Therefore, a pancreas obtained at the onset of IDDM was studied in detail. Cryostat sections were stained for mononuclear cell types, T cell receptor subtypes, and adhesion molecules of vascular endothelium and studied by immunofluorescence microscopy, and peripheral blood mononuclear cells were phenotyped using flow cytometry. Monocytes/macrophages (lysozyme- or CD 14-reactive cells) were identified among other mononuclear cell types in islet infiltrates. V beta 8-positive T cells were overrepresented, but T cells with other V beta s studied (V beta 5, V beta 5.1, V beta 6, V beta 12) were also found. The vascular endothelium of the islets and many small vessels nearby islets strongly expressed intercellular adhesion molecule-1, whereas vascular cell adhesion molecule-1 and E-selectin were totally absent. We conclude: (a) that increased expression of intercellular adhesion molecule-1 on vascular endothelium may increase endothelial adhesion of mononuclear cells and enhance their accumulation in the pancreas during diabetic insulitis; (b) that T cells with certain T cell receptors can be enriched in infiltrated pancreatic islets; and (c) that macrophages and antigen-specific CD 8-positive T cells are involved in pancreatic beta cell destruction at the onset of IDDM.
 ...
PMID:Macrophages, T cell receptor usage, and endothelial cell activation in the pancreas at the onset of insulin-dependent diabetes mellitus. 138 78

The BB rat is a model of spontaneous autoimmune diabetes. To characterize quantitatively all known immune cell subsets involved in disease pathogenesis, FACS analysis of spleen cells was performed in diabetes-prone (DP) and acutely diabetic (D) BB rats and compared with diabetes-resistant (DR) BB and normal Wistar-Furth (WF) strains. We observed increased percentages of splenic NK cells in DP and D animals compared with DR rats using an NK-specific monoclonal antibody. We found increased proportions of splenic macrophages in the T-lymphopenic DP and D rats and low macrophage contents in DR spleens compared with WF spleens. We observed that percentages of the CD4-CD8- T cell receptor alpha/beta+ (double-negative) T cell subset were strikingly increased in the lymphopenic DP and D animals, compared with DR animals. We observed increased percentages of activated splenic CD5+ T cells expressing the IL-2 receptor and MHC class II antigen in DP and D rats compared with DR animals. Our studies suggest that (a) splenic NK cells and macrophages quantitatively appear to be involved in the pathogenesis of diabetes; (b) double-negative T cells escape from the T cell depletion process; (c) a marked increase of activated splenic T cells suggests diabetes is associated with general T cell activation processes; and (d) an altered balance among the different immune cell subsets may in part explain the pathogenesis of diabetes, since marked relative changes are observed when comparing the DR strain to the DP strain in both the prediabetic and diabetic stages.
 ...
PMID:Quantitative analyses comparing all major spleen cell phenotypes in BB and normal rats: autoimmune imbalance and double negative T cells associated with resistant, prone and diabetic animals. 138 37

We have analyzed the T cell receptor (TcR) V alpha and TcR V beta regions in the spontaneous mouse model for insulin-dependent diabetes mellitus, the NOD mouse, and compared it to the regions in the two sister strains, the NON and CTS strains. Based on restriction fragment length polymorphism analysis the TcR V alpha region in the NOD mouse is essentially identical to that of the SJL/J strain. In contrast both the NON and CTS strains have a unique TcR V alpha haplotype. Whereas the NOD and NON strains apparently contains all the TcR V beta genes, the CTS mouse has three deletions in the V beta region. Our analysis does not give any indications for the diabetic phenotype of the NOD mouse.
 ...
PMID:Analysis of the T cell receptor (TcR) regions in the NOD, NON and CTS mouse strains define new TcR V alpha haplotypes and new deletions in the TcR V beta region. 153 50

Autoimmunity is likely the cause of a variety of diseases including systemic lupus erythematosus, rheumatoid arthritis and diabetes. Normally, the body's immune system serves as a defense against a variety of conditions, including, injury, infection and neoplasm. However, for reasons that are currently unclear, the normal regulation of the immune system can breakdown resulting in autoaggressive responses. T cells, especially CD4+ cells, appear to play a predominant role in most autoimmune diseases. We summarize our workshop which focussed on the role of the T cells in autoimmune diseases. We summarize our workshop which focussed on the role of the T cells in autoimmune diseases; the T cell receptor in autoantigen recognition (emphasizing the role of selective T cell receptor V regions in the autoimmune response); and a discussion of possible therapeutic interventions.
 ...
PMID:The T cell receptor in autoimmune diseases. 153 79

Despite some reports of an association between insulin-dependent diabetes mellitus (IDDM) and a BglII RFLP in the T cell receptor beta chain (TCRB) constant region, results of several recent studies, including our own, have failed to support such an association. However, we here report evidence for an IDDM-TCRB relationship which is dependent on immunoglobulin heavy-chain-region genes. We analyzed 198 unrelated diabetics and 84 normal siblings (maximum one sibling per diabetic) typed for the BglII TCRB RFLP and Gm immunoglobulin allotypes Glm(1), Glm(2), G2m(23), and G3m(5), which identify the four common Gm haplotypes. The BglIII TCRB genotype frequencies were significantly different between diabetics positive and negative for G2m(23) (P = .017) and G3m(5) (P = .021) but were not different between normal siblings positive and negative for those allotypes (P = .94 and P = .77, respectively). Thus, there were significant interactions between TCRB, Gm, and IDDM for two of the four immunoglobulin allotypes examined. We have previously reported interactions between HLA, Gm (particularly G2m(23)), and IDDM and postulate that the TCRB-Gm-IDDM and HLA-Gm-IDDM interaction effects may be functionally related.
 ...
PMID:Interaction between T cell receptor beta chain and immunoglobulin heavy chain region genes in susceptibility to insulin-dependent diabetes mellitus. 167 91

The nonobese diabetic (NOD) mouse is a relevant model for studying human insulin-dependent diabetes mellitus (IDDM). The selective destruction of insulin-secreting cells in this model is subsequent to an autoimmune reaction directed towards the beta cells inside the islets of Langerhans of the pancreas. Given the key role played by T cells in the development of IDDM, we investigated a model of IDDM prevention in NOD mice by administration of a monoclonal antibody to the alpha/beta dimer of the T cell receptor for antigen. Our data provide evidence that aiming at the T cell receptor protects against both spontaneous and cyclophosphamide-induced diabetes in the NOD mouse. Interestingly, potential clinical application is suggested by the efficient and durable reversal of recent onset diabetes in mice treated with anti-alpha/beta monoclonal antibody within 1 week following the clinical discovery of IDDM.
 ...
PMID:Anti-alpha/beta T cell receptor monoclonal antibody provides an efficient therapy for autoimmune diabetes in nonobese diabetic (NOD) mice. 182 30

It has been demonstrated, in certain autoimmune disease models, that pathogenic T cells express antigen receptors of limited diversity. It has been suggested that the T cells responsible for the pathogenesis of type I diabetes mellitus might similarly demonstrate restricted T cell receptor (TCR) usage. Recently, attempts have been made to identify the V beta subset(s) that initiates and/or perpetuates the antiislet response in a mouse model of spontaneous autoimmune diabetes (non-obese diabetic [NOD] mice). In studies reported here, we have bred NOD mice to a mouse strain that congenitally lacks approximately one-half of the conventional TCR V beta alleles. Included in this deletion are TCR V beta gene products previously implicated as being involved in the pathogenesis of NOD disease. By studying second backcross-intercross animals, we were able to demonstrate that this deletion of TCR V beta gene segments did not prevent the development of insulitis or diabetes.
 ...
PMID:Genetic dissection of T cell receptor V beta gene requirements for spontaneous murine diabetes. 183 91

Diabetes in NOD mice is an autoimmune disease which is characterized by the infiltration of islets of Langerhans by large numbers of T cells. Some of these infiltrating T cells are clearly islet-cells-specific; however, many or most of these T cells could be attracted nonspecificity into these lesions. To study NOD pancreas-infiltrating T cells, we fused these cells with BW5147 to make T cell hybridomas. Ninety-four pancreas-derived T hybrids were analyzed of which 12 responded specifically to islet cells by secreting IL-2. Only CD3+, CD4+ hybrids responded to islet cells in our assay, and a large proportion of these hybrids were islet-cell reactive. T cell receptor (TCR) V beta element usage was heterogeneous in islet-reactive hybridomas.
 ...
PMID:Analysis of pancreas-infiltrating T cells in diabetic NOD mice: fusion with BW5147 yields a high frequency of islet-reactive hybridomas. 183 36

The effector mechanisms responsible for autoimmune beta cell destruction in insulin dependent (type 1) diabetes (IDD) remain elusive. In order to investigate whether T lymphocytes bearing the gamma-delta T cell receptor (gamma delta+ T cells) could be involved in this process, we measured percentages of peripheral blood gamma delta+ T cells in IDD patients, relatives of IDD probands and controls. High levels of gamma delta+ T cells strongly differentiated 23 relatives at high risk for IDD on the basis of positive islet cell autoantibodies (ICA positive relatives) from 59 controls (P = 0.0013), whereas 26 ICA negative relatives, 14 recent-onset and nine long term IDD patients could not be distinguished from controls on the basis of percentages of gamma delta+ T cells. These data suggest that increased levels of circulating gamma delta+ T cells correlate with the ongoing autoimmune process in pancreatic islets of subjects at high risk for IDD and may thus represent an additional marker for the development of the disease.
 ...
PMID:Increased T lymphocytes bearing the gamma-delta T cell receptor in subjects at high risk for insulin dependent diabetes. 183 80


1 2 3 4 5 6 7 8 9 10 Next >>