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:C0011854 (type 1 diabetes)
20,749 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Diabetes mellitus is a frequent metabolic disease characterised by a complex and inconstant phenotypic expression that complicates the classification of patients and sometimes delays their optimal management. In that slowly progressive disease leading to severe and irreversible complications, the use of early and specific genetic, immunological and/or metabolic markers may help in the classification of diabetic patients and in the orientation of therapeutic strategies; furthermore, it is also an essential aid in the early screening of subjects at risk of developing the disease. The assessment of classical immunological markers, such as islet cell antibodies (ICA) or anti-insulin antibodies (IAA) has been recently completed by the screening of new promising markers such as GAD- and IA2-antibodies. The presence of these markers confirms the autoimmune component of the disease and thus supports the diagnosis of type 1 diabetes, even if clinical symptoms are absent or inconsistent. In addition, it represents a strong argument in favour of the initiation of specific immunological therapies to preserve B-cell number and function.
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PMID:[The dosage of anti-GAD and anti-IA2 autoantibodies: an aid to the early diagnosis of type 1 diabetes]. 1082 7

Insulin immunization in animal models induces T-helper (Th) 2-like antibody subclass responses to insulin and other beta-cell antigens. The aim of this study was to determine whether exposure to insulin in humans resulted in a similar subclass bias of the humoral immune response. Levels of IgG subclass antibodies to insulin (IAs), GAD, and IA-2 were measured before and after treatment with insulin in the following groups of patients: 29 patients with newly diagnosed type 1 diabetes treated with intravenous and/or subcutaneous insulin; 10 newly diagnosed patients randomized to cyclosporin A (CsA) or placebo plus subcutaneous insulin for 12 months; and 14 islet cell antibody-positive relatives receiving either intravenous and subcutaneous insulin prophylaxis or no treatment. At the onset of diabetes, the major subclass distributions of insulin autoantibodies (IAAs) were IgG1 and, to a lesser extent, IgG4. After insulin treatment in the 29 new-onset patients, IAs were initially of the IgG1 subclass. IgG4-IAs appeared later, but at 12 months, they were at higher levels than IgG1-IAs in 11 patients. Responses were higher in children compared with adults and were higher in subjects with IAAs (P < 0.001). Insulin prophylaxis in relatives showed a similar profile, with a decline in levels of IgG1-IAs after cessation of daily subcutaneous insulin. Patients treated with CsA took longer to develop IAs and showed suppressed levels of IgG4-IAs; however, their levels of high-titer IgG1-IAs persistently rebounded after completion of CsA therapy. Despite the presence of IgG4-IAs in most insulin-treated patients and relatives, a shift to IgG4-anti-GAD or IgG4-IA-2 was not found for up to 3 years after the initiation of insulin therapy. While our findings need to be correlated with T-cell cytokine responses, we suggest that the strong IgG4-IA response in insulin-treated patients is consistent with an enhancement of Th2 immunity, but there is no evidence of subsequent spreading of potentially Th2-associated IgG4 responses to other autoantigens.
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PMID:Exposure to exogenous insulin promotes IgG1 and the T-helper 2-associated IgG4 responses to insulin but not to other islet autoantigens. 1086 43

GAD is a major target of autoimmunity in preclinical type 1 diabetes. Here we examine the maturation of the humoral response to GAD epitopes sequentially from birth to diabetes onset or current follow-up in 29 GAD antibody (GADA)+ offspring of parents with diabetes from the BABYDIAB Study. Antibodies were measured against GAD65, GAD67, and GAD65/67 chimeras by radiobinding assay. In 28 of 29 offspring, the first GADAs contained reactivity against epitopes within GAD65 residues 96-444, suggesting that the middle GAD65 region is a primary target of GAD humoral autoimmunity. In 7 of these 28 offspring, initial antibody reactivity was against all epitope regions tested (middle GAD65, COOH-terminal GAD65 residues 445-585, NH2-terminal GAD65 residues 1-95, and GAD67); in 16 offspring, reactivity was to middle and COOH-terminal GAD65 epitopes, and in 5 offspring, reactivity was only to the middle GAD65 epitopes. The single offspring without middle GAD65 reactivity had antibodies to the NH2-terminal epitopes in the absence of all other islet autoimmunity. Subsequent GADA epitope spreading was frequent and seen in 10 of 15 offspring with informative follow-up samples. Spreading was mostly (eight cases) to NH2-terminal GAD65 epitopes. In two offspring, spreading to new epitopes was found when antibody titers to GAD65 and early epitopes were declining, suggesting determinant-specific regulation of the humoral response. None of the GADA reactivities nor any changes in reactivity over time were specifically associated with diabetes onset. The findings suggest that the humoral autoimmune response to GAD found in childhood is dynamic, is initially against epitopes within the middle portion of GAD65, and spreads to epitopes in other regions of GAD65 and GAD67.
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PMID:Maturation of the humoral autoimmune response to epitopes of GAD in preclinical childhood type 1 diabetes. 1086 36

Pancreas transplantation in patients with type 1 diabetes presents allogeneic beta-cell autoantigens to the immune system long after the initial beta-cell destruction that leads to diabetes has occurred. The aims of this study were to determine whether re-exposure to beta-cell autoantigen through transplantation affect the humoral autoimmune response and whether its modulation correlates with graft outcome. Antibodies to the major autoantigens GAD (GADA) and protein tyrosine phosphatase IA-2 (IA-2A) were measured before and after transplantation in patients with type 1 diabetes who received pancreas and kidney allografts. In the 110 cases studied, pancreas graft survival was not significantly associated with the presence of GADA or IA-2A before transplantation. In the 75 patients with sequential follow-up samples up to 11.2 years after transplantation, autoantibodies were persistently undetectable in 44 cases (59%) and remained at stable detectable levels in 13 cases (17%). Substantial changes in antibody levels were found in 18 cases (24%), of which 13 cases (17%) had declining levels and 5 cases (7%) had marked increments after transplantation. Rising GADA and IA-2A levels in these five patients were predominantly of the IgG1 subclass, with progressive spreading of epitope reactivity. Pancreas graft function was lost 0.7-2.3 years after rising autoantibody levels in four of these five patients, and a significantly lower pancreas graft survival was found in patients with major rises in either GADA or IA-2A levels (P < 0.0001 vs. the remainder) and in patients having persistently high levels of IA-2A (P = 0.002 vs. stable antibody-negative patients). Kidney graft survival was not associated with islet autoantibody status. In conclusion, a minority of patients receiving pancreas allografts under generalized immunosuppression show a stimulation of islet autoantibody reactivity characteristic of that found in preclinical type 1 diabetes, which is almost invariably followed by graft function failure and resumption of insulin therapy.
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PMID:Modulation of humoral islet autoimmunity by pancreas allotransplantation influences allograft outcome in patients with type 1 diabetes. 1086 38

Type 1 diabetes mellitus is considered as an autoimmune disease against beta cells. Diabetes recurrence after pancreas transplantation is well known in HLA-identical twins while it is rarely reported in recipients of cadaveric pancreatic grafts. In the present case report, diabetes recurrence occurred in a recipient who underwent cadaveric combined pancreas kidney transplantation. Seven years after transplantation the patient exhibited progressive hyperglycemia needing insulin therapy while the renal graft was well functioning. The diagnosis of recurrent disease was obtained on the histological features such as selective loss of beta cells without clear signs of insulitis and on the presence of markers (GAD 65 and IA-2) for humoral autoimmunity. It is intriguing that, at the time of recurrence of type 1 diabetes, the patient had stopped steroids and azathioprine, while only cyclosporine was maintained as immunosuppressive treatment. Our case report underlines the relevance of studying the humoral autoimmune response directed to islet autoantigens in cadaveric pancreas allograft recipients. Furthermore, it suggests that an efficient immunosuppressive treatment after transplantation may be able to reduce the autoimmune response against the pancreatic allograft.
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PMID:Evidence of recurrent type I diabetes following HLA-mismatched pancreas transplantation. 1088 Aug 96

As the study of type 1 diabetes moves towards preventive therapy, the role of adjuvants needs to be addressed. Incomplete Freund's adjuvant (IFA) is thought of as "immunologically inert" as, unlike complete FA (CFA), it has no components designed to provoke an immune response. We investigated the effect of IFA as an immunomodulator on the disease process leading to type 1 diabetes in the non-obese diabetic (NOD) mouse. 24 NOD mice were injected intradermally (i.d.) at 8 and 12 weeks of age with a 1:1 mixture of IFA and saline; 24 controls received saline alone. Splenocytes were tested against antigens thought to be involved in the disease process, namely insulin, a GAD peptide, a beta-casein peptide, a Glut-2 peptide and concanavalin A (ConA) as a non-specific antigen. In the IFA experiment diabetes incidence was 13% compared to 38% in the controls (p < 0.05). In vitro, splenocytes from IFA treated animals showed non-specific immunosuppression with ConA (p < 0.01), whereas the response to 1-casein and Glut-2 was raised in IFA treated animals with respect to controls. ELISA using supernatants from IFA treated animals, showed a typical Th2 cytokine pattern, whereas controls showed a Th1 pattern. In conclusion, IFA alone can reduce diabetes incidence in the NOD mouse apparently by modulating the immune response towards beta-cell related specific antigens. As IFA has been adopted as an adjuvant in preventive trials in the NOD mouse, this might have implications for the interpretation of previous and future results.
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PMID:Incomplete Freund's adjuvant reduces diabetes in the non-obese diabetic mouse. 1089 48

Coxsackievirus infections have been proposed as an environmental trigger for the development of T-cell-mediated autoimmune (type 1) diabetes by either providing a molecular mimic of the candidate pancreatic beta-cell autoantigen GAD or inducing bystander inflammation in the pancreas. In this study in the NOD mouse model, we found that infection with a pancreatrophic coxsackievirus isolate can accelerate type 1 diabetes development through the induction of a bystander activation effect, but only after a critical threshold level of insulitic beta-cell-autoreactive T-cells has accumulated. Thus, coxsackievirus infections do not appear to initiate beta-cell autoreactive immunity but can accelerate the process once it is underway. These findings indicate that the timing of a coxsackievirus infection, rather than its simple presence or absence, may have important etiological implications for the development of T-cell-mediated autoimmune type 1 diabetes in humans.
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PMID:Acceleration of type 1 diabetes by a coxsackievirus infection requires a preexisting critical mass of autoreactive T-cells in pancreatic islets. 1090 77

Pancreatic islet autoimmunity leading to type 1 diabetes could be triggered by viruses in genetically susceptible individuals. Rotavirus (RV), the most common cause of childhood gastroenteritis, contains peptide sequences highly similar to T-cell epitopes in the islet autoantigens GAD and tyrosine phosphatase IA-2 (IA-2), suggesting T-cells to RV could trigger islet autoimmunity by molecular mimicry. We therefore sought an association between RV infection and islet autoantibody markers in children at risk for diabetes who were followed from birth. There was a specific and highly significant association between RV seroconversion and increases in any of these antibodies: 86% of antibodies to IA-2, 62% to insulin, and 50% to GAD first appeared or increased with increases in RV IgG or IgA. RV infection may therefore trigger or exacerbate islet autoimmunity in genetically susceptible children.
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PMID:Association between rotavirus infection and pancreatic islet autoimmunity in children at risk of developing type 1 diabetes. 1092 32

Enterovirus infections have been implicated in the development of type I diabetes mellitus. They may cause beta cell destruction either by cytolytic infection in the pancreas or indirectly by contributing to autoimmune reactivity. We sought evidence for these 2 mechanisms in a case of acute-onset diabetes mellitus that occurred during severe echovirus 9 infection. The virus was isolated and administered to cultured human beta cells. No viral proliferation was observed, and no beta cell death was induced, while parallel exposure to Coxsackie B virus serotype 3 resulted in viral proliferation and massive beta cell death. Although the viral protein 2C exhibited a sequence similar to that of the beta cell autoantigen glutamic acid decarboxylase (GAD(65)), no cross-reactive T cell responses were detected. The patient did not develop antibodies to GAD(65) either. Absence of evidence for direct cytolytic action or an indirect effect through molecular mimicry with GAD(65) in the present case raises the possibility of another indirect pathway through which enteroviruses can cause diabetes mellitus.
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PMID:Acute onset of type I diabetes mellitus after severe echovirus 9 infection: putative pathogenic pathways. 1104 87

We examined the histological changes of the pancreas in a 75-year-old diabetic woman who was treated with sulphonylurea for 10 years and required insulin treatment for the subsequant 10 years. She was positive for antiglutamic acid decarboxylase antibody (GAD Ab) 20 years after the diagnosis of diabetes. Her autopsied pancreas revealed disfigured islets and no beta cells. These changes were indistinguishable from those of the long-sustained type 1 diabetes mellitus, and insulitis was not found. This case suggests that diabetic patients positive for the GAD Ab, even if oral hypoglycemic agents are effective, may develop complete beta cell destruction over a long period.
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PMID:Histological changes of the pancreas in an elderly diabetic patient positive for GAD antibody. 1119 95


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