UMLS:C0011854 - FACTA Search

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

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

As a result of advances in technology, genome searches have been carried out for susceptibility genes for type 1 diabetes in humans and in the NOD mouse. These have shown that, in the NOD mouse, diabetes susceptibility is under the control of at least ten separate chromosomal loci. In the human, in addition to HLA and INS, two new susceptibility genes have been localized, IDDM4 on chromosome 11q and IDDM5 on 6q, demonstrating the polygenic nature of type 1 diabetes and the role of HLA as the major locus. Candidate genes at these loci are the subject of current investigation. Genetic and immunological markers of disease may be of value in screening the general population for individuals at risk of developing type 1 diabetes. The predictive power of different screening strategies should be tested in order to work out the potential value to the general population of preventive therapies that are now undergoing clinical trials in high risk 'pre-diabetics'. Type 2 diabetes is genetically heterogeneous, and, since 1992, two distinct genetic subtypes have been identified. The first is defined by mutations in the GCK gene, which cause up to 60% of cases of MODY. The second, designated MIDD (maternally inherited diabetes and deafness), is defined by mutation in the mitochondrial gene for tRNA(Leu(UUR)). MIDD patients are less obese than is usual for typical type 2 diabetes, may present in early adult life or occasionally in childhood and may have been diagnosed as having autoimmune type 1 diabetes, type 2 diabetes or MODY. Typically, patients with MIDD require insulin earlier than do type 2 diabetics without mitochondrial mutations. Genetically complex diseases, such as diabetes, hypertension, cancer and coronary heart disease, are common in most populations. The approaches to the genetic analysis of diabetes outlined in this review are likely to be useful to the genetic analysis of many of these disorders. Progress in this area will have important implications for public health strategies in the next decade and beyond.
...
PMID:Molecular genetics of diabetes mellitus. 757 35

This chapter aims to describe ways in which autoimmunity can be prevented or reversed and 'self-tolerance' re-established. To this end we have largely restricted our overview to the two main autoimmune disease models with which we are involved, i.e. IDDM in NOD mice and EAT in H-2k mice although, where appropriate and to demonstrate a particular point, other models are mentioned. The chapter has been divided into sections covering protection afforded by 1) transgenes, 2) autoantigen and 3) by reagents targetting T-cell surface molecules. Where established, the mechanism by which protection or tolerance is achieved is described but where, as in most cases, it is unknown the possibilities are discussed. Investigations using T-cell lines and clones and on islet regeneration which are currently being followed as part of a comprehensive approach to the study of autoimmunity are included as separate sections and their relevance discussed.
...
PMID:Tolerance induction as a therapeutic strategy for the control of autoimmune endocrine disease in mouse models. 759 Aug 17

Superoxide dismutase (SOD) levels, thought to be the first cellular defence against free radicals, were studied in the nonobese diabetesprone (NOD-p) mouse, an animal model of type 1 diabetes in which about 100% of females and 20% of males become diabetic. Nonobese diabetes nonprone (NON-p) mice were used as controls. Animals were followed from 5th to 22nd week of life. Results show that SOD levels in female NOD-p mice are extremely low. In males, values are considerably higher than in females but still lower than values found in control mice. Moreover, SOD levels did not significantly change with age, degree of insulitis or level of diabetes. Islet beta cells in this strain, therefore, seem to be poorly protected against the negative effects of free radicals and this may predispose to diabetes. Furthermore, alterations of SOD may not be directly related to the development of the disease as the enzyme's activity is not further modified with age or the progression of diabetes.
...
PMID:Superoxide dismutase in the nonobese diabetic (NOD) mouse: a dynamic time-course study. 779 10

In the NOD/Lt recipient mice, disease recurrence in untreated isografts was extremely rapid (median less than 10 days) compared to the rejection of an untreated BALB/c pancreas graft in a CBA mouse (median 26 days). This would be expected since disease recurrence is a secondary response in diabetic mice with lymphocytes primed to respond to the beta-cell autoantigen. The median survival time for the untreated CBA to NOD/Lt pancreas graft falls, as expected, between these two survival times (median 20 days). Although anti-CD4 and/or anti-CD8 were effective in delaying or stopping autoimmune disease recurrence and rejection in the separate models, they were unsuccessful in significantly altering survival times in the combined model, despite using 2-mg doses and dual therapy. Similar doses of anti-CD4 have failed to prevent islet allograft rejection in NOD/Lt mice. Long-term dual treatment may be required to inactivate CD4+ and CD8+ T cells in the NOD/Lt mouse to prevent both autoimmune disease recurrence and rejection. NOD/Lt recipients will require greater immunosuppression to prevent rejection-autoimmune disease recurrence will be easier to prevent. This study shows the value of using NOD/Lt mice, with naturally occurring type 1 diabetes, for assessment of immunosuppressive therapy to prevent failure of pancreas transplants.
...
PMID:Prevention of both rejection and recurrence of autoimmune disease in the NOD/Lt mouse following segmental pancreas transplantation. 779 22

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.
...
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

Intrathymic (i.t.) injection of islet cells or whole islets retards development of insulin dependent diabetes mellitus (IDDM) in spontaneous animal models of the disease. Protection of 4-week-old prediabetic NOD/Lt female mice from subsequent IDDM development was specific for the it route of administration since intraperitoneal injection of an equal number of syngeneic islets failed to retard IDDM. The protective effect of i.t. injection of islet cells was compared with the effect of i.t. injection of syngeneic peritoneal exudate cells, NIT-1 cells, bovine serum albumin (BSA), ABBOS peptide, a 52 kDa islet cell membrane protein, various synthetic peptides from human glutamic acid decarboxylase (GAD) and a Coxsackievirus B4-derived peptide with homology to GAD. Interestingly, only a GAD-derived peptide containing sequence homology to Coxsackie-virus B4, and the corresponding Coxsackievirus B4-derived peptide, delayed IDDM onset. To establish the immunological mechanism underlying the reduced IDDM incidence following i.t. injection of islet cells, adoptive transfer of splenic leukocytes into NOD-scid/scid mice was performed. Splenic leukocytes from i.t.-injected non-diabetic females transferred IDDM into NOD-scid/scid recipients, but more slowly than splenocytes from unmanipulated, diabetic (control) donors. Co-transfer of 1:1 mixtures of splenic leukocytes from it islet-injected (and diabetes-free) NOD/Lt females and from untreated NOD/Lt diabetic donors produced IDDM as rapidly as splenocytes from diabetic donors injected alone. Hence, any peripheral suppression generated in i.t.-protected females was not sufficiently strong to prevent IDDM transfer by committed T-effector cells from the diabetic donors.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:The thymus as a site for evaluating the potency of candidate beta cell autoantigens in NOD mice. 788 41

The NOD mouse, which shows many features of human IDDM, is extensively used to evaluate the role of T lymphocytes in the pathogenesis of autoimmune diabetes. The development of diabetes in this model appears to be controlled by a finely tuned immunoregulatory balance between autoaggressive T cells and regulatory immune phenomena, the disruption of which may result in destruction of insulin-secreting cells. The absolute requirement of sublethal irradiation to permit transfer of the disease to non-diabetic adult syngeneic mice provides indirect evidence for the presence of regulatory T cells in non-diabetic NOD mice. We have previously reported that the reconstitution of irradiated recipients by CD4+ T cells from nondiabetic female NOD mice blocks the transfer of diabetes by spleen cells from diabetic donors. We now report evidence that anti-CD4 monoclonal antibodies can substitute for irradiation in rendering adult NOD male mice susceptible to diabetes transfer by diabetogenic spleen cells. Efficient diabetes transfer can be achieved in non-irradiated adult NOD recipients provided they are thymectomized and CD4+ T-cell depleted prior to the transfer. The role of thymectomy is to limit T cell regeneration after anti-T cell monoclonal antibody challenge. Our data confirm that regulatory CD4+ T-cells, which efficiently counterbalance diabetogenic cells, are present in adult NOD male animals.
...
PMID:Evidence of CD4+ regulatory T cells in the non-obese diabetic male mouse. 791 80

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.
...
PMID:Use of recombinant congenic and congenic strains of NOD mice to identify a new insulin-dependent diabetes resistance gene. 793 Oct 87

Recent observations have suggested a role for interleukin 1 (IL-1), a macrophage-derived cytokine, in the autoimmune beta-cell destruction, that is associated with type 1 diabetes. In this study, we investigated the effects of human recombinant IL-1 beta on pancreatic beta-cells from NOD and NON mice (diabetes-resistant NOD-related strain), focussing upon the appearance of intracisternal type A virus (IAP) and retrovirus type C. NOD mice pancreatic islets were incubated with or without IL-1 (0.1, 1, 10, 100 U/ml) for 10 days. Thereafter, the islets were examined using an electron microscope. When the islets of NOD mice were incubated with the IL-1 (10, 100 U/ml) under condition of high glucose, IAP and endogenous retrovirus type C frequently appeared in the beta-cells. Retrovirus type C was present as a cluster. In contrast, IAP and retrovirus type C were rarely found in beta-cells from the control group. When the islets of NON mice were incubated with or without IL-1 (10 U/ml) in the presence of high glucose, IAP was rarely found in beta-cells and retrovirus type C was undetectable in beta-cells. This study indicated that IL-1 is an important effector that leads to insulitis or aggravates insulitis in NOD mice.
...
PMID:IL-1 induces intracisternal type A virus and retrovirus type C in pancreatic beta-cells of NOD mice. 794 65

Insulin-dependent diabetes mellitus (IDDM) develops mainly from the destruction of pancreatic beta cells by cytotoxic T lymphocytes. One of the key phenomena observed in the pancreas of IDDM patients is the destructive process of beta cells by cytotoxic T cells. In NOD mice, an animal model of IDDM, the T cell receptor (TCR) of the infiltrating T lymphocytes was reported to be variable. Our analysis of RNAs obtained from the pancreas of newly diagnosed IDDM patients using the RT-PCR method indicated that the repertoire of T cell receptor alpha was restricted. Clustering of conservative amino acid sequences was found in each patient. The elucidation of the TCR of T cells recognizing and destructing beta cells in IDDM would enable us to develop a novel method immunologically intervening the occurrence of IDDM.
...
PMID:[Analysis of T cell receptor gene of infiltrating T lymphocytes in the pancreas of insulin-dependent diabetic patients]. 798 12

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