UMLS:C0011849 - FACTA Search

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

The nonobese diabetic (NOD) mouse spontaneously develops T cell-dependent autoimmune diabetes. Here, we investigate the role of CD40 ligand (CD40L)-CD40 costimulation in the initiation and progression of this disease. Anti-CD40L mAb treatment of 3- to 4-wk-old NOD females (the age at which insulitis typically begins) completely prevented the insulitis and diabetes. In contrast, treatment of such mice with anti-CD40L at >9 wk of age did not inhibit the disease process. These results suggest that a costimulatory signal by CD40L is required early but not in the effector phase of disease development. Anti-CD40L treatment affected the priming of islet Ag-specific T cell responses in vivo. Cytokine analysis revealed a dramatic decrease in IFN-gamma and IL-2 release without a concomitant increase in IL-4 production by T cells from anti-CD40L-treated mice. Thus, anti-CD40L impaired the islet Ag-specific Th1 cell response in vivo, and the prevention of diabetes by anti-CD40L was not associated with switching of the response from a Th1 to a Th2 profile. Cotransfer of splenocytes from anti-CD40L-treated mice with splenocytes from diabetic NOD mice into NOD/scid mice did not inhibit the transfer of disease, indicating that anti-CD40L does not prevent the disease by inducing regulatory cells. Since anti-CD40L clearly prevented the insulitis by inhibiting the development and further accumulation of pathogenic Th1 cells to islets of Langerhans, we conclude that CD40L-CD40 costimulation is required for early events in the development of spontaneous autoimmune diabetes.
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PMID:CD40 ligand-CD40 interactions are necessary for the initiation of insulitis and diabetes in nonobese diabetic mice. 937 64

A single injection of syngeneic islet cells into the thymus of 4-week-old NOD/Lt female mice strongly retards diabetogenesis. The present study used the intrathymic route of antigen administration to compare the relative efficacy of peptides/proteins derived from two major candidate pancreatic beta-cell autoantigens, insulin and GAD65, to modulate diabetogenesis. Intrathymic administration of insulin B chain or recombinant human GAD65 significantly suppressed diabetogenesis during a 20-week follow-up period, whereas no protection was mediated by either insulin A chain or a synthetic peptide (A2) derived from it. Quite unexpectedly, two GAD65-derived peptides near the COOH-terminus (p34 and p35) accelerated diabetes onset. Semiquantitative reverse transcription-polymerase chain reaction analysis was performed on cDNAs from isolated islets or whole pancreases of NOD/Lt females 4 weeks after intrathymic injections. Protection mediated by intrathymic administration with either intact islet cells or GAD65 were correlated with an upregulation of mRNA for T-helper 2 (Th2)-associated cytokines (interleukin [IL]-4, IL-10), concomitant with downregulation of Th1-associated interferon (IFN) transcripts (all normalized to T-cell receptor Cbeta transcripts) in islet-infiltrating lymphocytes. Protection mediated by the intrathymic administration of insulin B chain, however, correlated only with a modest upregulation of IL-4 and IL-10 transcript levels, and no diminution in IFN-gamma transcripts. In contrast, the diabetes-accelerating GAD65 p34 and p35 peptides were not associated with an immune deviation, expressing levels of IFN-gamma characteristic of islet-infiltrating lymphocytes in vehicle-injected NOD controls. Hence, Th1-to-Th2 immune deviation provides only a partial explanation for peptide immunotherapy of diabetes in NOD mice. The finding that certain peptides can accelerate rather than retard diabetogenesis as a function of route and age of administration adds a cautionary note to this type of therapy.
Diabetes 1997 Dec
PMID:Retardation or acceleration of diabetes in NOD/Lt mice mediated by intrathymic administration of candidate beta-cell antigens. 939 83

Optimal T cell responsiveness requires signaling through the T cell receptor (TCR) and CD28 costimulatory receptors. Previously, we showed that T cells from autoimmune nonobese diabetic (NOD) mice display proliferative hyporesponsiveness to TCR stimulation, which may be causal to the development of insulin-dependent diabetes mellitus (IDDM). Here, we demonstrate that anti-CD28 mAb stimulation restores complete NOD T cell proliferative responsiveness by augmentation of IL-4 production. Whereas neonatal treatment of NOD mice with anti-CD28 beginning at 2 wk of age inhibits destructive insulitis and protects against IDDM by enhancement of IL-4 production by islet-infiltrating T cells, administration of anti-CD28 beginning at 5-6 wk of age does not prevent IDDM. Simultaneous anti-IL-4 treatment abrogates the preventative effect of anti-CD28 treatment. Thus, neonatal CD28 costimulation during 2-4 wk of age is required to prevent IDDM, and is mediated by the generation of a Th2 cell-enriched nondestructive environment in the pancreatic islets of treated NOD mice. Our data support the hypothesis that a CD28 signal is requisite for activation of IL-4-producing cells and protection from IDDM.
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PMID:Neonatal activation of CD28 signaling overcomes T cell anergy and prevents autoimmune diabetes by an IL-4-dependent mechanism. 941 Sep 2

Oral administration of antigens has been proposed in the prevention and treatment of autoimmune diseases. We reported that oral administration of 0.8 mg of recombinant human insulin to 6-week-old NOD mice every other day for a month generated regulatory T-cells that were able to reduce the severity of insulitis and the percentage of clinical diabetes in naive irradiated recipients when co-injected with diabetogenic T-cells. In the present study, immunohistochemical analysis of the pancreatic glands revealed that injection of T-cells from insulin-fed mice upregulated the number of interleukin (IL)-4-secreting cells within the islets. Using two strains of NOD mice congenic at the Tbeta, or Thy1, locus, we observed a higher proportion of T-cells from insulin-fed mice in both the spleen (7.73 +/- 0.3 vs. 5.57 +/- 0.2%; P < 0.001) and the pancreatic lymph nodes (10.1 +/- 0.8 vs. 7.2 +/- 0.7%; P < 0.05) of cotransferred mice. By reverse transcription-polymerase chain reaction (RT-PCR) analysis, mice reconstituted with T-cells from insulin-fed animals had detectable amounts of IL-4 mRNA, specifically in the pancreatic lymph nodes (8 of 9 experimental mice vs. 1 of 9 control mice) and the pancreas (3 of 3 experimental mice vs. 0 of 3 control mice). Gamma-interferon mRNA was detectable in all cotransferred animals, but IL-10 mRNA and transforming growth factor beta mRNA were undetectable. These results suggested a shift from a T-helper 1 (Th1) to a Th2 pattern of cytokine expression and underlined the role of pancreatic lymph nodes in the protection. Repeated injections of 500 microg s.c. of anti-IL-4 monoclonal antibody led to an accentuation of the severity of islet infiltration and to the development of clinical diabetes. We concluded that oral administration of insulin can induce the presence of regulatory T-cells in the pancreas and the corresponding draining lymph nodes, initiate the secretion of IL-4 in this microenvironment sufficiently to suppress the activity of Th1 autoreactive T-cell clones, and ultimately provide protection against autoimmune diabetes.
Diabetes 1998 Jan
PMID:Protection against autoimmune diabetes with oral insulin is associated with the presence of IL-4 type 2 T-cells in the pancreas and pancreatic lymph nodes. 942 72

Although glutamic acid decarboxylase (GAD) has been implicated in IDDM, there is no direct evidence showing GAD-reactive T cells are diabetogenic in vivo. To address this issue, 3-wk-old NOD mice received two injections of purified rat brain GAD; one mouse rapidly developed diabetes 3 wk later. Splenocytes from this mouse showed a proliferative response to purified GAD, and were used to generate a CD4+ T cell line, designated 5A, that expresses TCRs encoding Vbeta2 and Vbeta12. 5A T cells exhibit a MHC restricted proliferative response to purified GAD, as well as GAD65 peptide 524-543. After antigen-specific stimulation, 5A T cells secrete IFNgamma and TNFalpha/beta, but not IL-4. They are also cytotoxic against NOD-derived hybridoma cells (expressing I-Ag7) that were transfected with rat GAD65, but not nontransfected hybridoma cells. Adoptive transfer of 5A cells into NOD/SCID mice produced insulitis in all mice. Diabetes occurred in 83% of the mice. We conclude that GAD injection in young NOD mice may, in some cases, provoke diabetes due to the activation of diabetogenic T cells reactive to GAD65 peptides. Our data provide direct evidence that GAD65 autoimmunity may be a critical event in the pathogenesis of IDDM.
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PMID:GAD-reactive CD4+ Th1 cells induce diabetes in NOD/SCID mice. 942 67

Mice that express influenza hemagglutinin under control of the rat insulin promoter (INS-HA) as well as a class II major histocompatibility complex (MHC)-restricted HA-specific transgenic TCR (TCR-HA), develop early insulitis with huge infiltrates, but progress late and irregularly to diabetes. Initially, in these mice, INS-HA modulates the reactivity of antigen-specific lymphocytes, such that outside the pancreas they do not cause lethal shock like their naive counterparts in single transgenic TCR-HA mice, when stimulated with high doses of antigen. Inside the pancreas, the antigen-specific cells do not initially attack the islet cells, and produce some IFN-gamma as well as IL-10 and IL-4. Spontaneous progression to diabetes, which can be accelerated by cyclophosphamide injection, is accompanied by a 10-fold increase in IFN-gamma and a 3-fold decrease in IL-10 and IL-4 production by the locally residing antigen-specific T cells. Also, total islets from non-diabetic mice contain more TNF-alpha, compared with diabetic mice. This scenario is consistent with the view that beta cell destruction depends upon the increased production of certain pro-inflammatory cytokines by infiltrating T cells. Our inability to detect Fas expression on beta cells, but not on lymphoid cells, in diabetic and non-diabetic mice, puts some constraints on the role of Fas in beta cell destruction.
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PMID:Changes in function of antigen-specific lymphocytes correlating with progression towards diabetes in a transgenic model. 942 42

Type 1 diabetes (insulin-dependent diabetes mellitus, IDDM) is a disease controlled by the major histocompatibility complex (MHC) which results from T-cell-mediated destruction of pancreatic beta-cells. The incomplete concordance in identical twins and the presence of autoreactive T cells and autoantibodies in individuals who do not develop diabetes suggest that other abnormalities must occur in the immune system for disease to result. We therefore investigated a series of at-risk non-progressors and type 1 diabetic patients (including five identical twin/triplet sets discordant for disease). The diabetic siblings had lower frequencies of CD4-CD8- Valpha24JalphaQ+ T cells compared with their non-diabetic sibling. All 56 Valpha24JalphaQ+ clones isolated from the diabetic twins/triplets secreted only interferon (IFN)-gamma upon stimulation; in contrast, 76 of 79 clones from the at-risk non-progressors and normals secreted both interleukin (IL)-4 and IFN-gamma. Half of the at-risk non-progressors had high serum levels of IL-4 and IFN-gamma. These results support a model for IDDM in which Thl-cell-mediated tissue damage is initially regulated by Valpha24JalphaQ+ T cells producing both cytokines; the loss of their capacity to secrete IL-4 is correlated with IDDM.
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PMID:Extreme Th1 bias of invariant Valpha24JalphaQ T cells in type 1 diabetes. 942 63

Insulin-dependent diabetes mellitus (IDDM) is an autoimmune disease that is characterized by the destruction of insulin-producing beta-cells in the pancreatic islets. A single administration of CFA prevents clinical hyperglycaemia in non-obese diabetic (NOD) mice. We have previously shown that CFA administration does not eliminate insulitis in the pancreas of the treated animals, but diverts the disease process from a destructive to a non-destructive pathway. We provide evidence that this phenomenon may be under cytokine control. Neutralizing monoclonal antibodies against IL-4 and IL-10 were injected, singularly or in combination, into CFA-treated NOD mice. Antibody treatment did not lead to the development of overt diabetes; however, a marked impairment of glucose tolerance was shown in about one half of the mice treated with a combination of the two antibodies at the end of the study. This functional abnormality correlated with the histological loss of pancreatic islet tissue. These studies suggest a role for IL-4 and IL-10 in CFA-induced protection from diabetes in the NOD mouse. They also suggest that, in this animal model, the nature of the autoimmune response to islet tissue (either destructive or non-destructive) may reflect the relative proportion of Th1- and Th2-type cytokines produced in the lesions.
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PMID:Protection from autoimmune diabetes by adjuvant therapy in the non-obese diabetic mouse: the role of interleukin-4 and interleukin-10. 942 94

The present study demonstrated that the administration of recombinant interleukin-4 (rIL-4) prevented overt diabetes in nonobese diabetic (NOD) mice whose T cells produced relatively low amounts of IL-4. However, massive insulitis was observed in rIL-4-treated NOD mice. The flow cytometric analysis of islet-infiltrating T cells revealed that the number of CD45RBlowCD4+ T cells was significantly increased by in vivo administration of rIL-4. By measuring the cytokine production of splenic T cells after stimulation, it was shown that CD45RBlowCD4+ T cells predominantly produced IL-4 and IL-10 but produced less IL-2 and interferon-gamma (IFN-gamma). A semiquantitative reverse-transcriptase polymerase chain reaction assay revealed a higher expression of IL-4 and IL-10 mRNA and an apparent decrease in IFN-gamma mRNA in the islets of NOD mice which were administered rIL-4. These results suggested that autoreactive CD45RBlowCD4+ T helper 2 (Th2)-like cells which developed following rIL-4 administration were predominant in the infiltrate of the islets, and overt diabetes was prevented. On the other hand, when splenocytes from rIL-4-treated NOD mice were transferred to irradiated NOD recipients, along with splenocytes from diabetic NOD mice, all of the recipient mice became diabetic within 8 weeks after transfer. Considered together, a supplement of rIL-4 administered to NOD mice may protect against autoimmune diabetes by facilitating the development of Th2-like autoreactive T cells in the islets.
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PMID:Administration of IL-4 prevents autoimmune diabetes but enhances pancreatic insulitis in NOD mice. 947 84

We have previously shown that nonobese diabetic (NOD) mice are selectively deficient in alpha/beta-T cell receptor (TCR)+CD4-CD8- NKT cells, a defect that may contribute to their susceptibility to the spontaneous development of insulin-dependent diabetes mellitus (IDDM). The role of NKT cells in protection from IDDM in NOD mice was studied by the infusion of thymocyte subsets into young female NOD mice. A single intravenous injection of 10(6) CD4-/lowCD8- or CD4-CD8- thymocytes from female (BALB/c x NOD)F1 donors protected intact NOD mice from the spontaneous onset of clinical IDDM. Insulitis was still present in some recipient mice, although the cell infiltrates were principally periductal and periislet, rather than the intraislet pattern characteristic of insulitis in unmanipulated NOD mice. Protection was not associated with the induction of "allogenic tolerance" or systemic autoimmunity. Accelerated IDDM occurs after injection of splenocytes from NOD donors into irradiated adult NOD recipients. When alpha/beta-TCR+ and alpha/beta-TCR- subsets of CD4-CD8- thymocytes were transferred with diabetogenic splenocytes and compared for their ability to prevent the development of IDDM in irradiated adult recipients, only the alpha/beta-TCR+ population was protective, confirming that NKT cells were responsible for this activity. The protective effect in the induced model of IDDM was neutralized by anti-IL-4 and anti-IL-10 monoclonal antibodies in vivo, indicating a role for at least one of these cytokines in NKT cell-mediated protection. These results have significant implications for the pathogenesis and potential prevention of IDDM in humans.
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PMID:alpha/beta-T cell receptor (TCR)+CD4-CD8- (NKT) thymocytes prevent insulin-dependent diabetes mellitus in nonobese diabetic (NOD)/Lt mice by the influence of interleukin (IL)-4 and/or IL-10. 952 21

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