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)

Oral tolerance is a long recognized method to induce peripheral immune tolerance. The primary mechanisms by which orally administered antigen induces tolerance are via the generation of active suppression or clonal anergy. Low doses of orally administered antigen favor active suppression whereas higher doses favor clonal anergy. The regulatory cells that mediate active suppression act via the secretion of suppressive cytokines such as TGF beta and IL-4 after being triggered by the oral tolerogen. Furthermore, antigen that stimulates the gut-associated lymphoid tissue preferentially generates a Th2 type response. Because the regulatory cells generated following oral tolerization are triggered in an antigen-specific fashion but suppress in an antigen nonspecific fashion, they mediate "bystander suppression" when they encounter the fed autoantigen at the target organ. Thus it may not be necessary to identify the target autoantigen to suppress an organ-specific autoimmune disease via oral tolerance; it is necessary only to administer orally a protein capable of inducing regulatory cells that secrete suppressive cytokines. Orally administered autoantigens suppress several experimental autoimmune models in a disease- and antigen-specific fashion; the diseases include experimental autoimmune encephalomyelitis (EAE), uveitis, and myasthenia, collagen- and adjuvant-induced arthritis, and diabetes in the NOD mouse. In addition, orally administered alloantigen suppresses alloreactivity and prolongs graft survival. Initial clinical trials of oral tolerance in multiple sclerosis, rheumatoid arthritis, and uveitis have demonstrated positive clinical effects with no apparent toxicity and decreases in T cell autoreactivity.
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PMID:Oral tolerance: immunologic mechanisms and treatment of animal and human organ-specific autoimmune diseases by oral administration of autoantigens. 801 Dec 98

The interleukin-2 receptor (IL-2R) is expressed on proliferating T-lymphocytes following antigen stimulation. Activated IL-2R bearing lymphocytes accumulate as cellular infiltrates in autoimmune thyroiditis, insulin-dependent diabetes mellitus, rheumatoid arthritis and graft rejection. Affected cells in Hodgkin's disease, hairy cell leukaemia, non-Hodgkin's lymphoma, cutaneous T-cell lymphoma and lymphoid blast crises of chronic myeloid leukaemia also express IL-2R. Anti-IL-2R monoclonal antibodies or chimeric IL-2R toxins provide a way of selective elimination of such cells. These have been used in experimental models of autoimmunity and transplantation with beneficial results, providing a novel way of selective immunosuppression. In open uncontrolled trials, chimeric IL-2R toxin was found to be safe and effective in patients with refractory rheumatoid arthritis, insulin-dependent diabetes mellitus and IL-2R bearing leukaemias and lymphomas.
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PMID:Immunomodulation by interleukin-2 receptor targeted therapy. 801 99

The nonobese diabetic (NOD) mouse spontaneously develops insulin dependent diabetes mellitus. The disease is associated with a leucocytic infiltration of the pancreatic islets of Langerhans and it is believed that during the development of autoimmune diabetes, the insulin-secreting islet beta-cells are destroyed by autoreactive T lymphocytes. We investigated the alteration of lymphocyte subsets in central and peripheral lymphoid organs of NOD female mice with increasing age beginning before the onset of insulitis and ending well after the onset of diabetes. The spleen, inguinal and pancreatic lymph nodes all increased in cell number, especially after the onset of insulitis (8 weeks), and all decreased after the onset of diabetes. Flow cytometric studies showed a widening of the visible side scatter profile of female NOD lymph node cells which coincided with the initiation of insulitis. Anti-CD4 and anti-CD8 double staining of thymocytes revealed a large increase in the double negative population and a corresponding decrease in the double positive population, but this occurred long after the onset of diabetes. Generally, there was an increase in the CD4:CD8 ratio in the peripheral lymphoid organs during the onset of insulitis which was largely due to an increase in the CD4 T cell population while the ratio decreased after the onset of diabetes. In the spleen this was mostly due to an increase in CD8 T cells. The pancreatic lymph nodes, which theoretically might reflect what is happening in the pancreas, showed an unexpected decrease in overall cell number and a decrease in T-cells (especially CD4 T cells), while B cells were increased.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Lymphocyte subsets in thymus and peripheral lymphoid tissues of aging and diabetic NOD mice. 802 13

We have evaluated the effects of a treatment with soluble interleukin-1 receptor (sIL-1R) in the accelerated model of autoimmune diabetes induced by cyclophosphamide (CY) in the non-obese diabetic (NOD) mouse. Prior to the CY challenge (350 mgkg body weight), female euglycemic NOD mice were randomly divided into three groups (A-C). Groups B and C were treated daily from 1 day before to 13 days after the CY challenge with sIL-1R at doses of 0.2 and 2 mg/kg body weight. Group A was treated with PBS. By 2 weeks after CY administration, an acute form of autoimmune diabetes with glycosuria, hyperglycemia and severe insulitis occurred in the majority (13/20, 65%) of the control mice (group A). In contrast, repeated injections with sIL-1R protected NOD mice from insulin-dependent diabetes mellitus (IDDM) development in a dose-dependent fashion; the incidence of IDDM was 53.3% (8/15) in the mice treated with 0.2 mg/kg and only 6.7% (1/15) in those treated with 2 mg/kg. However, none of the doses of the sIL-1R reduced the extent of insulitis in NOD mice. Importantly, the anti-diabetogenic property of sIL-1R may not involve major T cell function impairment; accordingly, in parallel experiments, splenic lymphoid cells from NOD mice not challenged with CY, but treated with 2 mg/kg sIL-1R for 5 consecutive days showed a normal distribution of mononuclear cell subsets and maintained their capacity to secrete interferon-gamma and IL-2 and to proliferate in response to polyclonal mitogenic stimulation with concanavalin A.
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PMID:Protection from experimental autoimmune diabetes in the non-obese diabetic mouse with soluble interleukin-1 receptor. 805 41

Diabetes-prone (DP) and diabetes-resistant (DR) sublines of the BB rat have been established in Edinburgh, U.K., separately from other existing colonies. In an examination of the lymphoid status of the two lines, BB-DP/Ed and BB-DR/Ed, it has been found that both lines have very low T-cell numbers, depressed B-lymphocyte numbers and a complete absence of peripheral CD8+ T cells, all features characteristic of the previously described genetic lymphopenia lesion. It was also noted that the peripheral T cells of both BB/Ed lines were larger than normal. The DP/Ed and DR/Ed lines were indistinguishable in all these respects, and furthermore, they were both shown to type as RT1u at the major histocompatibility complex (MHC). The genetic combination of lymphopenia and RT1u without expression of diabetes is not present in other extant BB lines and makes BB-DR/Ed a uniquely useful control strain for BB rat studies as well as a valuable genetic resource for the further genetic analysis of diabetes susceptibility in rats.
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PMID:BB-DR/Edinburgh: a lymphopenic, non-diabetic subline of BB rats. 809 84

In this report we describe a patient who, after allogeneic bone marrow transplantation from her HLA-identical sister, developed polyendocrine failure in the form of Type 1 (insulin-dependent) diabetes mellitus and hypothyroidism. This was the result of the transfer of donor lymphoid cells which were activated by allogeneic bone marrow transplantation. The full chimerism of the recipient was demonstrated by restriction fragment length polymorphism analysis from nucleated blood cells and fibroblast DNA. During the 9-year follow-up, the donor developed hypothyroidism and signs of pre-Type 1 diabetes. This clinical observation resembles the adoptive transfer of diabetes observed in non-obese-diabetic mice and BB rats and confirms the role of immune processes in the pathogenesis of this disease.
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PMID:Autoimmune polyendocrine failure--type 1 (insulin-dependent) diabetes mellitus and hypothyroidism--after allogeneic bone marrow transplantation in a patient with lymphoblastic leukaemia. 810 99

This immunohistochemical study describes the infiltration pattern of monocytes-macrophages and dendritic cells during the development of insulitis and diabetes in the NOD mouse. A panel of monoclonal antibodies (MoAbs) was used to analyze pancreases of nondiabetic (glucosuria negative) male and female NOD mice at 3, 7, 10, and 17 weeks of age. BALB/c female mice 17-weeks-old, diabetic NOD female mice 20- to 30-weeks-old, and nondiabetic NOD male mice 22-weeks-old were used as controls. Three MoAbs (viz., ER-MP23, MOMA1, and BM8) were special and appeared to identify macrophage/dendritic cell subsets that either had a characteristic infiltration pattern in the initial phases of the autoimmune reaction before T-cell infiltration or were typical for the later beta-cell destructive insulitis process. 1) Raised numbers of ER-MP23+ and MOMA-1+ dendritic cells/macrophages were characteristic for the initial phases of the NOD insulitis in 3-week-old mice. The cells were found in and near swollen para-insular vessels. In 7-week-old mice, these ER-MP23+ and MOMA-1+ cells had accumulated around the islets and were the first hematopoietic cells detectable at these spots. 2) From 7 weeks of age onward, BM8+ macrophages could be found in the para- and peri-insulitis processes. However, only in females were these BM8+ macrophages found to infiltrate into the islets. In lymphoid tissues, ER-MP23 predominantly reacts with macrophages/dendritic cells present in the subcapsular and interfollicular sinuses of lymph nodes and the T-cell zones of these lymph nodes. ER-MP23 also reacts with tissue macrophages/dendritic cells.(ABSTRACT TRUNCATED AT 250 WORDS)
Diabetes 1994 May
PMID:Immunohistochemical characterization of monocytes-macrophages and dendritic cells involved in the initiation of the insulitis and beta-cell destruction in NOD mice. 816 44

The nonobese diabetic mouse is a relevant model for insulin-dependent diabetes mellitus which results from the destruction of pancreatic beta cells by mononuclear cells infiltrating the islets of Langerhans. Other organs such as salivary glands display inflammatory infiltration. Using immunohistochemical and flow cytometry analyses, we have studied the expression of diverse homing and adhesion molecules in salivary glands and the pancreas in nonobese diabetic mice. In salivary glands, ICAM-1 was expressed by endothelial and dendritic cells within the lymphocytic infiltration. HEV-like structures expressing PNAd were observed in the areas of lymphocytic infiltration whereas MAdCAM-1 was absent. Lymphocytes infiltrating salivary glands expressed LFA-1 and Pgp-1 although Mel-14 Ag was absent. In infiltrated islets, ICAM-1 was expressed by endothelial cells, dendritic cells, and mononuclear cells. We confirm the presence of HEV-like structures expressing MAdCAM-1 and PNAd in inflamed islets. With regard to peripheral lymphocytes, the proportion of CD4 and CD8 cells expressing Mel-14 was decreased in the infiltrated islets, whereas the expression of LFA-1, Pgp-1, and LPAM-1/2 was increased. B lymphocytes exhibited up-regulation of LPAM-1/2. Moreover, the proportion of CD4, CD8, and B lymphocytes expressing CD69 was increased in the pancreas. These results indicate that first, infiltration of islets of Langerhans results at least partly from modifications of adhesion molecule expression in the pancreas, which allow extravasation of mononuclear cells into the islets via at least three different pathways; and second, that activated cells are concentrated in the infiltrates as compared with peripheral lymphoid organs.
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PMID:Expression of homing and adhesion molecules in infiltrated islets of Langerhans and salivary glands of nonobese diabetic mice. 820 21

The nonobese diabetic (NOD) mouse is a model for human Type 1 diabetes mellitus. Pancreatic beta-cell destruction in NOD mice is mediated by an autoimmune process which can be accelerated by cyclophosphamide (CP). We studied the phenotype of lymphocytes from central, peripheral and regional lymphoid tissues in prediabetic NOD and C3H mice before and after a single large dose of CP. All lymphoid organs showed a greatly diminished cell number and most alterations appeared early after CP and were transient, but an aggressive insulitis was not seen in NOD mice until 14 d after injection. The pancreatic islets in C3H mice remained intact and were not infiltrated. NOD female mice, which are most prone to spontaneous and CP-induced diabetes, exhibited the most unusual lymphoid kinetics after treatment with CP. Their thymus and spleen showed the least relative drop in total cell number and the most rapid rate of recovery. The thymus of these mice was also found to have an increased proportion of CD3+ thymocytes while CD4/CD8 double positive thymocytes decreased 7 d after CP. At 14 d after CP the number of IL-2R+ thymocytes had surpassed that of normal levels. The most dramatic observation was the rapid recovery and overshoot in the number of pancreatic lymph node cells of female NOD mice which coincided with aggressive insulitis.
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PMID:The effect of cyclophosphamide treatment on lymphocyte subsets in the nonobese diabetic mouse: a comparison of various lymphoid organs. 821 26

The nonobese diabetic mouse in a model of spontaneous development of autoimmune type I diabetes. The disease can be induced in young, irradiated recipients by injecting splenic T-cells from diabetic donors. The adoptive transfer of diabetes requires the presence of both CD4+ and CD8+ splenic T-cell subsets. To test whether diabetogenic cells distribute in other lymphoid organs of diabetic mice, we first analyzed lymph node cells. Lymph node cells were much less efficient in transferring diabetes than splenocytes. This inefficacious transfer was not attributable to the absence of hematopoietic precursors or a lack of macrophages. Lymph node cells did not protect from the transfer of diabetes by splenocytes, indicating the absence of suppressor cells. Although CD8+ lymph node T-cells seemed functionally comparable to CD8+ splenocytes, CD4+ lymph node T-cells failed to cooperate with CD8+ splenocytes to transfer diabetes. Our study suggests that diabetogenic cells are not evenly distributed in the different lymphoid organs. This may reflect a differential migration pattern of pathogenic T-cells in this animal model.
Diabetes 1993 Dec
PMID:Lymph node T-cells do not optimally transfer diabetes in NOD mice. 824 28


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