UMLS:C0014070 - FACTA Search

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Query: UMLS:C0014070 (encephalomyelitis)
13,017 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Allelic exclusion at the T cell receptor alpha locus TCR-alpha is incomplete, as demonstrated by the presence of a number of T lymphocyte clones carrying two expressed alpha chain products. Such dual alpha chain T cells have been proposed to play a role in autoimmunity, for example, because of a second TCR-alpha beta pair having bypassed negative selection by virtue of low expression. We examined this hypothesis by generating mice of various autoimmunity-prone strains carrying a hemizygous targeted disruption of the TCR-alpha locus, therefore unable to produce dual alpha chain T cells. Normal mice have a low but significant proportion of T cells expressing two cell-surface TCR-alpha chains that could be enumerated by comparison to TCR-alpha hemizygotes, which have none. Susceptibility to various autoimmune diseases was analyzed in TCR-alpha hemizygotes that had been backcrossed to disease-prone strains for several generations. The incidence of experimental allergic encephalomyelitis and of lupus is not affected by the absence of dual TCR-alpha cells. In contrast, nonobese diabetic (NOD) TCR alpha hemizygotes are significantly protected from cyclophosphamide-accelerated insulitis and diabetes. Thus, dual alpha T cells may play an important role in some but not all autoimmune diseases. Furthermore, since protected and susceptible NOD mice both show strong spontaneous responses to glutamic acid decarboxylase, responses to this antigen, if necessary for diabetetogenesis, are not sufficient.
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PMID:Dual T cell receptor alpha chain T cells in autoimmunity. 756 98

Mycobacterium tuberculosis (Mt), routinely used to promote the induction of autoimmune diseases, can also protect against their development. Recently, we demonstrated that purified protein derivative (PPD) is the major fraction of Mt that protects mice against the induction of experimental autoimmune encephalomyelitis (EAE). We have now ascribed the protective activity to a 12-kDa protein purified from PPD. Sequence identity between the first 17 amino acids of the 12-kDa PPD protein and the 10-kDa BCG-a protein of Mt suggested that these proteins are identical or closely related. However, in contrast to the 12-kDa PPD protein, the 10-kDa BCG-a protein did not protect against EAE, nor did it stimulate PPD-specific T cells, suggesting that the 12-kDa PPD protein and the 10-kDa BCG-a protein share some homology but are not identical. The protective activity of the 12-kDa PPD protein correlated with its ability to stimulate PPD-specific T cells. The significance of this correlation is not clear and the mechanism of protection was not fully elucidated. However, N-terminal sequence identity between the 12-kDa PPD protein and the 10-kDa BCG-a protein, which shares 43% homology with GroES stress protein, suggested that the 12-kDa PPD protein may also belong to the bacterial heat-shock protein (hsp) family. Thus, by analogy with protection against arthritis or diabetes by hsp65, the mechanism of protection could be based on shared T cell epitopes with the target self Ag. However, the 12-kDa PPD protein did not stimulate encephalitogenic T lymphocytes. Effective protection against EAE by the 12-kDa PPD protein, in the absence of a stimulatory effect on encephalitogenic T lymphocytes, suggests a potential use for this protein in the therapy of autoimmune diseases.
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PMID:A 12-kDa protein of Mycobacterium tuberculosis protects mice against experimental autoimmune encephalomyelitis. Protection in the absence of shared T cell epitopes with encephalitogenic proteins. 787 60

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

There is now increasing evidence that the hormonal form of vitamin D, 1,25(OH)2D3, is involved in the regulation of the immune system. Local production of the hormone in various infectious diseases can benefit the immune environment. 1,25(OH)2D3 exerts most of its actions only after it has bound to its specific nuclear receptor. These receptors are present in monocytes and activated lymphocytes. The hormone inhibits lymphocyte proliferation and immunoglobulin production in a dose-dependent fashion. It also blocks the accumulation of the mRNAs for IL-2, IFN-gamma and GM-CSF. It interferes with T helper cell (Th) function, reducing Th-induction of immunoglobulin production by B-cells and inhibits the passive transfer of cellular immunity by Th in vivo. The steroid hormone promotes suppressor cell activity and inhibits the generation of cytotoxic and NK cells. The expression of Class II antigen by lymphocytes and monocytes is also affected. In vivo, 1,25(OH)2D3 is particularly effective in preventing auto-immune diseases such as experimental auto-immune encephalomyelitis, murine lupus, and diabetes in NOD mice. Synthetic analogues of vitamin D3 that bind to receptors but have no hypercalcemic effect in vivo have recently been developed for therapeutic use.
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PMID:[Vitamin D and the immune system]. 809 May 62

Immunomodulatory azaspirane compounds have immunosuppressive activity in animal models of autoimmune disease such as adjuvant-induced arthritis and experimental autoimmune encephalomyelitis. The mechanism of action of azaspiranes appears to be the induction of antigen non-specific (natural) suppressor cell activity. In this study, we tested the azaspirane, SK&F 106610 in an animal model of autoimmune (type 1) diabetes, the BB rat. Oral administration of SK&F 106610 (15 mg/kg/day) to diabetes-prone BB rats, from age 30 days, significantly decreased diabetes incidence at 100 days from 80% (24 of 30 control rats) to 32% (10 of 31 drug-treated rats, P < 0.001). Protection from diabetes by SK&F 106610 was accompanied by decreased lymphocytic infiltration of the pancreatic islets (insulitis). No changes occurred in splenic T cell, B cell or macrophage subsets, or in proliferative responses to the mitogens lipopolysaccharide and concanavalin A (Con-A). Cell mixing experiments in vitro, however, revealed increased antigen non-specific suppressor activity (suppression of splenic lymphoproliferative response to Con-A) in spleens of SK&F 106610-treated rats. The suppressor cell activity was enriched in a low density fraction of splenic cells relatively depleted of T cells, B cells, macrophages and natural killer cells. These results indicate that the azaspirane compound, SK&F 106610 can prevent insulitis and autoimmune diabetes in BB rats and that these actions may be related to the activation of non-specific (natural) suppressor cells.
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PMID:Prevention of diabetes and induction of non-specific suppressor cell activity in the BB rat by an immunomodulatory azaspirane, SK&F 106610. 845 85

Vitamin D has been discovered at the beginning of this century. 7-Dehydrocholesterol is converted to vitamin D3 in the skin and after several hydroxylations it is further converted to the active hormonal form, 1 alpha,25-(OH)2D3. Vitamin D stimulates the absorption of calcium and phosphate and is an essential link in bone resorption and formation and calcium metabolism. 1 alpha,25-(OH)2D3 acts through a vitamin D receptor. These receptors are not only present in clinical target organs (kidney, gut, liver) but can also be found in a wide variety of "non-classical" tissues (keratinocytes, cells belonging to the immune system). Moreover, numerous cells (keratinocytes, macrophages) can locally synthetize or can be induced to synthetize 1 alpha,25-(OH)2D3 and these cells are responsive to its action. When these data are combined, a possible paracrine function of 1 alpha,25-(OH)2D3 can be suspected. Via this paracrine function 1 alpha,25-(OH)2D3 can suppress the cellular and humoral immunity. Based on the discovery of these effects on immune cells in vitro it became clear that 1 alpha,25-(OH)2D3 might be an interesting molecule to prevent autoimmune diseases and organ transplantation. This has already been shown in several animal models (Heymann nephritis, diabetes mellitus, experimental allergic-encephalomyelitis, lupus). 1 alpha,25-(OH)2D3 demonstrates however some side-effects (hypercalciuria, hypercalcemia, bone resorption) and for this reason 1 alpha,25-(OH)2D3-analogs are developed with dissociated effects i.e. an activity profile that allows a specific action on non-classical tissues without calcemic effects. Some chemical modifications of the side chain, A and/or CD-ring results in "superanalogs" with 10 to 100-fold more activity on cell differentiation and the immune system then 1 alpha,25-(OH)2D3 but with less calcemic activity in vivo. These biological effects can be explained by differences in pharmacokinetics (low affinity for the plasma vitamin D-binding protein and short extracellular half-life) and increased intracellular activation and gen transactivation. Preclinical research must still be done to select the most potent superanalogs and to find the exact protocols for the prevention and treatment of autoimmune diseases and rejection of transplanted organs.
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PMID:[Immune modulation by vitamin D analogs in the prevention of autoimmune diseases]. 857 69

A variable region gene of the T-cell receptor, V beta 8.2, is rearranged, and its product is expressed on pathogenic T cells that induce experimental autoimmune encephalomyelitis (EAE) in H-2u mice after immunization with myelin basic protein (MBP). Vaccination of these mice with naked DNA encoding V beta 8.2 protected mice from EAE. Analysis of T cells reacting to the pathogenic portion of the MBP molecule indicated that in the vaccinated mice there was a reduction in the Th1 cytokines interleukin-2 (IL-2) and interferon-gama. In parallel, there was an elevation in the production of IL-4, a Th2 cytokine associated with suppression of disease. A novel feature of DNA immunization for autoimmune disease, reversal of the autoimmune response from Th1 to Th2, may make this approach attractive for treatment of Th1-mediated diseases like multiple sclerosis, juvenile diabetes and rheumatoid arthritis.
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PMID:Suppressive vaccination with DNA encoding a variable region gene of the T-cell receptor prevents autoimmune encephalomyelitis and activates Th2 immunity. 870 50

Nitric oxide (NO) is a critical mediator of a variety of biological functions. A range of micro-organisms, including viruses, bacteria, protozoa and helminths, is sensitive to NO produced by macrophages activated with gamma-interferon (IFN-gamma) and lipopolysaccharide. In contrast, NO is involved in a number of important immunopathologies, including diabetes, graft-vs-host reaction, rheumatoid arthritis, systemic lupus erythematosus, experimental autoimmune encephalomyelitis and multiple sclerosis. Thus, it is crucial that the synthesis of NO is under tight regulation. This is achieved, in part, through the opposing cytokines produced by T helper 1 (Th1) and Th2 cells. Th1 cells produce IFN-gamma, which is the most powerful inducer of inducible NO synthase (iNOS). In contrast, interleukin 4 is produced by Th2 cells and inhibits the induction of iNOS at the level of transcription. Furthermore, NO is also produced by Th1 cells, whose proliferation can be inhibited by high concentrations of NO. Thus, apart from being a mediator of Th1/Th2 interaction, NO may also be an important self-regulatory molecule that prevents the over-expansion of Th1 cells which are implicated in a range of severe immunopathologies.
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PMID:Nitric oxide in infectious and autoimmune diseases. 872 41

Multiple sclerosis (MS) is a chronic demyelinating disease of the human central nervous system (CNS) which can be characterized clinically by a remitting-relapsing or a chronic progressive course. There is a striking similarity between the clinical and histopathological features of MS and the experimentally induced disease, experimental autoimmune encephalomyelitis (EAE). Induced by the injection of myelin basic protein (MBP) and adjuvants, EAE is characterized by clinical neurologic signs of paralysis and histopathologic changes consisting of perivascular mononuclear infiltration and demyelination. We have reported that the oral administration of MBP exerts a profoundly suppressive effect on EAE induced in the Lewis rat. This MBP-induced oral tolerance is characterized by an inhibition of EAE clinical neurologic signs, reduced CNS histopathologic changes, a profound decrease in the T-lymphocyte proliferative response specific for the fed antigen, and a decrease in serum antibody specific for MBP. In a chronic relapsing model of EAE in the B10.PL mouse, we have shown that the oral administration of MBP either prior to MBP challenge or on the first day of clinical signs results in a decreased number and severity of EAE relapses. The oral tolerance approach has also proven effective in the suppression of other organ-specific autoimmune diseases including collagen-induced arthritis, adjuvant arthritis, uveoretinitis, experimental myasthenia gravis, diabetes, and thyroiditis as well as graft rejection. Two primary mechanisms have been proposed to explain oral tolerance in EAE-active suppression following feeding of lower doses of antigen and clonal anergy or deletion following administration of higher doses. In vivo approaches in rats and transgenic mice have been used to further explore the mechanisms underlying oral tolerance. Administration of recombinant interleukin (IL)-2 was shown to reverse the tolerance induced by feeding low doses of MBP, but not the tolerance induced by feeding high doses of MBP, indicating that deletion had occurred in the high-dose group. Moreover, the oral administration of MBP to MBP-specific T-cell receptor (TCR) transgenic mice resulted in a profound decrease of the transgenic T cells in the blood, lymph node cells (LNC), mesenteric LNC, and spleen compartments. The proliferative response to MBP was also profoundly reduced in these organs, indicating that the cells had been deleted from these sites. The results achieved in animal models have led to clinical trials of oral tolerization in three human autoimmune diseases--MS, uveoretinitis, and rheumatoid arthritis--with promising results.
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PMID:Treatment of autoimmune disease by oral tolerance to autoantigens. 881 Oct 61

Orally administered autoantigens suppress autoimmunity in animal models, including experimental allergic encephalomyelitis, collagen and adjuvant-induced arthritis, uveitis, and diabetes in the non-obese diabetic mouse. Low doses of oral antigen induce antigen-specific regulatory T-cells in the gut, which act by releasing inhibitory cytokines such as transforming growth factor-beta, interleukin-4, and interleukin-10 at the target organ. Thus, one can suppress inflammation at a target organ by orally administering an antigen derived from the site of inflammation, even if it is not the target of the autoimmune response. Initial human trials of orally administered antigen have shown positive findings in patients with multiple sclerosis and rheumatoid arthritis. A double-blind, placebo-controlled, phase III multi-center trial of oral myelin in 515 relapsing-remitting multiple sclerosis patients is in progress, as are phase II clinical trials investigating the oral administration of type II collagen in rheumatoid arthritis, S-antigen in uveitis, and insulin in type I diabetes.
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PMID:Oral tolerance for the treatment of autoimmune diseases. 904 67

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