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)

Human interferon-beta (human IFN-beta) and rat interferon (rat IFN) were evaluated on experimental allergic encephalomyelitis (EAE) in rats, a delayed cellular reaction resembling human multiple sclerosis (MS). Rat IFN was active by intravenous and intracerebroventricular routes. It decreased the severity of clinical symptoms of paralysis during the 22 days of the assay. Human IFN-beta, on the contrary, had no effect when similarly tested in this rat model. Cyclophosphamide delayed the onset of paralysis, but levamisole enhanced the severity of the EAE.
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PMID:Effect of rat and beta-human interferons on hyperacute experimental allergic encephalomyelitis in rats. 241 42

Multiple sclerosis (MS) is an inflammatory demyelinating autoimmune disease if the central nervous system (CNS). Recently, the type I IFN, IFN-beta-1b was demonstrated to be a useful immunotherapy for MS. During treatment with IFN-beta-1b, toxicity at higher doses has been observed. IFN-tau, discovered for its role in the reproductive cycle, possesses all of the functions normally ascribed to the type I IFNs but lacks the toxicity normally associate with IFN treatment in vitro. We have examined the effects of IFN-tau treatment on experimental allergic encephalomyelitis (EAE), an animal model useful for the study of MS. EAE is a model of Ag-induced autoimmunity that can be modulated by bacterial superantigen to resemble the relapsing-remitting pattern of autoimmune disease observed in MS. IFN-tau was able to prevent development of EAE as effectively as IFN-beta but without associated toxicity such as lymphocyte suppression and weight loss. In addition, IFN-tau was able to prevent superantigen reactivation of EAE akin to the reduction in disease exacerbations observed in IFN-beta-1b treated MS patients. Mechanisms by which IFN-tau may prevent EAE include reduced proliferation in response to the autoantigen myelin basic protein and reduced TNF-alpha production. Thus, IFN-tau may prove to be a promising new IFN therapy for MS in light of its ability to prevent EAE and the lack of toxicity exhibited by this novel IFN.
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PMID:The IFN pregnancy recognition hormone IFN-tau blocks both development and superantigen reactivation of experimental allergic encephalomyelitis without associated toxicity. 754 84

Multiple sclerosis (MS) is probably caused by multiple factors, but there is evidence that an autoimmunological process is relevant for the pathogenesis. Cytokines can operate in different ways in MS and the animal model "experimental allergic encephalomyelitis (EAE). "Interferon gamma (IFN-gamma), tumor necrosis factor-alpha (TNF-alpha), TNF-beta, interleukin-1 (IL-1) and IL-2 are important inflammation mediators within the MS plaque, whereas IFN-alpha, IFN-beta, transforming-growth-factor-beta (TGF-beta) and IL-10 exert mainly immunosuppressive functions. Application of these anti-inflammatory cytokines and the selective block of pro-inflammatory cytokines are promising new therapeutic strategies with fewer side effects than the commonly used cytostatic drugs.
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PMID:[Pathogenesis and therapy of multiple sclerosis. The role of cytokines]. 771 57

The mechanism of action underlying the beneficial effect of IFN-beta in multiple sclerosis (MS) is not understood. To date, little information is available on the effects of IFN-beta in experimental autoimmune encephalomyelitis (EAE), the animal correlate of the human disease MS. Therefore, we investigated the effects of recombinant rat IFN-beta (rrIFN-beta) on EAE in Lewis rats with emphasis on a treatment regimen during the paralytic phase of the disease. The results indicated that rrIFN-beta dose-dependently inhibited disease activity with complete prevention at a s.c. dose of 300,000 U/day, provided that treatment was continued for 3 wk. Discontinuation of treatment on day 17 postimmunization resulted in a protracted and relapsing disease course with strongly enhanced clinical severity. Detailed immunohistology of central nervous system (CNS) tissue of protected animals revealed an almost complete absence of CNS lesions and a >90% reduction in the number of infiltrating leukocytes. Accordingly, isolation of mononuclear cells from spinal cord tissue of successfully treated EAE rats revealed a reduction of approximately 95% in the number of cells that produce IFN-gamma in response to the encephalitogenic peptide MBP63-88. Furthermore, rrIFN-beta significantly enhanced serum corticosterone levels, which showed an inverse relationship with disease activity. We show that rrIFN-beta can have both beneficial and detrimental effects on disease activity dependent on the timing and the duration of treatment. Beneficial effects on EAE are associated with inhibition of the extravasation of blood-derived mononuclear cells in the CNS.
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PMID:The length of treatment determines whether IFN-beta prevents or aggravates experimental autoimmune encephalomyelitis in Lewis rats. 895 26

Copolymer 1 (Copaxone) is a mixture of synthetic peptides composed of four amino acids. It has been shown to alter positively the natural history of multiple sclerosis by both reducing the relapse rate and affecting disability. A recently completed, large-scale, phase III, multicenter, double-blind study confirmed the therapeutic benefit shown in previous pilot studies. Side effects were mild and the daily subcutaneous treatment was well tolerated. Laboratory studies have shown that copolymer 1 prevents or modifies experimental allergic encephalomyelitis in several mammalian species. It induces immunologic suppressor cells, which are deficient in multiple sclerosis, and competitively inhibits the effect of central nervous system myelin antigens, thought to be important in the pathogenesis of multiple sclerosis. Copolymer 1 joins interferon beta in ushering in a new era of well-tolerated treatments for multiple sclerosis.
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PMID:A review of the clinical efficacy profile of copolymer 1: new U.S. phase III trial data. 896 18

Costimulatory molecules help determine T cell responses. CD80 (B7-1) and CD86 (B7-2), costimulatory proteins on antigen-presenting cells, bind to CD28 on T cells. When costimulation is coupled with a signal through the T cell receptor (TCR), T cell proliferation and cytokine secretion are induced. However, TCR signaling without CD80/CD86CD28 costimulation causes anergy. During multiple sclerosis (MS) exacerbations, circulating immune cells are activated, Th1 cytokine levels in the blood are elevated, and blood-derived immune cells destroy brain oligodendroglia. In the experimental autoimmune encephalomyelitis model of MS, CD80 on antigen-presenting cells induces Th1 cell responses; CD86 enhances generation of Th2 cells. Variation in CD80 and CD86 expression is likely to influence immune regulation in MS. We demonstrate that the number of circulating CD80(+) lymphocytes is increased significantly during MS exacerbations, but is normal in stable MS. These CD80(+) lymphocytes are predominantly B cells, based on two-color flow cytometry. The number of CD71(+) and HLA-DR+ lymphocytes and monocytes is also increased in active MS. Therapy with IFN beta-1b markedly reduces the number of circulating CD80(+) B cells and increases CD86(+) monocyte number. HLA-DR+, CD71(+), and CD25(+) mononuclear cell numbers are also reduced by therapy. The number of CD80(+) cells may be a useful surrogate marker during IFN-beta therapy, and reduction of CD80-mediated costimulation may be one therapeutic mechanism by which IFN-beta acts in MS.
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PMID:Increased CD80(+) B cells in active multiple sclerosis and reversal by interferon beta-1b therapy. 916 96

The underlying pathophysiology of multiple sclerosis is presumed to be autoimmune in nature. Attempts to find an effective treatment for this common disease of the central nervous system have primarily focused on immune-mediated therapies, both immunosuppressive and immunomodulatory. The wide variety of immunological abnormalities detected in multiple sclerosis and its animal model, experimental allergic encephalomyelitis, has prompted the testing of a diverse array of drugs to be used for treatment. Recent successes in the treatment of relapsing-remitting multiple sclerosis with interferon beta and glatiramer acetate have renewed interest in and raised expectations for the effective control of this neurological disorder. Improved methodology in clinical trials, the development of surrogate markers and the availability of novel therapies bode well for more rapid advances.
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PMID:Current immunotherapy in multiple sclerosis. 955 77

Experimental allergic encephalomyelitis (EAE) is an autoimmune disease of the central nervous system with many similarities to multiple sclerosis. The main effector cells involved are CD4+ T cells, recognizing encephalitogenic epitopes within the central nervous system, and macrophages, both of which secrete proinflammatory cytokines, such as IFN-gamma and TNF. Studies have shown that immunomodulation of this inflammatory response by anti-inflammatory cytokines (IL-4, IL-10, IFN-beta, and TGF-beta) can reduce clinical severity in EAE. The importance of TNF in EAE has been demonstrated by using soluble TNF-receptor molecules to inhibit EAE. However, the limitation of this type of therapy is the necessity for frequent administration of cytokine proteins due to their short biologic half-life. This study demonstrates that EAE can be inhibited by a single injection of therapeutic cytokine (IL-4, IFN-beta, and TGF-beta) DNA-cationic liposome complex directly into the central nervous system. DNA coding for a novel, dimeric form of human p75 TNF receptor also ameliorated clinical EAE. Local administration of DNA-cationic liposome complex has identified gene targets that may be more efficiently exploited using vectors producing more stable expression for effective treatment of neuroimmunologic disease.
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PMID:Cytokine gene therapy in experimental allergic encephalomyelitis by injection of plasmid DNA-cationic liposome complex into the central nervous system. 959 Feb 71

Recombinant interferon beta (IFNbeta) benefits patients with relapsing remitting multiple sclerosis (MS), but the mechanisms of action are unknown. We studied in vivo immunologic effects of IFNbeta treatment and their relationship to clinical efficacy. Cytokines were measured in blood and CSF from MS patients participating in a placebo-controlled phase III clinical trial and an open-label phase IV [corrected] tolerability study of IFNbeta-1a. Additionally, immunologic studies were conducted in animals with proteolipid protein (PLP)-induced chronic relapsing experimental autoimmune encephalomyelitis. Single intramuscular (IM) injections of IFNbeta-1a (6 MIU, 30 microg) were associated with significant in vivo upregulation of interleukin-10 (IL-10) and IL-4 but not IFNgamma mRNA in peripheral blood mononuclear cells. Forty-eight hours after each IFNbeta-1a injection, serum IL-10 levels increased and remained elevated for 1 week. IFNbeta-1a recipients in the placebo-controlled phase III clinical trial showed significantly increased concentrations of CSF IL-10 after 2 years of treatment. This response correlated with a favorable therapeutic response. Exposure of PLP-reactive murine T-cell lines to IFNbeta resulted in increased antigen-driven expression of IL-4 and IL-10 and reduced encephalitogenicity. IFNbeta-1a injections induce systemic and intrathecal immunosuppressive cytokines. Myelin-specific T cells treated with IFNbeta-1a demonstrate increased immunosuppressive cytokine expression and reduced encephalitogenicity. The relationship between increased CSF IL-10 and response to therapy suggests that induction of IL-10 is a mechanism underlying IFNbeta-1a effects in MS patients.
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PMID:In vivo effects of interferon beta-1a on immunosuppressive cytokines in multiple sclerosis. 959 77

IFN-beta has recently been shown to exert remarkable beneficial effects on disease development in patients with early stage relapsing-remitting MS. The specific immune mechanism(s) by which IFN-beta ameliorates this human demyelinating disease is at present undefined. One potential mechanism may reside in the antiproliferative activity of IFN-beta which may inhibit the expansion of autoaggressive T cells thereby limiting disease progression. In the present study we investigated whether the administration of recombinant rat IFN-beta (rrIFN-beta) to Lewis rats with actively induced experimental autoimmune encephalomyelitis (EAE) inhibits the expansion of encephalitogenic T cells in lymphoid organs and as such may contribute to suppression of disease activity in this widely used animal model for MS. Our data show that daily administrations of > or = 3 x 10(5) u rrIFN-beta to EAE rats, starting two days before MBP sensitization and continued for 10 days led to a dramatic and dose-dependent reduction in encephalitogenic T cells in both spleen and inguinal lymph nodes at day 8 post-immunization (p.i.). However, the rrIFN-beta-mediated reduction in effector T cells did not ameliorate paralytic disease as expected but significantly enhanced the severity of EAE. Analyses of lymphoid organs in the remission phase of EAE revealed strongly elevated numbers of encephalitogenic T cells in rrIFN-beta-treated versus control rats suggesting a rapid reversal of the antiproliferative action of rrIFN-beta followed by an overshoot in the subsequent expansion of these effector T cells. In conformity with higher numbers of encephalitogenic T cells and worsening of disease, animals also showed significantly greater perivascular inflammation in the CNS. The relevance of our findings in relation to the beneficial effects of IFN-beta in MS is discussed.
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PMID:Discontinuation of treatment with IFN-beta leads to exacerbation of experimental autoimmune encephalomyelitis in Lewis rats. Rapid reversal of the antiproliferative activity of IFN-beta and excessive expansion of autoreactive T cells as disease promoting mechanisms. 960 Jul 4

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