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)

We performed immunocytochemical studies to analyze the inflammatory infiltrate and major histocompatibility complex class II (Ia) antigen expression in the spinal cord of Lewis rats with acute experimental allergic encephalomyelitis (EAE) induced by inoculation with myelin basic protein and adjuvants. Using antibodies to lymphocyte markers and other monoclonal antibodies we found that during clinical episodes the inflammatory infiltrate was chiefly composed of T lymphocytes and macrophages. The majority of cells in the inflammatory infiltrate were stained by the W3/25 antibody to CD4 and a proportion was stained by OX22 which labels the high molecular weight form of the leucocyte common antigen (CD45RC). CD8+ T cells were sparse and B cells were not detected. There was minimal staining with the OX39 antibody to the interleukin-2 receptor. Presumptive microglia, identified by their dendritic morphology, expressed Ia antigen during the clinical episodes and after recovery. The prominence of Ia antigen expression after recovery could indicate that this Ia expression was associated with downregulation of the encephalitogenic immune response. We also performed flow cytometry studies on cells extracted from the spinal cord of rats before and during attacks of EAE. With flow cytometry, we found that in established disease a mean of 83(SD, 23)% of CD2+ cells were CD4+, and a mean of 27(SD, 12)% of CD2+ cells were CD45RC+. In rats sampled on the first day of signs, a mean of 43(SD, 22)% of CD2+ cells were CD45RC+. In the cells extracted from the spinal cord of rats with established disease a mean of 47(SD, 32)% of macrophages were CD45RC+. Our study has combined an immunocytochemical assessment of tissue sections with quantitative flow cytometry assessment of cells extracted from the spinal cord of rats with acute EAE. We have shown that the majority of T lymphocytes in the spinal cord are CD45RC-. We have also found prominent Ia expression on dendritic cells in acute EAE and after clinical recovery.
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PMID:Expression of CD45RC and Ia antigen in the spinal cord in acute experimental allergic encephalomyelitis: an immunocytochemical and flow cytometric study. 133 96

We have previously demonstrated that CD4+ suppressor T cells (Ts) inhibit the secretion of interferon (IFN)-gamma, but not interleukin (IL)-2, by effector cells of experimental autoimmune encephalomyelitis (EAE). Moreover, CD4+ Ts appear to regulate IFN-gamma by secretion of transforming growth factor-beta. We now show that CD4+ Ts produce a lymphokine with IL-4 activity in response to a determinant associated with EAE effector cells. CD4+ Ts do not proliferate or secrete IFN-gamma, IL-2, or IL-4 in response to myelin basic protein, nor do CD4+ Ts proliferate or secrete IL-2 when co-cultured with irradiated EAE effector cells. Rather, CD4+ Ts secrete IL-4 when co-cultured with either irradiated effector spleen cells or irradiated encephalitogenic line cells. CD4+ Ts do not secrete IL-4 in response to OVA-primed spleen cells, suggesting that the suppressor cells recognize a determinant specific to encephalitogenic T cells. Furthermore, CD4+ Ts secrete IL-4 when cultured with synthetic T cell receptor (TcR) V beta 8, but not TcR V beta 14 peptide, in the presence of antigen-presenting cells. This response is major histocompatibility complex class II restricted as demonstrated by inhibition of the response with anti-class II monoclonal antibody. These results suggest that CD4+ Ts recognize a determinant associated with TcR on the surface of EAE effector cells and respond by secreting IL-4, in a manner analogous to the Th2 lymphocyte subtype.
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PMID:CD4+ suppressor cells of autoimmune encephalomyelitis respond to T cell receptor-associated determinants on effector cells by interleukin-4 secretion. 137 16

A body of literature exists implicating the major histocompatibility complex class II E molecule in development of immune tolerance and/or immunosuppression. To define better the regulatory mechanisms underlying susceptibility to experimental autoimmune encephalomyelitis, an autoimmune condition displaying major histocompatibility complex-II dependence, disease was induced in transgenic mice expressing a major histocompatibility complex-II E alpha d-transgene. This was compared with experimental autoimmune encephalomyelitis induced in age-matched E-negative, non-transgenic mice of the same strain. The results showed that experimental autoimmune encephalomyelitis could be induced by adoptive transfer methodology in both transgenic and non-transgenic mice of the A.CA (H-2f) strain. Virtually no differences were observed between the two mouse types with regard to disease onset, course, and neuropathology. The main difference noted was within nonirradiated recipient subgroups where the nonirradiated transgenic A.CA mice demonstrated greater inflammation and demyelination than the nonirradiated, non-transgenic mice throughout the disease course. Thus, the results did not support the idea that the E molecule, per se, is involved in the induction of tolerance or immunosuppressive mechanisms protecting against autoimmunity. In addition, histologic changes in the central nervous system of the A.CA strain, both transgenic and non-transgenic, differed in several respects from the changes observed in other more commonly studied susceptible strains. In A.CA mice, polymorphonuclear cells were a more prominent component of the acute inflammatory infiltrate and in chronic disease, large aggregates of lipid-laden macrophages and cholesterol clefts were present within white matter lesions. The present approach, using genetic manipulation of the immune system, may have relevance to the study of disease mechanisms in other putative autoimmune demyelinating disorders such as multiple sclerosis.
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PMID:Autoimmune demyelination in transgenic E alpha d-positive A.CA mice. Comparison with E-negative A.CA mice. 157 54

Multiple sclerosis is thought to be an autoimmune disease of the central nervous system mediated by T cells specific for a myelin antigen. Myelin basic protein has been studied as a potential autoantigen in the disease because of its role as an encephalitogen in experimental autoimmune encephalomyelitis and post-viral encephalomyelitis and because of the presence in the blood of multiple sclerosis patients of in vivo-activated T cells reactive to myelin basic protein. Immune involvement in multiple sclerosis has been further suggested by the association with the major histocompatibility complex class II phenotype DR2, DQw1. To define the T-cell specificity toward myelin basic protein, 15,824 short-term T-cell lines were established from multiple sclerosis subjects, subjects with other neurological diseases, and normal controls. Here we report a higher frequency of T-cell lines reactive with a DR2-associated region of myelin basic protein between residues 84-102 in patients with multiple sclerosis compared with controls. A second region, identified between residues 143-168, was recognized equally in multiple sclerosis patients and controls and was associated with the DRw11 phenotype. These DR2 and DRw11 associations were also observed among T-cell lines generated from family members of a multiple sclerosis patient. The immunodominant 84-102 peptide from myelin basic protein was both DR2- and DQw1-restricted among different T-cell lines. These results raise the possibility that this immunodominant region may be encephalitogenic in some DR2+ individuals.
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PMID:T-cell recognition of an immunodominant myelin basic protein epitope in multiple sclerosis. 169 70

The inducibility of major histocompatibility complex class II (Ia) antigens on glial cells of the brain suggests that neuroglia have immunoregulatory functions within the central nervous system (CNS), i.e., recognition and presentation of antigens. The aim of the present study was to investigate rat recombinant-interferon-gamma (r-IFN-gamma) induced Ia antigen expression in rat cerebral cultures containing type-1 astrocytes and macrophages, and in rat spinal cord cultures enriched in type-2 astrocytes or oligodendrocytes. We compared induction of Ia antigen expression in glial cell cultures derived from Lewis rats, which are very susceptible to experimental allergic encephalomyelitis (EAE), with those from Wistar rats, which are but modestly EAE susceptible. After 5 days in culture we found in Wistar rat type-1 astrocyte-enriched cultures that Ia antigens were expressed by 19% of the astrocytes, whereas we found that in Lewis rat type-1 astrocyte cultures a considerably higher number of astrocytes expressed Ia antigens (53%). However, no significant difference were found in Ia antigen expression between type-2 astrocytes derived from Wistar rat spinal cord (49%) and Lewis rat type-2 astrocytes (56%). In contrast, in oligodendrocyte-enriched cell cultures derived from either Lewis or Wistar rats no Ia antigen expression was found. Interestingly, we found in type-1 astrocyte-enriched cerebral cultures a large number (approx. 46% of the cells) of brain macrophages (amoeboid microglia), all expressing Ia antigens after treatment with r-IFN-gamma.
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PMID:Interferon-gamma induced IA antigen expression on cultured neuroglial cells and brain macrophages from rat spinal cord and cerebrum. 177 40

Infection of athymic (nu/nu) mice with Theiler's murine encephalomyelitis virus results in an acute encephalitis which resembles poliomyelitis. Immunohistochemistry and in situ hybridization were used to delineate the presence of viral proteins and RNA in the nervous systems of nude mice infected with the Daniels strain of Theiler's virus. This system permits the analysis of a viral infection in the absence of an effective immune response. By immunohistochemistry, viral antigen was found in the processes and cell bodies of neurons and glial cells. Besides the presence of viral antigen in these cell types, by in situ hybridization, Theiler's virus RNA was also found in cells associated with vascular endothelium in the brains and spinal cords of these infected mice. Theiler's virus RNA-positive endothelial cells were observed not only near the primary lesions but also away from demonstrable lesions in normal-appearing regions in the central nervous system. Earlier work had suggested an intra-axonal dissemination for this virus (M. C. Dal Canto and H. L. Lipton, Am. J. Pathol. 106:20-29, 1982). Our findings are consistent with this model but also suggest an additional mechanism for virus spread within the central nervous system, i.e., by infecting vascular cells and crossing the blood-brain barrier. Lastly, after Theiler's murine encephalomyelitis virus infection, not only glial cells but also endothelial cells express major histocompatibility complex class II (la) antigen on their surface (M. Rodriguez, M. L. Pierce, and E. A. Howie, J. Immunol. 138:3438-3442, 1987). Our demonstration of Theiler's virus-infected endotheliumlike cells may explain interactions of virus products in stimulating antigen presentation.
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PMID:Theiler's virus infection in nude mice: viral RNA in vascular endothelial cells. 284 61

Experimental allergic encephalomyelitis (EAE) is an autoimmune disease mediated by myelin protein-specific CD4+ T lymphocytes of the T(h)1-like phenotype. In rats, the disease is characterized by a monophasic clinical manifestation, followed by a subsequent spontaneous remission and the establishment of life-long resistance to reinduction of disease. Recent data indicate that intracerebral cytokine production, in particular synthesis of interleukin(IL)-10, is selectively up-regulated during the recovery phase of disease. This led us to assess the effects of IL-10 on different rat lymphoid cell functions in vitro and to consider the possibility of an IL-10-mediated treatment to prevent the induction of central nervous system (CNS) autoimmune disease in vivo. Human recombinant IL-10 suppressed interferon-gamma induced major histocompatibility complex class II up-regulation in rat peritoneal macrophages, exhibited pleiotropic effects on thymocytes and totally abrogated tumor necrosis factor production of encephalitogenic T lymphocytes in vitro, without simultaneously affecting proliferative responses of the cells. Upon systemic administration during the initiation phase of disease, IL-10 was effective in markedly suppressing the subsequent induction of EAE in Lewis rats. This suppression of clinical disease coincided with a significant and specific elevation of myelin basic protein-specific autoantibody production, a sustained T cell proliferative response to myelin basic protein and a diminution of CNS infiltrations and thymic involutions in diseased animals. These data implicate IL-10 as a possible candidate for treatment of T(h)1-mediated CNS (auto-) immune diseases.
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PMID:Interleukin-10 prevents experimental allergic encephalomyelitis in rats. 751 15

The pathogenic potential of autoimmune T cell responses to nonmyelin autoantigens was investigated in the Lewis rat using the astrocyte-derived calcium binding protein S100 beta, as a model nonmyelin autoantigen. The Lewis rat mounts a vigorous RT1B1 (major histocompatibility complex class II) restricted autoimmune response to an immunodominant S100 beta epitope (amino acid residues 76-91). The adoptive transfer of S100 beta-specific T cell lines induced a severe inflammatory response in the nervous system, but only minimal neurological dysfunction in naive syngeneic recipients. The inability of S100 beta-specific T cell transfer to induce severe disease was associated with a decreased recruitment of ED1+ macrophages into the central nervous system (CNS) in comparison with that seen in severe experimental autoimmune encephalomyelitis (EAE) induced by the adoptive transfer of myelin basic protein (MBP)-specific T line cells. Moreover, unlike encephalitogenic MBP-specific T cell lines, S100 beta-specific T cell lines exhibited no cytotoxic activity in vitro. Histopathological analysis also revealed striking differences in the distribution of inflammatory lesions in MBP- and S100 beta-specific T cell-mediated disease. In contrast to the MBP paradigm, S100 beta-specific T cell transfer induces intense inflammation not only in the spinal cord, but throughout the entire CNS and also in the uvea and retina of the eye. In view of the distribution of lesions throughout the grey and white matter of the CNS we propose to term this new model experimental autoimmune panencephalomyelitis (EAP) to differentiate it from EAE. These experiments demonstrate for the first time that nonmyelin CNS autoantigens can initiate a pathogenic autoimmune T cell response, although the nature of the target autoantigen profoundly influences the clinical and histopathological characteristics of the resulting autoimmune disease. This is not simply a consequence of the distribution of the autoantigen, as both MBP and S100 beta are coexpressed in many areas of the CNS, but reflects differences in the capacity of different regions of the CNS to process and present specific autoantigens. This new model of T cell-mediated autoimmune CNS disease exhibits a number of similarities to multiple sclerosis (MS), such as its mild clinical course and the involvement of areas of the brain and eye, which are absent in myelin-mediated models of EAE. Nonmyelin autoantigens may therefore play an unexpectedly important role in the immunopathogenesis of inflammatory diseases of the CNS.
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PMID:Experimental autoimmune panencephalitis and uveoretinitis transferred to the Lewis rat by T lymphocytes specific for the S100 beta molecule, a calcium binding protein of astroglia. 752 Apr 74

Experimental autoimmune encephalomyelitis (EAE) is an inflammatory disease of the central nervous system (CNS) which can be induced, in susceptible strains like Lewis rats, by transfer of activated myelin basic protein (MBP)-specific CD4+ T lymphocytes. The role of cerebral endothelium in the onset of EAE, with regard to adhesion, activation and infiltration in the CNS of encephalitogenic T lymphocytes, is not fully understood. When pretreated by interferon-gamma, the immortalized Lewis rat brain microvessel endothelial (RBE4) cells expressed major histocompatibility complex class II molecules and stimulated MBP-specific proliferation and cytolytic activity of the syngeneic encephalitogenic T cell line, designated PAS. However, RBE4-stimulated PAS lymphocytes subsequently entered an unresponsive state, known as anergy. When inoculated in syngeneic animals, anergic PAS cells, although still cytotoxic, failed to induce EAE, and no cell infiltration was detectable within CNS. The addition of interleukin-1 beta (IL-1 beta) during MBP presentation by RBE4 cells prevented T cell anergy induction, and maintained T cell encephalitogenicity, although PAS cells stimulated in these conditions caused delayed and attenuated clinical signs of EAE, with only discrete inflammatory lesions in the CNS, compared with EAE induced by PAS cells fully activated by thymic cells. Altogether, our results indicate that MBP presentation by brain microvessel endothelial cells to encephalitogenic T cells induces T cell anergy and loss of pathogenicity. In addition, IL-1 beta co-stimulation of T cells prevents anergy induction in vitro and at least partially maintains encephalitogenicity in vivo.
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PMID:Anergy induction in encephalitogenic T cells by brain microvessel endothelial cells is inhibited by interleukin-1. 753 49

Experimental allergic encephalomyelitis, a cell-mediated autoimmune disease, continues to provide interesting data on the mechanisms subserving organ-specific autoimmunity. The elements of the trimolecular complex have been further defined and the conserved molecular basis of the interaction between the T-cell receptor and the major histocompatibility complex class II-peptide antigen complex is better understood. This model also provides new insights into the cellular interactions within the brain during the course of the autoimmune inflammatory response.
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PMID:Immunopathogenic mechanisms in experimental allergic encephalomyelitis. 768 23

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