Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0014070 (encephalomyelitis)
13,017 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The diversity of Ag-specific receptors on T cells homing to an inflammatory infiltrate in the central nervous system has been analyzed. Experimental autoimmune encephalomyelitis, a T cell-mediated inflammatory disease of the central nervous system, was induced in Lewis rats with a CD4+, CD8- T cell line specific for peptide 68-86 of myelin basic protein. Within the line a wide array of TCR V beta genes was transcribed including the V beta 8, V beta 10, V beta 15, V beta 16, and V beta 19 families. Accumulation of T cells at the site of inflammation was determined by using RNA-polymerase chain reaction amplification of rearranged TCR V beta transcripts derived from brain. By 8 to 10 h after i.p. infusion of the pathogenic T cell line, TCR V beta transcripts, including mainly V beta families that were predominantly rearranged by the line, could be identified in brains. Restricted TCR V gene transcripts with predominance of the V beta 8 family were identified in brain 48 h after injection, before onset of disease. Paralysis was apparent by 4 to 5 days after injection. At this time diverse V beta gene transcripts were detected in brain, reaching a maximum by day 9, when paralyzed rats have recovered. By day 14 a second stage of limited heterogeneity in the T cell infiltrate could be identified with predominant expression of V beta 8, V beta 9, V beta 10, and V beta 19. Interestingly, three out of these four V beta families were predominantly expressed within the encephalitogenic line. Thus, T cell migration to brain in experimental autoimmune encephalomyelitis is characterized by a rapid penetration of T cells followed by a selective trapping of T cells before the clinical manifestations of disease. When clinical disease was present the T cell infiltrate was diverse, whereas in the post-acute phase of disease the T cells in the central nervous system had limited heterogeneity with selective accumulation of T cells transcribing the same V regions that were detected in the line that incited disease.
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PMID:Selective and nonselective stages in homing of T lymphocytes to the central nervous system during experimental allergic encephalomyelitis. 838 7

Inflammation of the central nervous system (CNS) in experimental autoimmune encephalomyelitis (EAE) starts in the subarachnoid space (SAS) and spreads later to the adjacent CNS parenchyma. To characterize the nature of lesion-forming T cells in situ in more detail, T cells were isolated from the SAS and their surface phenotype and the nucleotide sequence of the junctional region of the T cell receptor (TCR) was determined and compared with those of the lymph node (LN) and spinal cord (SC) T cells. Characteristically, more than 70% of SAS TCR alpha beta + T cells isolated at the early stage of EAE lacked both CD4 and CD8 molecules, whereas those from LN and SC were either CD4+ or CD8+. Analysis of nucleotide sequences of the junctional region of TCR revealed that T cells bearing a sequence identical to that for encephalitogenic T cell clones were found in both SAS and SC. Furthermore, purified CD4-CD8- T cells expressed CD4 molecules after culture. At the same time, these T cells acquired reactivity to myelin basic protein and induced passive EAE in naive animals after adoptive transfer. Our results suggest that CD4-CD8- T cells in the SAS are precursors of lesion-forming T cells in the SC and that phenotype switching takes place during the process of T cell infiltration into the CNS parenchyma. The double-negative nature of these T cells may explain an escape of encephalitogenic T cells from negative selection in T cell differentiation.
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PMID:Characterization of CD4-CD8- T cell receptor alpha beta + T cells appearing in the subarachnoid space of rats with autoimmune encephalomyelitis. 864 13

We have used an established experimental model of multiple sclerosis to investigate the potential beneficial relationship between natural autoimmunity and remyelination after central nervous system (CNS) demyelination. Intracerebral infection of SJL/J mice with Theiler's murine encephalomyelitis virus (TMEV) produces chronic, progressive, inflammatory CNS demyelination. Chronically infected SJL/J mice show minimal spontaneous remyelination, which is in part due to a T cell-mediated immune response inhibiting myelin repair. We previously identified a monoclonal natural autoantibody, designated SCH94.03, that promotes remyelination when passively transferred to chronically infected SJL/J mice. The mechanism whereby SCH94.03 promotes remyelination is unknown, although previous reports suggest that natural autoantibodies can modulate immune system function. In this report we demonstrate that treatment with SCH94.03 reduced by 2- to 3-fold the number of CD4(+) and CD8(+) cells infiltrating the CNS of SJL/J mice chronically infected with TMEV, in the absence of global lymphocyte depletion. Associated with the decreased inflammation was a 2- to 3-fold increase in virus antigen expression without a significant increase in viral RNA or virus titers. Treatment with SCH94.03 also suppressed the humoral immune response to a T cell-dependent antigen in chronically infected mice. Immunohistochemical staining showed that SCH94.03 labeled MHC class II-positive dendritic cells in peripheral lymphoid organs. These results are consistent with the proposed immunomodulatory function of natural autoantibodies and suggest that one mechanism whereby SCH94.03 promotes CNS remyelination in chronically infected SJL/J mice is through inhibition of a pathogenic immune response.
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PMID:A monoclonal natural autoantibody that promotes remyelination suppresses central nervous system inflammation and increases virus expression after Theiler's virus-induced demyelination. 867 97

Regulatory T cells recognizing TCR determinants presumably play a critical role in the control of experimental autoimmune encephalomyelitis, a prototype tissue-specific autoimmune disease. This study was initiated to determine whether regulatory T cells can be induced against a V beta 17a CDR2 peptide (residues 50-68) in SJL/J mice. Although the TCR peptide showed regulatory effects in vivo, the presence of T cells specific for the peptide could not be proven with conventional proliferation assays. Unexpectedly, in the presence of myelin basic protein-specific T clone cells (Tcc), the sensitized spleen cells vigorously proliferated in response to the TCR peptide. The subsequent experiment showed that this was due to the outstanding capability of the Tcc as APC for the exogenous TCR peptide. Using the Tcc as APC, we were able to establish V beta 17a50-68-specific T cell lines from in vivo primed spleen cells. The line cells were MHC class I restricted and dominated by T cells with a distinct surface phenotype (CD4-CD8-V beta 17a+). Presentation of the peptide by the Tcc was inhibited by treatment with gelonin that could block a MHC class I presentation pathway. The ability of T cells to present the TCR peptide was not related to their Ag specificity, but correlated with the expression levels of MHC class I molecules and adhesion molecules such as intercellular adhesion molecule-1 and B7-1 on their surface. The TCR peptide-specific T cells produced a soluble mediator(s) that is inhibitory for T cell activation and were protective against actively induced experimental autoimmune encephalomyelitis. These results show that V beta 17a50-68 vaccination induces regulatory CD4-CD8- T cells that could interact with T cells presenting relevant TCR fragments.
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PMID:T-T cellular interaction between CD4-CD8- regulatory T cells and T cell clones presenting TCR peptide. Its implication for TCR vaccination against experimental autoimmune encephalomyelitis. 875 68

Experimental autoimmune encephalomyelitis (EAE) in rats is typically a brief and monophasic disease with sparse demyelination. However, inbred DA rats develop a demyelinating, prolonged and relapsing encephalomyelitis after immunization with rat spinal cord in incomplete Freund's adjuvant. This model enables studies of mechanisms related to chronicity and demyelination, two hallmarks of multiple sclerosis (MS). Here we have investigated, in situ, the dynamics of cytokine mRNA expression in the central nervous system (CNS) and peripheral lymphoid organs (lymph node cells and splenocytes) of diseased DA rats. We demonstrate that peripheral lymphoid cells stimulated in vitro with encephalitogenic peptides 69-87 and 87-101 of myelin basic protein responded with high mRNA expression for proinflammatory cytokines; interferon-gamma, interleukin-12 (IL-12), tumour necrosis factors alpha and beta, IL-1 beta and cytolysin. A high expression of mRNA for these proinflammatory cytokines was also observed in the CNS where it was accompanied by classical signs of inflammation such as expression of major histocompatibility complex class I and II, CD4, CD8 and IL-2 receptor. The expression of mRNA for proinflammatory cytokines was remarkably long-lasting in DA rats as compared to LEW rats which display a brief and monophasic EAE. Furthermore, mRNAs for putative immunodownmodulatory cytokines, i.e. transforming growth factor-beta (TGF-beta), IL-10 and IL-4 were almost absent in DA rats, in both the CNS and in vitro stimulated peripheral lymphoid cells, while their levels were elevated in the CNS of LEW rats during the recovery phase. We conclude that the MS-like prolonged and relapsing EAE in DA rats is associated with a prolonged production of proinflammatory cytokines and/or low or absent production of immunodownmodulatory cytokines.
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PMID:Cytokines in relapsing experimental autoimmune encephalomyelitis in DA rats: persistent mRNA expression of proinflammatory cytokines and absent expression of interleukin-10 and transforming growth factor-beta. 882 81

During the evolution of the autoimmune response to myelin basic protein (MBP), at least two distinct lymphocyte populations arise, one that is specific for determinants within the protein antigen and another that is specific for the receptors displayed by the antigen-specific lymphocytes themselves. The T-cell receptor (TCR)-specific lymphocytes appear to oppose the action of the pathogenic effector cells, which predominantly utilize the TCR V beta 8.2 gene segment. We will discuss our work suggesting that both CD4 and CD8 cells specific for different TCR determinants on the V beta 8.2 chain are involved in the regulation of MBP-specific CD4 T cells mediating experimental autoimmune encephalomyelitis. We suggest that a crucial balance between the effectors and regulators is decisive for the clinical manifestation of autoimmunity.
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PMID:Dysregulation of potentially pathogenic self reactivity is crucial for the manifestation of clinical autoimmunity. 887 93

Multiple sclerosis is an autoimmune disease thought to be mediated by CD4+ T helper cells (Th). Experimental autoimmune encephalomyelitis is a rodent model of multiple sclerosis and has been used extensively to explore a variety of immunotherapies using soluble protein or peptide antigens. The underlying mechanisms of such therapy have been attributed to induction of T cell anergy, a switch in Th1 to Th2 responses, or peripheral deletion of autoreactive T cells. In this study, we have developed transgenic mice expressing a T cell receptor (TCR) specific for the NH2-terminal peptide Ac1-11 of the autoantigen myelin basic protein to explore the mechanism of soluble peptide therapy. T cells from these mice are highly skewed toward the CD4 population and have an abnormal thymic architecture, a phenomenon found in other TCR transgenic mice that exhibit a highly skewed CD4/CD8 ratio. Soluble Ac1-11 or the analogues Ac 1-11 [4A] or Ac1-11[4Y] (which bind to the major histocompatibility complex [MHC] class II molecule I-Au with increasing affinities) given intravenously activates T cells, rendering cells hyperresponsive in vitro for at least two days after injection. Concomitantly, T cells apoptose in the periphery, the degree of which correlates with the affinity of the peptide for the MHC. In addition, a shift in the T helper phenotype of the surviving T cells occurs such that the low affinity peptide, Ac1-11, induces primarily a Th1 response, whereas the highest affinity peptide, Ac1-11[4Y], induces primarily a Th2 type response. These data show that both the nature and the presumed number of the peptide-MHC complexes formed during specific peptide therapy affect both the degree of peripheral programmed cell death as well as the outcome of the T helper subset response in vivo, leading to amelioration of disease.
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PMID:Induction of apoptosis and T helper 2 (Th2) responses correlates with peptide affinity for the major histocompatibility complex in self-reactive T cell receptor transgenic mice. 903 38

Human T-cell lymphotropic virus type I (HTLV-I) induces a chronic demyelinating disease known as HTLV-I-associated myelopathy/tropical spastic paraparesis (HAM/TSP). While only 0.25% of HTLV-I-infected individuals develop HAM/TSP, the mechanisms responsible for the progression of an HTLV-I carrier state to clinical disease are not clear. In particular, no specific sequence differences have been found between HTLV-I recovered from HAM patients and HTLV-I-infected carriers. Since CD4 T cells are the major reservoir of the virus, at least three hypotheses implicating CD4 T cells directly or indirectly have been proposed: 1) The cytotoxic hypothesis predicts that activated and HTLV-I-infected CD4 T cells migrate to the CNS and infect resident cells. Cytotoxic CD8 T cells may then recognize viral antigens on HTLV-I-infected CNS cells causing a cellularly mediated cytotoxic demyelination. 2) The autoimmune hypothesis predicts that either (a) virally reactive T cells crossreact with a CNS antigen, or (b) random infection of CD4 T cells eventually results in the infection of CNS-autoreactive CD4 T cells that, by virtue of the productive HTLV-I infection, become activated, expand and migrate to the CNS, where they encounter their antigen. This results in a specific immune response and demyelination, as is known to occur in experimental autoimmune encephalomyelitis. 3) The bystander damage hypothesis does not implicate a specific response against CNS cells. Instead this hypothesis suggests that the presence of IFN-gamma-secreting HTLV-I-infected CD4 T cells and their recognition by virally specific CD8 T cells in the CNS induce microglia to secrete cytokines, such as TNF-alpha, which may be toxic for the myelin.
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PMID:Pathogenesis of chronic progressive myelopathy associated with human T-cell lymphotropic virus type I. 917 44

Immunization of mice with myelin components results in experimental autoimmune encephalomyelitis (EAE), which is mediated by myelin-specific CD4(+) T cells and anti-myelin antibodies. Tumor necrosis factor alpha (TNF-alpha) and lymphotoxin alpha (LT-alpha) are thought to be involved in the events leading to inflammatory demyelination in the central nervous system. To ascertain this hypothesis 129 x C57BL/6 mice with an inactivation of the tnf and lta genes (129 x C57BL/6(-/-)) and SJL/J mice derived from backcrosses of the above mentioned mutant mice (SJL-/-) were immunized with mouse spinal cord homogenate (MSCH) or proteolipid protein. Both 129 x C57BL/6(-/-) mice and SJL-/- mice developed EAE. In SJL-/- mice immunized with MSCH, a very severe form of EAE with weight loss, paralysis of all four limbs, and lethal outcome was observed. The histologic hallmark was an intense perivascular and parenchymal infiltration with predominantly CD4(+) T cells and some CD8(+) T cells associated with demyelination in both brain and spinal cord. These results indicate that TNF-alpha and LT-alpha are not essential for the development of EAE.
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PMID:Tumor necrosis factor alpha and lymphotoxin alpha are not required for induction of acute experimental autoimmune encephalomyelitis. 918 89

Autoimmune diseases are often characterized by spontaneous remission followed by relapses. Although the mechanism(s) controlling pathogenic self-reactive T cells are not fully understood, recent data in experimental autoimmune encephalomyelitis (EAE), a prototype for CD4 T cell-mediated autoimmune diseases, indicate that spontaneous recovery is mediated by regulatory T cells (Treg) specific for peptides derived from the beta-chain of the TCR. Here we have tested whether recombinant single-chain TCRs (scTCRs) containing Vbeta domains can be used as vaccines for efficient priming of Treg. A single injection of mice with these recombinant proteins leads to efficient in vivo priming of Treg and almost complete protection from Ag-induced EAE. Significantly, administration of scTCRs during ongoing disease at a 10-fold lower dose than that required for prophylactic treatment also reverses established EAE. However, if a higher dose of scTCR is administered during ongoing disease, paralytic symptoms become exacerbated and the majority of treated animals die from severe and chronic EAE. Furthermore, we demonstrate that regulatory determinants are processed and presented from scTCRs resulting in the recruitment of both CD4 and CD8 regulatory T cells which are required for efficient regulation induced by scTCR. Reversal of established disease following an optimum dose of recombinant TCRs suggests that proteins expressing appropriate Vbeta domains could be used for the treatment of a variety of T cell-mediated pathologic conditions.
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PMID:Recombinant T cell receptor molecules can prevent and reverse experimental autoimmune encephalomyelitis: dose effects and involvement of both CD4 and CD8 T cells. 936 45


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