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

The chemokine receptor CXCR3 promotes the trafficking of activated T and NK cells in response to three ligands, CXCL9, CXCL10, and CXCL11. Although these chemokines are produced in the CNS in multiple sclerosis and experimental autoimmune encephalomyelitis (EAE), their role in the pathogenesis of CNS autoimmunity is unresolved. We examined the function of CXCR3 signaling in EAE using mice that were deficient for CXCR3 (CXCR3(-/-)). The time to onset and peak disease severity were similar for CXCR3(-/-) and wild-type (WT) animals; however, CXCR3(-/-) mice had more severe chronic disease with increased demyelination and axonal damage. The inflammatory lesions in WT mice consisted of well-demarcated perivascular mononuclear cell infiltrates, mainly in the spinal cord and cerebellum. In CXCR3(-/-) mice, these lesions were more widespread throughout the CNS and were diffused and poorly organized, with T cells and highly activated microglia/macrophages scattered throughout the white matter. Although the number of CD4(+) and CD8(+) T cells infiltrating the CNS were similar in CXCR3(-/-) and WT mice, Foxp3(+) regulatory T cells were significantly reduced in number and dispersed in CXCR3(-/-) mice. The expression of various chemokine and cytokine genes in the CNS was similar in CXCR3(-/-) and WT mice. The genes for the CXCR3 ligands were expressed predominantly in and/or immediately surrounding the mononuclear cell infiltrates. We conclude that in EAE, CXCR3 signaling constrains T cells to the perivascular space in the CNS and augments regulatory T cell recruitment and effector T cell interaction, thus limiting autoimmune-mediated tissue damage.
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PMID:CXCR3 signaling reduces the severity of experimental autoimmune encephalomyelitis by controlling the parenchymal distribution of effector and regulatory T cells in the central nervous system. 1770 91

Cortical pathology, callosal atrophy and axonal loss are substrates of progression in multiple sclerosis (MS). Here we describe cortical, periventricular subcortical lesions and callosal demyelination in relapsing-remitting experimental autoimmune encephalomyelitis in SJL mice that are similar to lesions found in MS. Unlike the T-cell infiltrates that peak during acute disease, we found that microglia activation persists through the chronic disease phase. Microglia activation correlated with abnormal phosphorylation of neurofilaments in the cortex and stripping of synaptic proteins in cortical callosal projecting neurons. There was significant impairment of retrograde labeling of NeuN-positive callosal projecting neurons and reduction in the labelling of their transcallosal axons. These data demonstrate a novel paradigm of cortical and callosal neuropathology in a mouse model of MS, perpetuated by innate immunity. These features closely mimic the periventricular and cortical pathology described in MS patients and establish a model that could be useful to study mechanisms of progression in MS.
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PMID:Persistent activation of microglia is associated with neuronal dysfunction of callosal projecting pathways and multiple sclerosis-like lesions in relapsing--remitting experimental autoimmune encephalomyelitis. 1789 Jul 34

Syngeneic, pluripotent Lin(-)Sca1(+) bone marrow stem cells (SC), transferred to mice with experimental autoimmune encephalomyelitis, a model of multiple sclerosis, enhanced recovery, prevented relapses and promoted myelin repair. SC-treated mice showed elevated interferon-gamma production and induction of indoleamine 2,3-dioxygenase (IDO) in CD11c(+) dendritic cells (DC). IDO induction was specific since in the presence of IDO-producing CD11c(+) DC, PLP stimulated T cell proliferation was inhibited and the IDO-inhibitor, 1-MT, abrogated the SC effect. Relapse prevention during chronic disease correlated with decreased responsiveness to PLP(178-191) and MBP(85-99). Thus, pluripotent SC induce IDO in DC leading to inhibition of antigen reactivity and spreading in EAE.
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PMID:Stem cells ameliorate EAE via an indoleamine 2,3-dioxygenase (IDO) mechanism. 1807 6

The recombinant human (rh) myelin/oligodendrocyte glycoprotein (MOG)-induced experimental autoimmune encephalomyelitis (EAE) model in the common marmoset is characterized by 100% disease incidence, a chronic disease course, and a variable time interval between immunization and neurological impairment. We investigated whether monkeys with fast and slow disease progression display different anti-MOG T or B cell responses and analyzed the underlying pathogenic mechanism(s). The results show that fast progressor monkeys display a significantly wider specificity diversification of anti-MOG T cells at necropsy than slow progressors, especially against MOG(34-56) and MOG(74-96). MOG(34-56) emerged as a critical encephalitogenic peptide, inducing severe neurological disease and multiple lesions with inflammation, demyelination, and axonal injury in the CNS. Although EAE was not observed in MOG(74-96)-immunized monkeys, weak T cell responses against MOG(34-56) and low grade CNS pathology were detected. When these cases received a booster immunization with MOG(34-56) in IFA, full-blown EAE developed. MOG(34-56)-reactive T cells expressed CD3, CD4, or CD8 and CD56, but not CD16. Moreover, MOG(34-56)-specific T cell lines displayed specific cytotoxic activity against peptide-pulsed B cell lines. The phenotype and cytotoxic activity suggest that these cells are NK-CTL. These results support the concept that cytotoxic cells may play a role in the pathogenesis of multiple sclerosis.
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PMID:Fast progression of recombinant human myelin/oligodendrocyte glycoprotein (MOG)-induced experimental autoimmune encephalomyelitis in marmosets is associated with the activation of MOG34-56-specific cytotoxic T cells. 1820 26

The cytokine receptor interleukin (IL)-4R, expressed by lymphocytes, is well known for its role in immunomodulatory signaling and has also been documented on oligodendrocytes, suggesting involvement in glial cell interactions. In the present study, we investigated the clinical course and pathology of experimental autoimmune encephalomyelitis in mice demonstrating deletion of IL-4R and found a correlation with cytokine expression during acute and chronic disease. Wild-type (WT) littermates served as controls. Although IL-4R(-/-) mice displayed a milder course throughout, they showed comparable pathology to WT in the acute phase. However, during the chronic phase, IL-4R(-/-) mice exhibited extensive remyelination and an apparent increase in oligodendrocytes. Cytokine patterns were examined by immunocytochemistry, fluorescence-activated cell sorting, and enzyme-linked immunosorbent assay and were strongly proinflammatory within the central nervous system during the acute phase in WT mice whereas IL-4R(-/-) animals expressed higher levels of IL-6 and IL-10 that became more pronounced with time. The milder experimental autoimmune encephalomyelitis and enhanced remyelination in IL-4R(-/-) mice appeared to be related to a shift toward a Th-2 pattern involving mainly IL-6 and IL-10. These data suggest that IL-4R exerts a negative regulatory role on oligodendrocytes that when deleted results in enhanced myelin repair.
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PMID:Amelioration of experimental autoimmune encephalomyelitis in IL-4Ralpha-/- mice implicates compensatory up-regulation of Th2-type cytokines. 1853 77

The role of B cells and antibody in experimental autoimmune encephalomyelitis (EAE) appears to differ based on the identity and state (protein vs. encephalitogenic peptide) of the inducing antigen and the strain of mouse utilized. The involvement of B cells in the induction of EAE by peptides of proteolipid protein (PLP) in BALB/c mice was investigated. Wild-type and B cell-deficient (B cell-/-) mice on the BALB/c background were immunized with overlapping PLP peptides, and the disease course was followed. Although incidence and onset of PLP(180-199)-induced EAE was similar in WT and B cell-/- mice, the clinical course was more severe in B cell-/- mice. During acute disease, proliferation and interferon-gamma production by lymphoid cells from both strains were similar and were elicited predominantly in response to the immunizing antigen. However, during chronic disease lymphoid cells isolated from B cell-/- mice proliferated to a greater extent and produced more interferon-gamma in response to the overlapping peptide PLP185-206 and to the smaller internal peptide PLP185-199 than did WT mice. These data suggest that B cells regulate PLP-induced EAE in BALB/c mice through control of epitope spreading.
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PMID:B cells limit epitope spreading and reduce severity of EAE induced with PLP peptide in BALB/c mice. 1853 32

This study investigated the possible prognostic factors for relapse, and the diagnostic criteria for multiple sclerosis and related disorders, in pediatric acute disseminated encephalomyelitis. The study population comprised 24 Italian children with a mean age at onset of 6.9 years, and a mean follow-up time of 52.8 months (range, 12-180). Clinical, neurophysiologic, spinal-fluid, neuroradiologic, and outcome features were investigated. All patients but 2, who were reclassified as exhibiting clinically isolated syndromes, fulfilled the new classification criteria for acute disseminated encephalomyelitis recently proposed by the International Pediatric Multiple Sclerosis Study Group. Three patients relapsed after 3 months, 2 years, and 8 years, respectively. By the second attack, the diagnosis of multiple sclerosis, as well as of multiphasic disseminated encephalomyelitis, could be rendered using the revised criteria of McDonald et al. Long-term follow-up seemed to confirm a chronic disease course in 2 children. We could not identify features at onset to predict outcomes of patients. However, early in follow-up, the appearance of oligoclonal immunoglobulin G bands in spinal fluid and the persistence of visual-evoked potential abnormalities were associated with poor outcomes.
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PMID:Acute disseminated encephalomyelitis in children: focus on relapsing patients. 1855 67

The interplay between demyelination and remyelination is critical in the progress of multiple sclerosis (MS) and its animal model, experimental autoimmune encephalomyelitis (EAE). In the present study, we explored the capacity of glatiramer acetate (GA, Copaxone) to affect the demyelination process and/or lead to remyelination in mice inflicted by chronic EAE, using both scanning electron microscopy and immunohistological methods. Spinal cords of untreated EAE mice revealed substantial demyelination accompanied by tissue destruction and axonal loss. In contrast, in spinal cords of GA-treated mice, in which treatment started concomitantly with disease induction (prevention), no pathology was observed. Moreover, when treatment was initiated after the appearance of clinical symptoms (suppression) or even in the chronic disease phase (delayed suppression) when substantial demyelination was already manifested, it resulted in a significant decrease in the pathological damage. Detection of oligodendrocyte progenitor cells (OPCs) expressing the NG2 or O4 markers via colocalization with the proliferation marker BrdU indicated their elevated levels in spinal cords of GA-treated mice. The mode of action of GA in this system is attributed to increased proliferation, differentiation, and survival of OPCs along the oligodendroglial maturation cascade and their recruitment into injury sites, thus enhancing repair processes in situ.
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PMID:Demyelination arrest and remyelination induced by glatiramer acetate treatment of experimental autoimmune encephalomyelitis. 1867 87

Multiple sclerosis (MS) is a chronic inflammatory disease of the central nervous system (CNS) that commonly affects young adults. It is characterized by demyelination and glial scaring in areas disseminated in the brain and spinal cord. These lesions alter nerve conduction and induce the disabling neurological deficits that vary with the location of the demyelinated plaques in the CNS (e.g. paraparesis, paralysis, blindness, incontinence). Experimental autoimmune encephalomyelitis (EAE) is a model for MS. EAE was first induced accidentally in humans during vaccination against rabies, using viruses grown on rabbit spinal cords. Residues of spinal injected with the inactivated virus induced the CNS disease. Following these observations, a first model of EAE was described in non-human primates immunized with a CNS homogenate by Rivers and Schwenther in 1935. EAE has since been generated in a variety of species and can follow different courses depending on the species/strain and immunizing antigen used. For example, immunizing Lewis rats with myelin basic protein in emulsion with adjuvant induces an acute model of EAE, while the same antigen induces a chronic disease in guinea pigs. The EAE model described here is induced by immunizing DA rats against DA rat spinal cord in emulsion in complete Freund's adjuvant. Rats develop an ascending flaccid paralysis within 7-14 days post-immunization. Clinical signs follow a relapsing-remitting course over several weeks. Pathology shows large immune infiltrates in the CNS and demyelination plaques. Special considerations for taking care for animals with EAE are described at the end of the video.
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PMID:Induction and clinical scoring of chronic-relapsing experimental autoimmune encephalomyelitis. 1897 22

In rodents, the chemokine CXCL1 both induces the proliferation and inhibits the migration of oligodendrocyte precursor cells. We previously reported that in multiple sclerosis, the same chemokine is expressed by hypertrophic astrocytes, which associate with oligodendrocytes that express the receptor CXCR2. To investigate whether chemokines influence repair after autoimmune demyelination, we generated GFAP-rtTA x beta-Gal-TRE-CXCL1 double-transgenic (Tg) mice that inducibly overexpress CXCL1 under the control of the astrocyte-specific gene, glial fibrillary acidic protein. Experimental autoimmune encephalomyelitis, an animal model of multiple sclerosis, was induced in these animals (and controls) by the subcutaneous injection of myelin oligodendrocyte glycoprotein, and after disease onset, CXCL1 production was initiated by the intraperitoneal injection of doxycycline. Double-Tg animals displayed a milder course of disease compared with both single (CXCL1 or glial fibrillary acidic protein)-Tg and wild-type controls. Pathologies were similar in all groups during the acute stage of disease. During the chronic disease phase, both inflammation and demyelination were diminished in double-Tg mice and Wallerian degeneration was markedly decreased. Remyelination was strikingly more prominent in double-Tg mice, together with an apparent increased number of oligodendrocytes. Moreover, cell proliferation, indicated by BrdU incorporation within the central nervous system, was more widespread in the white matter of double-Tg animals. These findings suggest a neuroprotective role for CXCL1 during the course of autoimmune demyelination.
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PMID:Neuroprotection and remyelination after autoimmune demyelination in mice that inducibly overexpress CXCL1. 1909 49


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