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)

Multiple sclerosis (MS) is an inflammatory disease of the central nervous system (CNS) characterized by destruction of myelin. Recent studies have indicated that axonal damage is involved in the pathogenesis of the progressive disability of this disease. To study the role of axonal damage in the pathogenesis of MS-like disease induced by myelin oligodendrocyte glycoprotein (MOG), we compared experimental autoimmune encephalomyelitis (EAE) in wild-type (WT) and transgenic mice expressing the human bcl-2 gene exclusively in neurons under the control of the neuron-specific enolase (NSE) promoter. Our study shows that, following EAE induction with pMOG 35-55, the WT mice developed significant clinical manifestations with complete hind-limb paralysis. In contrast, most of the NSE-bcl-2 mice (16/27) were completely resistant, whereas the others showed only mild clinical signs. Histological examination of CNS tissue sections showed multifocal areas of perivascular lymphohistiocytic inflammation with loss of myelin and axons in the WT mice, whereas only focal inflammation and minimal axonal damage were demonstrated in NSE-bcl-2 mice. No difference could be detected in the immune potency as indicated by delayed-type hypersensitivity (DTH) and T-cell proliferative responses to MOG. We also demonstrated that purified synaptosomes from the NSE-bcl-2 mice produce significantly lower level of reactive oxygen species (ROS) following exposure to H2O2 and nitric oxide (NO) than WT mice. In conclusion, we demonstrated that the expression of the antiapoptotic gene, bcl-2, reduces axonal damage and attenuates the severity of MOG-induced EAE. Our results emphasize the importance of developing neuroprotective therapies, in addition to immune-specific approaches, for treatment of MS.
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PMID:Mice overexpressing Bcl-2 in their neurons are resistant to myelin oligodendrocyte glycoprotein (MOG)-induced experimental autoimmune encephalomyelitis (EAE). 1130 81

We report on a 10-year old previously healthy boy who exhibited a fulminant and nearly monophasic clinical course of demyelinating encephalitis with relapsing intracranial hypertension syndrome. Histologic examination of a diagnostic brain biopsy revealed an inflammatory demyelinating process with perivascular T lymphocytic infiltration and axonal damage reminiscent of multiple sclerosis-like lesions. In the brain, the DNA of human Herpes virus 6 (HHV6) was detectable. Eleven months after the initial symptoms and on maintainance with oral steroids, MRI showed demyelination of both hemispheres as well as demyelination of the brain stem and Wallerian degeneration. The boy exhibited a severe neurologic defect syndrome. The clinical and radiological course is unusual because of the asymmetric progression of the encephalitis and the extensive confluent lesions without demarcated border or enhancement of the rim after injection of gadolinium. The clinical course showed no definite steroid response. The pathogenetic relevance of HHV6 remains elusive. Although single patients with HHV6-associated encephalomyelitis have been reported, HHV6 DNA is occasionally detected in brains of healthy individuals.
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PMID:Fulminant course in a case of diffuse myelinoclastic encephalitis-- a case report. 1131 1

Multiple sclerosis and experimental autoimmune encephalomyelitis (EAE) are immune-mediated diseases of the CNS. They are characterized by widespread inflammation, demyelination and a variable degree of axonal loss. Recent magnetic resonance spectroscopy studies have indicated that axonal damage and loss are a reliable correlate of permanent clinical disability. Accordingly, neuropathological studies have confirmed the presence and timing of axonal injury in multiple sclerosis lesions. The mechanisms of axonal degeneration, however, are unclear. Since calcium influx may mediate axonal damage, we have studied the distribution of the pore-forming subunit of neuronal (N)-type voltage-gated calcium channels in the lesions of multiple sclerosis and EAE. We found that alpha(1B), the pore-forming subunit of N-type calcium channels, was accumulated within axons and axonal spheroids of actively demyelinating lesions. The axonal staining pattern of alpha(1B) was comparable with that of beta-amyloid precursor protein, which is an early and sensitive marker for disturbance of axonal transport. Importantly, within these injured axons, alpha(1B) was not only accumulated, but also integrated in the axoplasmic membrane, as shown by immune electron microscopy on the EAE material. This ectopic distribution of calcium channels in the axonal membrane may result in increased calcium influx, contributing to axonal degeneration, possibly via the activation of neutral proteases. Our data suggest that calcium influx through voltage-dependent calcium channels is one possible candidate mechanism for axonal degeneration in inflammatory demyelinating disorders.
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PMID:Distribution of a calcium channel subunit in dystrophic axons in multiple sclerosis and experimental autoimmune encephalomyelitis. 1135 27

Systemic administration of antiinflammatory molecules to patients affected by immune-mediated inflammatory demyelinating diseases of the central nervous system (CNS) has limited therapeutic efficacy due to the presence of the blood-brain barrier (BBB). We found that three of five rhesus monkeys injected intrathecally with a replication-defective herpes simplex virus (HSV) type 1-derived vector engineered with the human interleukin 4 (IL-4) gene were protected from an hyperacute and lethal form of experimental autoimmune encephalomyelitis induced by whole myelin. The intrathecally injected vector consistently diffused within the CNS via the cerebrospinal fluid and infected ependymal cells, which in turn sustained in situ production of IL-4 without overt immunological or toxic side effects. In EAE-protected monkeys, IL-4-gene therapy significantly decreased the number of brain as well as spinal cord inflammatory perivenular infiltrates and the extent of demyelination, necrosis, and axonal loss. The protective effect was associated with in situ downregulation of inflammatory mediators such as tumor necrosis factor alpha (TNF-alpha) and monocyte chemoattractant protein 1 (MCP-1), upregulation of transforming growth factor beta (TGF-beta), and preservation of BBB integrity. Our results indicate that intrathecal delivery of HSV-1-derived vectors containing antiinflammatory cytokine genes may play a major role in the future therapeutic armamentarium of inflammatory CNS-confined demyelinating diseases and, in particular, in the most fulminant forms where conventional therapeutic approaches have, so far, failed to achieve a satisfactory control of the disease evolution.
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PMID:Delivery to the central nervous system of a nonreplicative herpes simplex type 1 vector engineered with the interleukin 4 gene protects rhesus monkeys from hyperacute autoimmune encephalomyelitis. 1138 56

Lewis rats, on recovery from monophasic clinical experimental allergic encephalomyelitis (EAE), can be induced to develop repeated paralytic relapses with a graded reduction in clinical severity following intraperitoneal administration of IL-12. By the time of the third relapse, the number and size of inflammatory cuffs in the spinal cord were reduced with the makeup of the cellular infiltrate shifting to a significantly increased number of B cells. Serum levels of myelin basic protein (MBP)-specific IgG1 and IgG2b were found to rise over time while MBP and MBP peptide-positive macrophages and microglia became evident in perivascular cuffs and in spinal cord parenchyma, indicative of myelin phagocytosis. Axonal death was observed in semithin and EM sections of spinal cord in third relapse animals in association with iNOS and tPA immunostaining throughout gray and white matter. These neurotoxic or excitotoxic agents may contribute to axonal damage directly or indirectly by activated microglia and macrophages, leading to limited damage of the axonal-myelin unit.
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PMID:Myelin/axonal pathology in interleukin-12 induced serial relapses of experimental allergic encephalomyelitis in the Lewis rat. 1139 90

A major question in neurobiology is whether myelin repair can restore neurological function following the course of a severe, progressive CNS demyelinating disease that induces axonal loss. In this study we used Theiler's murine encephalomyelitis virus (TMEV) to induce a chronic progressive CNS demyelinating disease in mice that was immune-mediated and pathologically similar to human multiple sclerosis. Because immunosuppression of chronically TMEV-infected mice has been shown to enhance myelin repair, we first addressed the potential roles of CD4(+) and CD8(+) T cells in the inhibition of CNS remyelination during chronic disease. TMEV infection of susceptible PL/J mice deficient in CD4(+) but not CD8(+) T cells demonstrated a significant increase in severity of pathogenesis when compared with wild-type controls. This was characterized by enhanced demyelination, spinal cord atrophy, neurological deficits, and mortality. Interestingly, the PL/J CD4(-/-) mice that survived to the chronic stage of the disease had nearly complete spontaneous myelin repair mediated by both oligodendrocytes and infiltrating Schwann cells. Therefore, we next addressed whether this spontaneous myelin repair was associated with improved neurological function despite the increased pathology. Of interest, all surviving PL/J CD4(-/-) mice showed partial restoration of motor coordination and gait that coincided temporally with spontaneous myelin repair. Furthermore, functional recovery of motor coordination correlated strongly with the percentage of myelin repair mediated by Schwann cells, whereas restoration of hindlimb gait correlated with oligodendrocyte-mediated myelin repair. This is the first study to demonstrate that spontaneous remyelination correlates with partial restoration of neurological function during the course of a progressive, immune-mediated CNS demyelinating disease. Of greater importance, functional recovery occurred despite previous severe demyelination and spinal cord atrophy.
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PMID:Spontaneous remyelination following extensive demyelination is associated with improved neurological function in a viral model of multiple sclerosis. 1140 35

We have used interleukin (IL)-4 and -10-producing HSV-1 gamma(1)34.5 deletion viruses in gene therapy of a BALB/c model of experimental allergic encephalomyelitis (EAE), a T cell-mediated demyelinating disease of the central nervous system. It is known that in EAE of mice the Th2-type cytokines are down-regulated and the Th1-type cytokines up-regulated during the onset and relapse of the disease. Therefore, we tested two HSV-1 recombinants expressing the Th2-type cytokines IL-4 and IL-10. The recombinant viruses were injected intracranially (i.c.) in BALB/c mice 6 days after induction of EAE. As control groups we used mice without any infection, mice infected with backbone virus R3659 and mock-infected mice. Weights and symptoms of the mice were recorded daily and the tissue specimens were collected at specific time-points. The results indicate that the intracranial infection with IL-4-producing virus (1) precludes EAE symptoms, (2) protects the spinal cord from massive leukocyte infiltrations and (3) prevents demyelination and axonal loss. The IL-10-expressing virus R8308 did not have a similar favorable effect on the recovery of the mice as did the IL-4 virus R8306.
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PMID:Expression of interleukin-4 but not of interleukin-10 from a replicative herpes simplex virus type 1 viral vector precludes experimental allergic encephalomyelitis. 1142 Jun 40

The development of therapies aimed to promote remyelination is a major issue in chronic inflammatory demyelinating disorders of the central nervous system (CNS) such as multiple sclerosis (MS), where the permanent neurological impairment is due to the axonal loss resulting from recurrent episodes of immune-mediated demyelination. Here, we show that the intrathecal injection of a herpes simplex virus (HSV) type-1 replication-defective multigene vector, engineered with the human fibroblast growth factor (FGF)-II gene (TH:bFGF vector), was able to significantly revert in C57BL/6 mice the clinicopathological signs of chronic experimental autoimmune encephalomyelitis (EAE), the animal model of MS. The treatment with the TH:bFGF vector was initiated within 1 week after the clinical onset of EAE and was effective throughout the whole follow-up period (ie 60 days). The disease-ameliorating effect in FGF-II-treated mice was associated with: (1) CNS production of FGF-II from vector-infected cells which were exclusively located around the CSF space (ependymal, choroidal and leptomeningeal cells); (2) significant decrease (P < 0.01) of the number of myelinotoxic cells (T cells and macrophages) both in the CNS parenchyma and in the leptomeningeal space; and (3) significant increase (P < 0.01) of the number of oligodendrocyte precursors and of myelin-forming oligodendrocytes in areas of demyelination and axonal loss. Our results indicate that CNS gene therapy using HSV-1-derived vector coding for neurotrophic factors (ie FGF-II) is a safe and non-toxic approach that might represent a potential useful 'alternative' tool for the future treatment of immune-mediated demyelinating diseases.
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PMID:Fibroblast growth factor-II gene therapy reverts the clinical course and the pathological signs of chronic experimental autoimmune encephalomyelitis in C57BL/6 mice. 1150 53

Complement is implicated in pathology in the human demyelinating disease multiple sclerosis and in animal models that mimic the demyelination seen in multiple sclerosis. However, the components of the complement system responsible for demyelination in vivo remain unidentified. In this study, we show that C6-deficient (C6-) PVG/c rats, unable to form the membrane attack complex (MAC), exhibit no demyelination and significantly reduced clinical score in the Ab-mediated experimental autoimmune encephalomyelitis model when compared with matched C6-sufficient (C6+) rats. In C6+ rats, perivenous demyelination appeared, accompanied by abundant mononuclear cell infiltration and axonal injury. Neither demyelination nor axonal damage was seen in C6- rats, whereas levels of mononuclear cell infiltration were equivalent to those seen in C6+ rats. Reconstitution of C6 to C6- rats yielded pathology and clinical disease indistinguishable from that in C6+ rats. We conclude that demyelination and axonal damage occur in the presence of Ab and require activation of the entire complement cascade, including MAC deposition. In the absence of MAC deposition, complement activation leading to opsonization and generation of the anaphylatoxins C5a and C3a is insufficient to initiate demyelination.
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PMID:The membrane attack complex of complement causes severe demyelination associated with acute axonal injury. 1175 93

Myelin-associated oligodendrocytic basic protein (MOBP) is abundantly expressed in central nervous system myelin, and shares several characteristics with myelin basic protein (MBP), in terms of regional distribution and function. MOBP causes experimental allergic encephalomyelitis (EAE) and is associated with multiple sclerosis. MOBP has several isoforms, and the carboxy termini that are unique to each isoform contain a cluster of positively charged amino acids residues. These residues are considered to facilitate myelin sheath compaction, as does MBP. MOBP-deficient mice had compact myelin of a normal appearance. The myelin periodicity in MOBP-deficient mice was equal to that in wild-type mice. When mice were exposed to hexachlorophene, a known dysmyelinating agent, however, the myelin showed widening of the major dense lines. By morphometric analysis of the optic nerve in MOBP-deficient and MBP/MOBP-double-deficient mice, we demonstrated that MOBP played a role in controlling axonal diameter. After glutaraldehyde and tannic acid fixation, a radial series of rod-like electron enhancements in the intraperiod line in the CNS myelin, the so-called "radial component", was found arrayed in a straight radial direction in MOBP-deficient mice, while these components were scattered in an oblique zigzag direction in wild-type mice. Thus, it can be concluded that MOBP is essential for normal arrangement of the radial component.
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PMID:Myelin-associated oligodendrocytic basic protein modulates the arrangement of radial growth of the axon and the radial component of myelin. 1179 90

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