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)

Using protocols that incorporated double blind examination of animals sensitized to CNS antigen, we confirmed and amplified earlier findings of the complete suppression of EAE in rodents by hyperbaric oxygen. The effects of O2 were related to the gas pressure and duration of treatment. The development of paralytic disease was prevented for 34 days after sensitization (the longest interval studied). Compressed air or normobaric O2 administered under similar conditions did not modify the course of illness. Within 7 to 10 days after the discontinuance of oxygen therapy the majority of treated guinea pigs developed typical signs of EAE with characteristic lesions in the CNS. The relapses occurred sooner in the Lewis rat. The development of the delayed hypersensitivity reaction to myelin basic protein and to tuberculin is also suppressed by O2 therapy indicating that its effects upon autoimmune encephalomyelitis involves fundamental alterations of the cellular components of the immune response, some or all of which are reversible.
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PMID:Oxygen immunosuppression: modification of experimental allergic encephalomyelitis in rodents. 67 Jul 4

Perivascular lesions within the central nervous system (CNS) of rats with hyperacute experimental autoimmune encephalomyelitis (HEAE) contained large numbers of peripheral blood mononuclear cells (PBMC) and polymorphonuclear leukocytes (PMN), cells enzymatically capable of producing reactive nitrogen and oxygen intermediates (RNI and ROI), which, in excess, are mediators of tissue damage. PBMC and PMN isolated from the CNS and periphery of HEAE-affected rats secreted significantly (p less than 0.01-0.0001) elevated levels of ROI and RNI compared with that of similar cell populations from pertussis- and saline-treated control animals. Coincubation of systemically derived PBMC and PMN with antigen-stimulated myelin basic protein-specific T cell lines led to further increases in ROI and RNI output of between 15.3 and 83.1%, an effect that could be largely attributed to heat-labile, soluble products released by these T cell lines. Our studies suggest a putative neuropathological role for ROI and RNI in HEAE, which may be mediated via cytokines emanating from autoreactive T lymphocytes.
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PMID:Elevated secretion of reactive nitrogen and oxygen intermediates by inflammatory leukocytes in hyperacute experimental autoimmune encephalomyelitis: enhancement by the soluble products of encephalitogenic T cells. 131 59

A considerable body of information supports the occurrence and pathophysiological importance of oxygen radical-mediated lipid peroxidation in acute cerebral damage secondary to traumatic or ischemic injury. Moreover, peroxidative mechanisms have been implicated in chronic neurodegenerative (e.g., Alzheimer's and Parkinson's diseases) and demyelinating (e.g., multiple sclerosis) disorders. Consequently, there has been interest in identification of pharmacological agents with potent ability to interrupt oxygen radical formation or cell membrane lipid peroxidative mechanisms. Our laboratories have developed a novel series of potent lipid peroxidation inhibitors known as the 21-aminosteroids or "lazaroids." One of these compounds, U-74006F or tirilazad mesylate, has shown efficacy in animal models of brain injury and focal cerebral ischemia. In addition, the compound has been found to attenuate the increased lipid peroxidation observed in Alzheimer's brain tissue, to retard anterograde degeneration of motor nerve fibers, and to be effective in decreasing the clinical disease severity and blood-brain barrier disruption observed in the multiple sclerosis model of experimental allergic encephalomyelitis. Another series of antioxidants, the 2-methylaminochromans typified by the compound U-78517F, have been discovered that are even more potent and effective inhibitors of lipid peroxidation than the 21-aminosteroids.
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PMID:Novel inhibitors of iron-dependent lipid peroxidation for neurodegenerative disorders. 151 Mar 73

The association of reactive oxygen species to altered permeability of the blood-brain barrier in acute experimental encephalomyelitis was investigated by ultrastructural cytochemical localization of hydrogen peroxide (H2O2) to sites in the optic nerve previously identified by extravasation of intravascular horseradish peroxidase. Using a modified cerium method, we found electron-dense cerium-derived H2O2 reaction product was localized to the perivascular space at the lamina retinalis, lamina choroidalis, and lamina scleralis. In the optic nerve head, electron-dense reaction product was observed in the presence of intravascular leukocytes, although adjacent perivascular and interstitial inflammatory cells at this site were scant. In the myelinated retrobulbar optic nerve, cerium-derived H2O2 reaction product was seen in the intravascular space of blood vessels and surrounding perivascular and interstitial foci of inflammatory cells. Reaction product was also observed in the extracellular space adjacent to the plasmalemma of axons and glial cells in the optic nerve head and retrobulbar nerve. The perivascular and intravascular distribution of cerium-derived reaction product suggests that H2O2 may play a role in the pathogenesis of altered vascular permeability in experimental optic neuritis and supports our previous observations of suppression of blood-brain barrier permeability by detoxification of H2O2 with the exogenous administration of antioxidant enzymes.
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PMID:Hydrogen peroxide localization in experimental optic neuritis. 224 46

Detoxification of hydrogen peroxide by the antioxidant enzyme catalase suppressed the neurologic manifestations of acute experimental allergic encephalomyelitis (EAE) and prevented death of treated adult strain-13 guinea pigs. The oxygen radical scavenger superoxide dismutase (SOD) delayed the onset of paralysis by one day, but did not prevent death from encephalomyelitis common to most of this group and all untreated animals. Histopathologic analysis of the optic nerves confirmed a statistically significant reduction in demyelination with catalase treatment, but not with SOD. Hydrogen peroxide, and/or its conversion products, discharged by phagocytic mononuclear cells, may play a role in the pathogenesis of demyelination in experimental optic neuritis.
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PMID:Antioxidant enzyme suppression of demyelination in experimental optic neuritis. 273 52

Previous studies on experimental allergic encephalomyelitis have shown that a number of leukocytes appear in demyelinating lesions of guinea-pig brain. The present studies showed that cerebroside sulfuric ester (sulfatide), a typical component of myelin membranes, stimulated the oxidative metabolism of guinea-pig neutrophils and macrophages, leading to marked generation of oxygen radicals and light emission. Formation of a spin adduct of 5,5-dimethyl-1-pyrroline N-oxide by leukocytes was dependent on the concentration of sulfatide, and correlated well with the generation of superoxide anion and the intensity of chemiluminescence measured in the absence of luminol. The addition of myelin membranes to the sulfatide-stimulated neutrophils amplified the light emission, suggesting an interaction between myelin membranes and those of leukocytes. Assay of the thiobarbituric acid reaction in the mixture of membranes and cells showed that sulfatide-stimulated cells induced lipid peroxidation in myelin membranes. These results suggest that sulfatide released from demyelinating lesions stimulates leukocytes to release toxic oxygen radicals, which attack myelin membranes, leading to a chain reaction of demyelination.
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PMID:Cerebroside sulfuric ester (sulfatide) induces oxygen radical generation in guinea-pig leukocytes. 304 Jan 14

By combining tissue pO2 measurements with morphological visualization and counting of perfused capillaries, early microvascular changes were investigated in paralysis of skeletal muscle of the rat. The models included experimental allergic encephalomyelitis (EAE), experimental allergic neuritis (EAN), 6-aminonicotinamide intoxication, and peripheral denervation. The results showed that in all models tissue oxygenation was either normal or elevated. In most cases this was accompanied by a reduced perfusion of the capillary bed, supporting the hypothesis of a dysfunction in oxidative metabolism. The effects of paralysis on capillary perfusion were more marked in red than in white muscles, except in spastic paresis. Flaccid paralysis had more deleterious effects on muscle microcirculation than spastic paralysis. Our data suggest that: (1) microvascular changes occur very early after the onset of paralysis and (2) later developing changes in the skeletal muscle such as atrophy cannot be ascribed to a lack of oxygen supply but rather, at least in part, to a dysfunction in oxidative metabolism.
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PMID:Influence of early phases of paralysis on microcirculation of rat skeletal muscle. 722 57

Microglia form a regularly spaced network of resident glial cells throughout the central nervous system (CNS). They are morphologically, immunophenotypically and functionally related to cells of the monocyte/macrophage lineage. In the ultimate vicinity of the blood-brain barrier two specialized subsets of macrophages/microglia can be distinguished: firstly, perivascular cells which are enclosed within the basal lamina and secondly juxtavascular microglia which make direct contact with the parenchymal side of the CNS vascular basal lamina but represent true intraparenchymal resident microglia. Bone marrow chimera experiments indicates that a high percentage of the perivascular cells undergoes replacement with bone marrow-derived cells. In contrast, juxtavascular microglia like other resident microglia form a highly stable pool of CNS cells with extremely little turnover with the bone marrow compartment. Both the perivascular cells and the juxtavascular microglia play an important role in initiating and maintaining CNS autoimmune injury due to their strategic localization at a site close to the blood-brain barrier, their rapid inducibility for MHC class II antigens and their potential scavenger role as phagocytic cells. The constantly replaced pool of perivascular cells probably represents an entry route by which HIV gets access to the brain. Microglia are the first cell type to respond to several types of CNS injury. Microglial activation involves a stereotypic pattern of cellular responses, such as proliferation, increased or de-novo expression of immunomolecules, recruitment to the site of injury and functional changes, e.g., the release of cytotoxic and/or inflammatory mediators. In addition, microglia have a strong antigen presenting function and a pronounced cytotoxic function. Microglial activation is a graded response, i.e., microglia only transform into intrinsic brain phagocytes under conditions of neuronal and or synaptic/terminal degeneration. In T-cell-mediated autoimmune injury of the nervous system, microglial activation follows these lines and occurs at an early stage of disease development. In experimental autoimmune encephalomyelitis (EAE), microglia proliferate vigorously, show a strong expression of MHC class I and II antigens, cell adhesion molecules, release of reactive oxygen intermediates and inflammatory cytokines and transform into phagocytic cells. Due to their pronounced antigen presenting function in vitro, activated microglia rather than astrocytes or endothelial cells are the candidates as intrinsic antigen presenting cel of the brain. In contrast to microglia, astrocytes react with a delay, appear to encase morphologically the inflammatory lesion and may be instrumental in downregulating the T-cell-mediated immune injury by inducing T-cell apoptosis.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Microglia: intrinsic immuneffector cell of the brain. 755 Mar 61

Reactive oxygen intermediates (ROI) and reactive nitrogen intermediates (RNI) are toxic molecules that are thought to play a pathogenic role in many disease states, and data from prior studies indicate a role for ROI and RNI in the pathogenesis of experimental allergic encephalomyelitis (EAE). ROI and RNI can elicit tissue damage by initiating the chain reaction of lipid peroxidation. Lazaroids are a series of compounds that have been shown to interrupt lipid peroxidation. In the present study, the lazaroids, U-74389G and U-83836E, were administered to Lewis rats with EAE in order to evaluate their therapeutic effectiveness. Several different doses and administration routes, which were based on the manufacturer's (Upjohn) recommendations and a prior experimental study, were employed: 1) intraperitoneal injection (IP), 1mg drug/kg body weight, 1x/day from 7-18 days postencephalitogen injection (diseases onset approximately 9 day), male; 2) IP, 1mg/kg, 1x/day from 0-18 days, male; 3) intravenous (IV) cannula, 3mg/kg, 2x/day from 7-18 days, female; 4) IV cannula, 3mg/kg, 2x/day from 7-18 days, male; and 5) IV cannula, 10mg/kg, 2x/day from 7-18 days, female. The weights and clinical signs were evaluated on a daily basis. In all treatment regimens, there was an absence of a statistically significant difference between the vehicle-treated animals and the two groups of drug-treated animals. These data imply that lipid peroxidation may not be an effective therapeutic site in EAE. It is important to note that there are several different types of EAE and our study only explored the EAE model in the Lewis rat.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Testing lazaroids U-74389G and U-83836E for therapeutic value in experimental allergic encephalomyelitis in the Lewis rat. 762 Aug 28

During experimental allergic encephalomyelitis (EAE), both blood-borne macrophages as well as activated, resident microglial cells are considered to be involved in inflammatory reactions in the central nervous system (CNS), resulting in the neurological deficits common to EAE. Both cell types can produce multiple mediators of tissue damage, among which are the reactive oxygen species (ROS). In this study we show that macrophages and microglial cells, isolated from the CNS of Lewis rats with clinical signs of EAE, exhibited significantly elevated spontaneous and phorbol myristate acetate (PMA)-inducible levels of ROS compared to similar cells isolated from healthy controls, sham (complete Freund's adjuvant, CFA)-immunized rats as well as rats sacrificed before the manifestation of clinical signs of EAE. However, during clinical EAE, peripheral blood mononuclear cells (PBMC) did not show increased spontaneous nor PMA-inducible ROS production compared to controls. In vivo treatment of EAE with catalase, which scavenges the ROS H2O2, markedly suppressed the severity of the disease as compared to sham (albumin)-treated controls. In contrast, superoxide dismutase had no effect on clinical signs. Our studies point at a putative functional role for ROS, and in particular H2O2, in the pathogenesis of EAE.
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PMID:Reactive oxygen species are involved in the pathogenesis of experimental allergic encephalomyelitis in Lewis rats. 786 Jul 16


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