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)

Myelin basic proteins and peptides derived from them by limited cleavage with pepsin were tested for their ability to induce experimental allergic encephalomyelitis (EAE) in Lewis rats. The encephalitogenicity of the weakly active bovine protein was found to be associated with both halves of the molecule, peptides (1-88) and (89-169). Of the four smaller derivates of peptide (1-88), peptides (1-36), (43-88), (1-42), and (37-88), only the last two were active. This demonstrated that the overlap region consisting of residues 37-42 (sequence Asp-Ser-Leu-Gly-Arg-Phe) constitutes an encephalitogenic determinant. Of the two smaller derivatives of peptide (89-169), peptides (111-169) and (89-152), only the last was active. This indicated that the second encephalitogenic determinant begins between residues 88 and 111 and ends before residue 153. This region contains the sequence Leu-Ser-Leu-Ser-Arg-Phe (residues 108-113), which is strikingly similar to that of the first encephalitogenic determinant. Studies involving the extremely encephalitogenic guinea pig protein demonstrated that virtually all of the activity was recovered in the peptides corresponding to bovine peptides (37-88) and (43-88). These peptides, but not those comprising the remainder of the protein, were active in inhibiting the passive transfer of EAE with lymph node cells from donors immunized with guinea pig spinal cord.
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PMID:The location of regions in guinea pig and bovine myelin basic proteins which induce experimental allergic encephalomyelitis in Lewis rats. 4 54

Rabbits were sensitized or immunized with a variety of central nervous system antigens, including bovine spinal cord, bovine, monkey, human, guinea pig, rabbit and rat S myelin basic proteins, and a polypeptide derived from guinea pig basic protein. The animals were observed for development of experimental allergic encephalomyelitis, and their sera were collected at varying intervals after inoculation and evaluated for presence of precipitating anti-basic protein antibody and for their ability to inhibit myelin formation in cerebellar tissue cultures. The resulting complete dissociation between development of experimental allergic encephalomyelitis, the presence of anti-basic protein antibody and the occurrence of myelination inhibition factor suggests that myelination inhibition factor is not involved in the pathogenesis of experimental allergic encephalomyelitis, and argues against a role for anti-basic protein antibody as an antimyelin factor in vitro.
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PMID:Neural antigens and induction of myelination inhibition factor. 4 59

It was confirmed that experimental autoimmune encephalomyelitis EAE, could be induced in SJL/J mice with mouse spinal cord homogenate. It was shown that induction of EAE in mice was critically dependent on the concentration of pertussis vaccine. The encephalitogen present in mouse brain was the basic protein of myelin. The smaller form of the mouse and rat basic proteins induced EAE; thus the mouse like the rat responds to determinants other than the "tryptophan region," which induced EAE in guinea-pigs. Mice with EAE developed a cell-mediated immune response to myelin basic protein, as judged by inhibition of peritoneal cell migration. However, levels of antibody to mouse basic protein were low, as judged by radioimmunoassay. The establishment of this autoimmune disease model in the mouse will allow the application of well established techniques for the analysis of the immunologic mechanisms leading to disease manifestation.
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PMID:Experimental autoimmune encephalomyelitis in mice: immunologic response to mouse spinal cord and myelin basic proteins. 4 66

Rabbits immunized with low (11.25 mg) and high (57.50 mg) doses of myelin basic protein from several species develop antibasic protein antibodies, delayed type hypersensitivity, and clinical and pathological signs of experimental allergic encephalomyelitis. More than 55% of rabbits immunized with relatively high doses of basic protein develop disease. The absence of circulating antibasic protein antibodies in immunorespondent animals is associated with the appearance of clinical or histological signs of experimental allergic encephalomyelitis; however, the presence of humoral antibodies did not prevent completely the development of disease. Delayed-type hypersensitivity, specific for the basic protein, appears as early as 5 days after immunization and is maintained in nondiseased and surviving animals. Neither excess encephalitogen nor encephalitogen-induced antibody is sufficient to suppress completely the eventual development of clinical or histological manifestations of disease.
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PMID:The development of experimental allergic encephalomyelitis with immunizing doses of myelin basic protein. 4 95

Sensitization of Lewis rats with whole central nervous system tissue or with purified myelin induced both experimental allergic encephalomyelitis (EAE) and a serum factor which inhibited myelin formation in vitro. Sensitization with the encephalitogenic factor, myelin basic protein, induced EAE, but not the myelination inhibition factor. Sensitization with cerebroside induced neither EAE nor myelination inhibition factor. The serums from control animals without EAE as well as from animals sensitized with all of the above antigens blocked evoked electrical responses in vitro.
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PMID:Myelination inhibiting and neuroelectric blocking factors in experimental allergic encephalomyelitis. 4 25

The resistance of Strain 2 guinea pigs to experimental allergic encephalomyelitis (EAE) induced by inoculation with whole CNS tissue in complete Freund's adjuvant (CFA) has been confirmed. The resistance is even more pronounced when myelin basic protein (BP) is used in attempts to induce EAE. Strain 2 guinea pigs are also resistant to an immunization schedule (multiple injections with BP in IFA followed by a single injection of BP in CFA) known to induce significant levels of antibody in susceptible strains. The poor response of Strain 2 guinea pigs to BP is not the result of lack of specific B cells--antibody equivalent to that produced by Strain 13 animals is obtained when the inoculum contains 0.5 mg BP and 2.5 mycobacteria.
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PMID:Immunologic activity of myelin basic protein in strain 2 and strain 13 guinea pigs. 5 Mar 59

Lymph node cells (LNC) from Lewis rats rendered unresponsive to experimental allergic encephalomyelitis (EAE) by pretreatment with myelin basic protein markedly suppressed clinical (but not histologic) EAE in normal recipients later challenged with an encephalitogenic emulsion. Unresponsiveness was immunologically specific, and required viable LNC; serum transfer was ineffective. These findings suggest that suppressor cells exert control over this autoimmune disease.
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PMID:Suppressor cell control of unresponsiveness to experimental allergic encephalomyelitis. 5 Mar 70

The potential evoked at the surface of the cerebral cortex of a guinea pig, by stimulation of the contralateral forepaw, usually consists of an initial double positive wave whose waveform remains unchanged during rapid stimulation. In a guinea pig with experimental allergic encephalomyelitis (EAE) the response is attenuated at low frequencies of stimulation. Observations were also made on animals with experimental allergic neuritis (AEN). These animals showed a peripheral specificity for decreased conduction velocity, but have normal cortical evoked responses. Histological studies were undertaken in parallel with the electrophysiological studies and the concordance and discordance between the two is discussed. We conclude that there is no evident correlation between the severity of the electrophysiological effects and the histological lesions. An attempt was also made to induce an immunological challenge in guinea pigs, in the same way that EAE and EAN is produced, by the injection of synaptosomes. No clinical signs or alterations in the histology or electrophysiology of the animals were seen. A discussion is included on the elucidation of the site of action of EAE by discriminating between the direct effects on myelin and synapses and by the indirect effects of myelin damage on synapses. No firm conclusion is reached and the matter is left for further analysis in the subsequent paper. Finally, the neurophysiological alterations, demonstrated in the EAE and EAN situations, are discussed in terms of a humoral factor possibly acting on the myelin sheath and indirectly affecting synaptic function. This matter is further discussed in the subsequent paper.
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PMID:Anti-synaptic antibody in allergic encephalomyelitis. I. Neurophysiological studies, in guinea pigs, on the exposed cerebral cortex and peripheral nerves, following immunological challenges with myelin and synaptosomes. 5 70

It has been suggested that demyelination cannot account for all of the observed clinical symptoms of multiple sclerosis (MS), in particular the rapidity of onset and remission of the disease, and attention has been focussed on the role of the synapse in 'demyelinating diseases'. In the present paper we have attempted to resolve the fundamental question of the site of action of a demyelinating disease, experimental allergic encephalomyelitis (EAE), by the use of cultures of neonatal rat cerebellum. Electrophysiological and morphological development in these cultures run hand-in-hand, and in the first few days in vitro there is a 4-5 day period when synapses are both seen ultrastructurally and known to be functioning but before the onset of myelination. The serum from guinea pigs with EAE was added to these cultures at different stages during their development and the morphological and electrophysiological effects observed. An abolitionary effect on the bioelectric activity of the culture was only observed when the serum was added to mature, myelinated cultures. Also the same active sera had no effect on synaptic activity before myelination had occurred. We conclude that the synaptic blocking effect occurs only when myelin is destroyed.
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PMID:Anti-synaptic antibody in allergic encephalomyelitis. II. The synapse-blocking effects in tissue culture of demyelinating sera from experimental allergic encephalomyelitis. 5 71

A time-course study was made of the systemic humoral immune response of Lewis rats to myelin basic protein (BP) as influenced by the dosage of ancillary pertussis adjuvant. Peak activities were observed 5 to 7 weeks after injection. When injected proximal to BP and Mycobacterium butyricum in complete Freund's adjuvant (CFA), Bordetella pertussis at the level of 4 billion organisms doubled the antibody-binding activity of rat sera for 125I-labeled BP as compared to activities obtained with 0, 2, 6, or 8 billion. The severity of clinical symptoms of experimental allergic encephalomyelitis (EAE) at the end of the 2nd week was greatest in rats receiving 64 billion organisms, the very same rats that displayed a severely dampened humoral immune response to BP 5 weeks later. When pertussis was injected i.p. rather than proximal to the CFA mixture, the time-course of the humoral immune response displayed a different profile--unusually high binding activities at the time of onset of EAE that fluctuated back and forth from high to low and that eventually dampened to an intermediate level.
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PMID:The antibody responses to myelin basic protein (BP) in Lewis rats: the effects of Bordetella pertussis. 5 76


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