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)

A 17-residue peptide (Peptide Y) was isolated from the COOH-terminal end of the basic protein of bovine myelin by peptic digestion. This peptide induced experimental allergic encephalomyelitis in the rhesus monkey. Treatment of Peptide Y with cyanogen bromide released three amino acids from the COOH-terminal end and resulted in a tetradecapeptide (Peptide M) which was also encephalitogenic in the rhesus monkey. The sequence of Peptide M is: Phe-Lys-LEU-Gly-Gly-Arg-Asp-Ser-Arg-Ser-Gly-Ser-Pro-Met. Thus a major disease-inducing site active in the rhesus monkey is contained within a 14-residue peptide localized near the COOH-terminal end of the protein. This peptide differs markedly in location and sequence from the 9-residue peptide shown to contain the encephalitogenic determinant for the guinea pig.
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PMID:Allergic encephalomyelitis. Isolation of an encephalitogenic peptide active in the monkey. 4 30

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

The administration of synthetic peptide S42 leads to suppression and reversal of experimental allergic encephalomyelitis (EAE) induced in guinea pigs by myelin basic protein. Peptide S42 contains a linear sequence of 21 amino acid residues, H-Phe-Ser-Trp-Gln-Lys-Phe-Ser-Trp-Gln-Lys-Phe-Ser-Trp-Gln-Lys-Phe-Ser-Trp-Gln-Lys-Gly-OH, made up of four repeating unit sequences of H-Phe-Ser-Trp-Gln-Lys-OH in addition to a C-terminal glycine. Injected at relatively high doses, peptide S42 is non-encephalitogenic. It induces delayed-type hypersensitivity which is not followed by EAE, and elicits delayed-type hypersensitivity responses in peptide S42, encephalitogenic trytophan peptide, or BP-challenged animals for either of the three antigens. The repeating unit sequence of peptide S42 is analogous to the encephalitogenic tryptophan region of the BP molecules . The sequence homology is responsible for cellular recognition of this antigen by the skin test assay and suggests in vivo interaction between peptide S42 and EAE-inducing cells leading to suppression and reversal of disease.
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PMID:Suppression and reversal of allergic encephalomyelitis in guinea pigs with a non-encephalitogenic analogue of the tryptophan region of the myelin basic protein. 5 84

Two peptic fragments (residues 37-88 and 43-88) of guinea pig myelin basic protein which are capable of inducing experimental allergic encephalomyelitis in Lewis rats were cleaved to shorter fragments with alpha-protease (Crotalus atrox proteinase, EC 3.4.24.1) and thermolysin (EC 3.4.24.4). The fragments were isolated, purified, and identified by amino acid composition and NH2- and COOH-terminal residues. The time courses of the reactions, monitored by thin layer electrophoresis of the digests, showed that alpha-protease cleaves peptide (43-88) initially at the Pro(71)-Gln(72) bond, and that the product peptides are subsequently attacked at the Arg(63) -Thr(64), Ser(74)-Gln(75), Arg(78)-Ser(79), and Ser(76)-Gln(80) bonds. No significant cleavages occurred at the -Leu, -Val, and -Ala bonds. These results are in striking contrast to those obtained previously by others workers with other peptide substrates, where selective cleavage at hydrophobic residues occurred. Thermolysin was found to attack peptide (37-88) at the Phe(42)-Phe(43) bond very rapidly; the product peptides were subsequently attacked at the His(60)-Ala(61), Ser(38)-Ile(39)-Tyr(67)-Gly(68), and Pro(84)-Val(85) bonds. These cleavages are compatible with the known specificity of this enzyme. Several of the fragments prepared with these two enzymes, peptides (43-71), (61-88), (75-88), and (72-84) have been used in other studies to locate the encephalitogenic site in the parent peptic peptide.
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PMID:Treatment of an encephalitogenic peptide from guinea pig myelin basic protein with alpha-protease and thermolysin. Isolation of fragments and determination of cleavage sites. 6 52

Two amino acid sequences from the same regions of guinea pig and bovine myelin basic protein which induce experimental allergic encephalomyelitis in Lewis rats were synthesized. The sequences of these two regions may be defined by residues 69 to 84 of the bovine basic protein. The encephalitogenic sequence from guinea pig basic protein (peptide S49), H-Gly-Ser-Leu-Pro-Gln-Lys-Ala-Gin-Arg-Pro-Gin-Asp-Glu-Asn-OH, is a much more potent encephalitogen than that of H-Gly-Ser-Leu-Pro-Gln-Lys-Ala-Gln-Gly-His-Arg-Pro-Gln-Asp-Glu-Asn-OH (peptide S8) found in the bovine protein. The primary structures of the two determinants are similar; however, a Gly-His deletion from the guinea pig sequence is noted. Study of the encephalitogenicity of peptide S49, peptide S8, and the parent proteins suggests that the difference in the encephalitogenic potency of the parent proteins in Lewis rats is due to a natural modification in the primary structure of their respective encephalitogenic determinants.
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PMID:Experimental allergic encephalomyelitis in Lewis rats: chemical synthesis of disease-inducing determinant. 6 39

Discrete populations of anti-S49 antibodies were found in the antisera of Lewis rats recovered from S49-induced experimental allergic encephalomyelitis (EAE). A potent inducer of EAE in Lewis rats, S49 is a synthetic peptide representing residues 69-84 of bovine myelin basic protein but with deletions at Gly-77 and His-78 to form an analogue of guinea pig or rat 69-84, GSLPQKAQRPQDENG. Each population within a given antiserum, as identified by Scatchard and Sipsian window analysis, was found to exhibit reactivity for a different S49 determinant, and the affinities of each population were relatively restricted and discontinuous. The high affinity populations (10(7)-10(8) M-1) were cross-reactive with YS8 (YGSLPQKAQGHRPQDENG) in equilibrium competitive inhibition reactions whereas the low affinity populations (10(5)-10(6) M-1) were reactive only with S49 and YS49 among a panel of peptide analogues. Of the YS8 cross-reactive antibodies the highest affinity (10(8) M-1) were also cross reactive with S81 (YGSLPQKAQGHRPQDEG) but not S49 (69-84-Gly), thus emphasizing the need for Tyr-68 for format stability of the determinant involved. The other YS8 cross-reactive population (10(7) M-1) was completely reactive with S49 but totally unreactive with S81 in equilibrium reactions, thus emphasizing the requirement for Asn-84 but not Tyr-68 for the determinant's topographic stability. Peptides shorter than S49 from the N-terminal end, but retaining the sequences AQRPQDEN or SQRSQDEN (suspected residence of minimal encephalitogenic determinants), reacted only under conditions of two-step non-equilibrium competitive inhibition assays. Such reactions would occur only at very low affinity (less than 10(5) M-1) with the anti-S49 antibodies. It was hypothesized that the encephalitogenic T-cell determinant for Lewis rats, although permitting B-cell responses at very low affinity, may exclude high affinity responses in susceptible animals.
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PMID:Immunochemical analysis of Lewis rat antisera to the synthetic encephalitogenic peptide S49. 241 80

Single intracutaneous injection of 30 micrograms of human basic myelin protein peptide 114-122 (H-Phe-Ser-Trp-Gly-Ala-Glu-Gly-Gln-Arg-OH) with Freund adjuvant induced the onset of encephalomyelitis on day 9-19 after the injection. The lethality was 33%. In autumn the disease was more severe than in summer.
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PMID:[Allergic encephalomyelitis in guinea pigs on the intracutaneous and subcutaneous administration of fragment 114-122 of the human myelin cationic protein]. 243 68

Immunochemical analysis of polyclonal antisera from Lewis rats immunized with peptide analogs and subpeptides of residues 72-84 of guinea pig myelin basic protein (MBP) indicated that there were four main epitopic specificities involved: one represented by residues 76-80, one by residues 72-74, one by 81-84-Gly, and one involving 74-76 in a heteroclitic way even when the immunogen contained a tetraleucine spacer between residues 74 and 75. The affinities were all relatively low, ranging from 3 x 10(4) M-1 to 7.2 x 10(6) M-1, and each affinity population was very restricted with respect to heterogeneity. The results were commensurate with our hypothesis that autoimmune responses to homologous encephalitogenic neuropeptide determinants reflect an evolutionarily imposed degeneration of the overall response, and were also in agreement with our hypothesis that the affinities of autoantibodies against epitopes in the molecular neighborhood of an encephalitogen would be necessarily low. It was also found that peptide 69-81-Gly (S67) in solution would not interact in liquid phase radioimmunoassays with any of the above antibody populations, thus indicating that its preferred conformation did not allow the expression of autoreactive epitopes. There was no evidence that S67 in solution. even in the presence of S53, would express any epitopes reactive with autoantibodies. How this finding for a B cell product correlates with T cell-mediated immunologic responses is not totally understood, but it will be recalled that S67 by itself does not induce T cell-mediated experimental allergic encephalomyelitis (EAE), that S53 (residues 75-84-Gly) induces only clinical symptoms of EAE without attendant pathological disease, but that the two together induce classical EAE.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:The polyclonal antibody responses of Lewis rats to the synthetic encephalitogenic neuropeptide S55S (residues 72-84 of guinea pig myelin basic protein) and its analogs. 244 1

T lymphocyte lines specific for myelin basic protein (BP) can mediate experimental autoimmune encephalomyelitis (EAE), or can protect against the active induction of the disease. To investigate the antigenic fine specificity of guinea pig (GP) BP-specific T cell lines raised from different rat strains, and to determine whether functionally different T lymphocyte lines and clones recognized the same or different regions of the BP molecule, the proliferation responses of line cells were assessed after stimulation with purified peptides of GP-BP. Lewis rat T cell lines and clones selected for responses to whole GP-BP responded selectively to the 68-88 amino acid sequence of GP-BP, but not to the 1-37, 43-67, or 89-169 sequences. The region of GP-BP recognized by Lewis T cells was additionally defined to include the 75-80 amino acid sequence, because a T cell clone responded equally to GP and rat BP which differed by only one amino acid at position 79, but did not respond to human or bovine BP, which had a Gly-His insertion in this region. T lymphocyte lines derived from the F344 and PVG (Weizmann) rat strains shared the same selective response to peptide 68-88, but lines from BN rats responded to an epitope(s) outside of the 68-88 sequence. The functional capacity of the various T cell lines to mediate experimental autoimmune encephalomyelitis (EAE) or to induce resistance against EAE was independent of their specificity for the different GP-BP peptides; lines specific for epitope(s) within or excluded from the 68-88 sequence could be encephalitogenic depending on their strain of origin, and various lines specific for the 68-88 peptide could induce both disease and protection, disease only, or neither activity.
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PMID:Specificity of T lymphocyte lines for peptides of myelin basic protein. 258 33

We examined a variety of strains of Sindbis virus for the genetic changes responsible for differences in neurovirulence in mice. SV1A (a low passage of the AR339 strain of Sindbis virus), a neuroadapted Sindbis virus (NSV), and two laboratory strains of Sindbis virus (HRSP and Toto1101) were examined. NSV causes severe encephalomyelitis with hind-limb paralysis and high mortality after intracerebral inoculation in weanling mice. In contrast, SV1A causes only mild, nonfatal disease in weanling mice; however, in suckling mice, SV1A causes a fatal encephalomyelitis after either intracerebral or subcutaneous inoculation. The two laboratory strains used have a greatly reduced neurovirulence for suckling mice and are avirulent for weanling mice. The nucleotide sequences and encoded amino acid sequences of the structural glycoproteins of these four strains were compared. Hybrid genomes were constructed by replacing restriction fragments in a full-length cDNA clone of Sindbis virus, from which infectious RNA can be transcribed in vitro, with fragments from cDNA clones of the various strains. These recombinant viruses allowed us to test the importance of each amino acid difference between the various strains for neurovirulence in weanling and suckling mice. Glycoproteins E2 and E1 were of paramount importance for neurovirulence in adult mice. Recombinant viruses containing the nonstructural protein region and the capsid protein region from an avirulent strain and the E1 and E2 glycoprotein regions from NSV were virulent, although they were less virulent than NSV. Furthermore, changes in either E2 (His-55 in NSV to Gln in SV1A) or E1 (Ala-72 in NSV to Val in SV1A and Asp-313 in NSV to Gly in SV1A) reduced virulence. For virulence in suckling mice, we found that a number of changes in E2 and E1 can lead to decreased virulence and that in fact, a gradient of virulence exists.
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PMID:Molecular basis of Sindbis virus neurovirulence in mice. 283 15

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