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)

IL2-PE40 is a chimeric protein composed of human interleukin-2 (IL2) genetically fused to a modified form of Pseudomonas exotoxin lacking the cell recognition domain. IL2-PE40 is cytotoxic for IL2 receptor-bearing lymphocytes in culture and can inhibit activation of T cells in vivo. IL2-PE40 can significantly diminish antigen-stimulated proliferation of lymphocytes sensitized to myelin basic protein. Intraperitoneal administration of IL2-PE40 not only markedly inhibits the clinical manifestations of adoptively transferred relapsing experimental allergic encephalomyelitis but also dramatically reduces both inflammation and demyelination characteristic of the disease.
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PMID:Chimeric cytotoxin IL2-PE40 inhibits relapsing experimental allergic encephalomyelitis. 170 44

Swine hemagglutinating encephalomyelitis virus (HEV), 67N strain, adapted to suckling mouse brain, grew readily in a porcine cell line, SK-K cell culture with cytopathic effect (CPE) consisting of syncytium formation and detachment of fused cells and round cells from glass surface. After further passages in SK-K cell monolayers with undiluted culture fluid, CPE developed earlier and became complete within 48 h postinoculation (p.i.). Viral specific antigen was detected in the cytoplasm of the infected SK-K cells by indirect immunofluorescence using rabbit antiserum against the mouse-passaged virus. The SK-K-passaged virus as well as the original mouse-passaged virus formed clear plaques on SK-K cell monolayers under simple overlay medium. The plaque assay system for HEV 67N was established by studying various factors influencing the plaque formation in the SK-K cell cultures. By this system more than 10(6) PFU/0.2 ml of the virus yield was detected in the fluid phase of the infected cultures at 48 h p.i. The SK-K-passaged virus caused fatal infection in 4-week-old mice by intracerebral inoculation, but was inhibited by rabbit antiserum against the mouse-passaged virus. Plaque formation and hemagglutinating activity of the virus were specifically inhibited by antisera against the mouse-passaged and SK-K-passaged 67N virus.
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PMID:Replication and plaque formation of swine hemagglutinating encephalomyelitis virus (67N) in swine cell line, SK-K culture. 240 48

Experimental autoimmune encephalomyelitis was induced in a Lewis rat by sensitization with synthetic peptide GP68-86, representing the 68-86 sequence of guinea pig myelin basic protein (GPMBP). To delineate T cell determinants of GP68-86, lymph node cells from this rat were activated in culture with GP68-86 and were fused with cells of the mouse thymoma BW5147. The resultant hybrids were cloned by limiting dilution and screened for GP68-86-evoked secretion of IL2 in the presence of rat splenocytes. Twelve T cell hybrids derived in this manner were tested for reactivity to different heterologous species of MBP as well as to substituted or truncated analogs of GP68-86. The hybrids generally exhibited potent reactivity to GPMBP but differed markedly in their reactivity to autologous rat MBP (RMBP). A few exceptional hybrids exhibited crossreactivity with peptides in which native serine75 or serine80 residues of GPMBP were substituted with either alanine75 (A75) or proline80 (P80) residues. These cross-reactive hybrids also possessed high levels of anti-RMBP reactivity. The remaining hybrids were unresponsive to the A75 and P80 substituted peptides and, with one exception, had relatively low levels of anti-RMBP reactivity. Unique reactivity patterns were also revealed by hybrid responses to peptides having modified C-terminal 84-86 residues. In summary, the contrasting fine specificities of different hybrids indicated that several distinct clones of T cells mediate the immune response of Lewis rats against the 68-86 region of GPMBP. Furthermore, heterogeneity in the hybrid response to "self" RMBP may reflect substantial differences in encephalitogenic potency of the T cell clones from which these hybrids were derived.
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PMID:Clonotypic heterogeneity of Lewis rat T cells specific for the encephalitogenic 68-86 region of myelin basic protein. 247 60

Defined DNA fragments of cloned Theiler's murine encephalomyelitis virus genome were used to construct procaryotic recombinant plasmids expressing viral genes 3C and 3D. In these plasmids (pEX-EMBL vectors), viral sequences are fused in-phase behind the Escherichia coli lac Z' gene which is under the control of the inducible lambda Pr promoter. Partially purified fusion proteins were used to immunize Balb/c mice. Sera monospecific for the viral protease 3C and polymerase 3D were obtained. These sera detected their corresponding antigens in situ in infected BHK cells using immunocytochemical reactions.
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PMID:Expression of Theiler's murine encephalomyelitis virus protease 3C and polymerase 3D in Escherichia coli and characterization of monospecific sera. 284 4

Recently, it has been shown that the immunization of mice with an 18 amino acid synthetic peptide corresponding to the third hypervariable region of MHC class II beta chain can induce a specific antibody response against MHC class II molecules, and can be utilized in the prevention and treatment of experimental allergic encephalomyelitis (EAE) [Proc. Natl. Acad. Sci. 1994, 91, 8005-8009]. Based on this finding, a chemically-modified synthetic peptide with the amino acid sequence corresponding to residues of beta 57-76 from human HLA-DR4Dw4 (DR4/1 peptide) is being clinically investigated for the treatment of rheumatoid arthritis in human. The present study describes the development of a novel in vitro potency assay for human HLA-DR4/1 peptide using cloned murine T-T hybridoma cells. Several mouse strains were immunized with the DR4/1 peptide and their lymph node T cell proliferation was measured in the presence of syngeneic APCs and the DR4/1 peptide. T cells isolated from the peptide primed-B10. PL mouse strain, which showed the highest recall response in this assay, were fused with BW5147 lymphoma cells to generate DR4/1 peptide-specific T-T hybridoma clones. Cloned hybridoma cells were characterized for peptide specificity and MHC class II restriction, and used to monitor the biological activity of various DR4/1 peptide preparations. The potency of peptide batches were assessed by measuring the IL-2 secretion of cloned T-T hybridoma cells upon TCR engagement in an antigen-specific manner. The quantitative detection of IL-2 was performed by measuring [3H]thymidine incorporation of HT-2 cells or directly by ELISA. These results demonstrate that peptide-specific murine T-T hybridoma clones can be successfully utilized to monitor biological activity of synthetic peptides by measuring T cell-mediated immunological responses. Development of such in vitro potency assay for synthetic peptides may have broad applications for vaccines related to immunological disorders.
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PMID:Application of murine T-T hybridoma cells to in vitro potency assay of human synthetic peptide vaccines. 900 39

Targeting peptides have potential as components of recombinant vaccines. Here, we have analyzed a set of structurally diverse peptides fused to a polyepitope vaccine in prevention of rat generalized autoimmunity of the nervous system (GANS), a combined model of experimental autoimmune encephalomyelitis (EAE), neuritis (EAN) and uveoretinitis (EAU). The peptide sequences studied included the endothelial-monocyte-activating polypeptide II (EMAP II), the allograft inflammatory factor-1 (AIF-1), and the interferon-gamma-inducing factor (IGIF, IL-18). Further, a variety of adhesive peptides were tested, including the disintegrin domain of mouse ADAM 8. Interestingly, this disintegrin domain considerably increased the effect of the polyepitope vaccine. Of the other peptides, only IL-18 enhanced tolerance induction, but was less effective than the ADAM 8 disintegrin peptide. In conclusion, disintegrin domains will be valuable leads in the development of targeting peptides for immunointervention.
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PMID:The disintegrin domain of ADAM 8 enhances protection against rat experimental autoimmune encephalomyelitis, neuritis and uveitis by a polyvalent autoantigen vaccine. 967 Aug 63

Experimental autoimmune encephalomyelitis (EAE) is a demyelinating disease of the central nervous system (CNS) that serves as a model for multiple sclerosis (MS) in humans. In mice, EAE is mediated by Th1 type CD4(+) T cells specific for various myelin proteins which migrate from the periphery to the CNS. Removal or blocking of CD4(+) cells before or shortly after disease induction was shown to prevent disease onset and/or disease progression but also results in general immune suppression. Most treatment regimens for autoimmune diseases currently rely on general suppression of the T-cell compartment most commonly by steroids. In this paper, an experimental, gene therapy-based model is presented in which susceptible mice are made resistant to EAE induction by specifically down-regulating an autoreactive T-cell population. By using a retroviral gene transfer protocol, normal B cells were genetically modified to constitutively express the SJL-specific proteolipid (PLP) encephalitogenic determinant and then adoptively transferred into syngeneic hosts. To ensure appropriate presentation of the exogenous encephalitogenic peptide in association with MHC class II, the encephalitogenic sequence was fused to a lysosomal targeting sequence. Adoptive transfer of syngeneic B cells expressing the PLP encephalitogenic determinant into normal, naive, genetically susceptible mice induced PLP-specific unresponsiveness and completely protected the majority (62% and 83% using an intermediate and a high titer retroviral vector, respectively) of the animals from EAE induction. The remaining animals had a delayed disease onset and/or lower disease severity. All protected mice expressed the exogenous gene in the spleen as detected by reverse transcriptase-polymerase chain reaction.
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PMID:A gene therapy approach for treating T-cell-mediated autoimmune diseases. 1115 13

Oral administration of autoantigens is a safe and convenient way to induce peripheral T-cell tolerance in autoimmune diseases like multiple sclerosis (MS). To increase the efficacy of oral tolerance induction and obviate the need for large-scale purification of human myelin proteins, we use genetically modified lactobacilli expressing myelin antigens. A panel of recombinant lactobacilli was constructed producing myelin proteins and peptides, including human and guinea pig myelin basic protein (MBP) and proteolipid protein peptide 139-151 (PLP(139-151)). In this study we examined whether these Lactobacillus recombinants are able to induce oral and intranasal tolerance in an animal model for multiple sclerosis, experimental autoimmune encephalomyelitis (EAE). Lewis rats received soluble cell extracts of Lactobacillus transformants intranasally three times prior to induction of EAE. For the induction of oral tolerance, rats were fed live transformed lactobacilli for 20 days. Ten days after the first oral administration EAE was induced. Intranasal administration of extracts containing guinea pig MBP (gpMBP) or MBP(72-85) significantly inhibited EAE in Lewis rats. Extracts of control transformants did not reduce EAE. Live lactobacilli expressing guinea pig MBP(72-85) fused to the marker enzyme beta-glucuronidase (beta-gluc) were also able to significantly reduce disease when administered orally. In conclusion, these experiments provide proof of principle that lactobacilli expressing myelin antigens reduce EAE after mucosal (intranasal and oral) administration. This novel method of mucosal tolerance induction by mucosal administration of recombinant lactobacilli expressing relevant autoantigens could find applications in autoimmune disease in general, such as multiple sclerosis, rheumatoid arthritis and uveitis.
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PMID:Reduced experimental autoimmune encephalomyelitis after intranasal and oral administration of recombinant lactobacilli expressing myelin antigens. 1458 76

In multiple sclerosis (MS), post-mortem studies of human brain tissue as well as data from animal models have shown that apoptosis of neurons occurs to a significant extent during this disease. As neurodegeneration in MS correlates with permanent neurological deficits in patients, understanding the mechanisms would be an important pre-condition for designing appropriate neuroprotective therapies. Myelin oligodendrocyte glycoprotein-induced experimental autoimmune encephalomyelitis often affects the optic nerve and leads to consecutive apoptosis of retinal ganglion cells (RGCs), the neurons that form its axons. In this study, we fused Bcl-XL to the protein transduction domain of the HIV-transactivator of transcription. Thereby, this anti-apoptotic member of the Bcl-2 family was delivered into RGCs of rats with electrophysiologically diagnosed optic neuritis. Transduction of Bcl-XL in our study led to significant rescue of RGCs indicating the relevance of this pathway for neuronal survival under autoimmune inflammatory conditions.
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PMID:HIV-Tat-mediated Bcl-XL delivery protects retinal ganglion cells during experimental autoimmune optic neuritis. 1624 30

We have induced a polyclonal IgG that degrades the HIV-1 surface antigen, glycoprotein gp120, by taking advantage of the susceptibility of SJL mice to a peptide-induced autoimmune disorder, experimental autoimmune encephalomyelitis (EAE). Specific pathogen-free SJL mice were immunized with structural fragments of gp120, fused in-frame with encephalitogenic peptide MBP(85-101). It has resulted in a pronounced disease-associated immune response against antigens. A dramatic increase of gp120 degradation level by purified polyclonal IgG from immunized versus nonimmunized mice has been demonstrated by a newly developed fluorescence-based assay. This activity was inhibited by anti-mouse immunoglobulin antibodies as well as by Ser- and His-reactive covalent inhibitors. A dominant proteolysis site in recombinant gp120 incubated with purified polyclonal IgG from immunized mice was shown by SDS-PAGE. The SELDI-based mass spectrometry revealed that these antibodies exhibited significant specificity toward the Pro484-Leu485 peptide bond. The sequence surrounding this site is present in nearly half of the HIV-I variants. This novel strategy can be generalized for creating a catalytic vaccine against viral pathogens.
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PMID:Induction of a protein-targeted catalytic response in autoimmune prone mice: antibody-mediated cleavage of HIV-1 glycoprotein GP120. 1638 9

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