UMLS:C0038362 - FACTA Search

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Query: UMLS:C0038362 (stomatitis)
8,852 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The RMA-S cell line was derived from the Raucher virus-induced murine cell line RBL-5 by ethylmethane sulfonate mutagenesis and anti-H-2 antibody plus complement selection (Ljunggren, H.-G., and K. Karre. 1985. J. Exp. Med. 162:1745). RMA-S is defective in the ability to present endogenously synthesized antigens to class I major histocompatibility complex (MHC)-restricted cytotoxic T lymphocytes (CTL) (Townsend, A., C. Ohlen, J. Bastin, H.-G. Ljunggren, L. Foster, and K. Karre. 1989. Nature [Lond.]. 340:443; Ohlen, C., J. Bastin, H.-G. Ljunggren, L. Foster, E. Wolpert, G. Klein, A. R. M. Townsend, and K. Karre. 1990. J. Immunol. 145:52). This defect has been attributed to the inability of RMA-S to deliver antigenic peptides derived from antigens in the cytosol into the endoplasmic reticulum (ER), where they can associate with class I MHC molecules (Townsend, A., C. Ohlen, J. Bastin, H.-G. Ljunggren, L. Foster, and K. Karre. 1989. Nature [Lond.]. 340:443). We show that RMA-S can present at least one endogenous antigen, vesicular stomatitis virus nucleoprotein (VSV-N), to class I MHC-restricted CTL. RMA-S presents VSV-N to CTL both when infected with VSV or transfected with the VSV nucleoprotein gene. The natural antigenic VSV nucleoprotein peptides purified from either RMA or RMA-S are indistinguishable when analyzed by high performance liquid chromatography. We also show that the genetic defect responsible for the RMA-S phenotype maps to the murine chromosome 17. This chromosome encodes the murine class I MHC genes as well as two genes, HAM-1 and -2, with homology to the adenosine triphosphate-dependent transporter superfamily (Monaco, J. J., S. Cho, and M. Attaya. 1990. Science [Wash. DC]. 250:1723). These results suggest that the system that delivers antigenic peptides from the cytosol to the ER in RMA-S may still be present and retain partial function.
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PMID:An endogenous antigenic peptide bypasses the class I antigen presentation defect in RMA-S. 131 Oct 17

This study describes an analysis of the interaction of individual amino acid residues of the vesicular stomatitis virus (VSV) nucleocapsid antigenic octapeptide (N52-59; Arg-Gly-Tyr-Val-Tyr-Gln-Gly-Leu) with the H-2Kb molecule and T-cell receptors (TCRs). Tyr-3, Tyr-5, and Leu-8 were the positions in the peptide found to be H-2Kb contact residues by analyzing single alanine-substituted peptides in a competition assay with a Kb-restricted antigenic nonapeptide of Sendai virus. Arg-1, Gly-2, Val-4, Gln-6, and Gly-7 of the peptide were identified as putative TCR contact residues by testing the peptide analogs for their capacity to sensitize targets for VSV-specific cytolytic T-lymphocyte clones. The octamer N52-59 was the optimal length of the peptide required for binding to Kb. This peptide length requirement and the finding of an irregular interspersing of major histocompatibility complex and TCR contact residues are most consistent with the conclusion that the peptide is in an extended conformation in the antigen binding groove. Furthermore, data on binding of truncated peptides show that, although the Arg-1 side chain has been assigned as a TCR contact residue, the main-chain atoms of the N-terminal amino group are most likely involved in interacting with the major histocompatibility complex molecule. A panel of H-2Kb point mutants was constructed to explore the effect of altered amino acid residues on the binding of N52-59. Mutants with amino acid substitutions along the floor of the groove all bound the VSV peptide but modulated its interaction with Kb, apparently causing subtle changes in the spatial arrangement of some specific TCR contact residues in the peptide.
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PMID:Vesicular stomatitis virus antigenic octapeptide N52-59 is anchored into the groove of the H-2Kb molecule by the side chains of three amino acids and the main-chain atoms of the amino terminus. 131 83

To study the structure of a homogenous major histocompatibility complex (MHC) class I molecule containing a single bound peptide, a complex of recombinant mouse H-2Kb, beta 2-microglobulin (beta 2m), and a fragment of the vesicular stomatitis virus (VSV) nuclear capsid protein, VSV-(N52-59) octapeptide (Arg-Gly-Tyr-Val-Tyr-Gln-Gly-Leu), was prepared by exploiting a high-yield bacterial expression system and in vitro cocomplex formation. The structure of mouse H-2Kb revealed its similarity to three human class I HLA molecules, consistent with the high primary sequence homology and common function of these peptide-presenting molecules. Electron density was located in the peptide-binding groove, to which a single peptide in a unique conformation was unambiguously fit. The peptide extends the length of the groove, parallel to the alpha-helices, and assumes an extended, mostly beta-strand conformation. The peptide is constrained within the groove by hydrogen bonding of its main-chain atoms and by contacts of its side chains with the H-2Kb molecule. The amino-terminal nitrogen atom of the peptide forms a hydrogen bond with the hydroxyl group of Tyr-171 of H-2Kb at one end of the groove, while the carboxyl-terminal oxygen forms a hydrogen bond with the hydroxyl group of Tyr-84 at the other end. Since the amino acids at both ends are conserved among human and mouse MHC molecules, this anchoring of each end of the peptide appears to be a general feature of peptide-MHC class I molecule binding and imposes restrictions on its length. The side chains of residues Tyr-3, Tyr-5, and Leu-8 of the VSV octapeptide fit into the interior of the H-2Kb molecule with no appreciable surface exposure, a finding in support of previous biological studies that showed the importance of these residues for binding. Thus, the basis for binding of specific peptide sequences to the MHC class I molecule is the steric restriction imposed on the peptide side chains by the architecture of the floor and sides of the groove. The side chains of Arg-1, Val-4, and Gln-6 and the main-chain of Gly-7 of the octapeptide are exposed on the surface of the complex, thus confirming their availability for T-cell receptor contact, as previously demonstrated by T-cell recognition experiments.
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PMID:Crystal structure of the major histocompatibility complex class I H-2Kb molecule containing a single viral peptide: implications for peptide binding and T-cell receptor recognition. 132 57

T lymphocytes recognize antigens as peptide fragments associated with molecules encoded by the major histocompatibility complex (MHC) and expressed on the surface of antigen-presenting cells. In the thymus, T cells bearing alpha beta receptors that react with the MHC molecules expressed by radioresistant stromal elements are positively selected for maturation. In (A x B-->A) bone marrow chimaeras, T cells restricted to the MHC-A haplotype are positively selected, whereas MHC-B-reactive thymocytes are not. We investigated whether the introduction of particular thymic stromal elements bearing MHC-B molecules could alter the fate of B-reactive T cells in these (A x B-->A) chimaeras. Thymic epithelial cell (TEC) lines expressing H-2b were introduced by intrathymic injection into (H-2b/s-->H2s) bone marrow chimaeras and we measured their ability to generate H-2b-restricted cytotoxic T-lymphocytes (CTLs). We report here that one TEC line, 427.1, was able positively to select CTLs specific for influenza and vesicular stomatitis virus antigens in association with class I H-2b molecules. In addition, line 427.1 can process cytoplasmic proteins for presentation to H-2Kb- and H-2Db-restricted CTLs. Thus, a TEC line capable of normal class I MHC antigen processing and presentation in vitro can induce positive selection after intrathymic injection.
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PMID:Positive selection of T-lymphocytes induced by intrathymic injection of a thymic epithelial cell line. 133 4

The requirements for viral and host protein synthesis in the generation of target antigens for cytotoxic T lymphocytes (CTL) was evaluated by using vesicular stomatitis virus (VSV) inactivated by UV irradiation (UV-VSV). EL4 target cells incubated with UV-VSV were recognized and lysed by anti-VSV CTL, indicating that de novo synthesis of viral proteins was not required for the generation of antigens recognized by antiviral CTL. Anti-VSV CTL from H-2b mice primarily recognize determinants derived from the VSV N protein bound to the class I major histocompatibility complex (MHC) antigen H-2Kb. Comparison of a cloned CTL line representing this specificity and a heterogeneous population of anti-VSV CTL showed that determinants other than that recognized by the cloned CTL were generated more efficiently from UV-VSV. By using vaccinia virus recombinants that express deletion fragments of the N protein, it was shown that these additional determinants were probably derived from VSV proteins other than the N protein. The protein synthesis inhibitor emetine was used to determine whether newly synthesized host proteins were required for antigen generation. The addition of emetine to target cells prior to or at the time of the addition of UV-VSV inhibited lysis by anti-VSV CTL. This inhibition could be due to depletion of newly synthesized MHC molecules from intracellular membranes. This hypothesis was supported by using brefeldin A to delay membrane protein transport in target cells during the time of incubation with emetine and UV-VSV, which resulted in partial reversal of the effect of emetine. These results suggest that newly synthesized class I MHC molecules are required for the generation of antigens recognized by anti-VSV CTL.
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PMID:Role of de novo protein synthesis in target cells recognized by cytotoxic T lymphocytes specific for vesicular stomatitis virus. 165 79

Lymphocytic interferon gamma (IFN-gamma) production and major histocompatibility complex (MHC) antigen induction were studied in experimental measles and vesicular stomatitis virus infections in the brain. Fifteen-day-old Sprague-Dawley rats injected intracerebrally with the HNT strain of measles virus showed already within 1 day after infection an increased number of cells producing IFN-gamma in the spleen, cervical lymph nodes and leptomeninges. These rats recovered after a transient neuronal infection in the brain. Rats infected intracerebrally with vesicular stomatitis virus, on the other hand, all succumbed after 2 days and showed no IFN-gamma production in lymphoid cells. Immunohistochemically MHC class I antigen appeared in infected and uninfected cells in the brain during replication of both viruses. A role for the recently discovered nerve fibres with IFN-gamma-like immunoreactivity, which are normally present in the brain, in the MHC antigen induction is discussed.
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PMID:Gamma interferon expression and major histocompatibility complex induction during measles and vesicular stomatitis virus infections of the brain. 184 67

We are exploring the use of interferon (IFN) genes for somatic cell gene therapy and have investigated the possibility of transforming cells into low constitutive IFN producers over prolonged periods of time without impeding cell survival or replication. Here we report the possibility of conferring a permanent antiviral state to cells by introducing an IFN-beta gene with a modified transcriptional control. This was achieved by placing the murine IFN-beta-coding sequence behind the IFN-inducible 0.6-kb XhoII-NruI promoter region of the H-2Kb major histocompatibility complex gene. BALB/c 3T3 cells that are normally permissive for virus infection were transformed with this construction, and 14 of the 21 clonal cell lines obtained displayed different levels of enhanced resistance to the replication of vesicular stomatitis virus, encephalomyocarditis virus, and Semliki Forest virus. The permanent antiviral state was dependent on the presence of new IFN-beta fragments in Southern blots and was accompanied by very low constitutive synthesis of IFN-beta, and the presence of construct-derived IFN mRNA could be demonstrated only after polymerase chain reaction amplification of cDNA. The antiviral state was stable over a 9-month period in culture, corresponding to about 250 cell generations, and did not affect cell replication, since the average population doubling time of these cells was not significantly different from that of the control clone. Twenty-nine control clonal cell lines, stably transformed with either the neo gene alone (22 lines) or the neo gene together with a mutated murine IFN-beta gene coding for an inactive protein (7 lines), did not develop stable antiviral expression. We conclude that low constitutive synthesis of autocrine IFN-beta is sufficient to induce a permanent antiviral state, is compatible with cell survival and replication, and therefore merits further exploration for use in somatic cell gene therapy.
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PMID:Stable antiviral expression in BALB/c 3T3 cells carrying a beta interferon sequence behind a major histocompatibility complex promoter fragment. 184 90

The H-2D region in the major histocompatibility complex (MHC) of the BALB/c mouse includes at least five class I genes: Dd, D2d, D3d, D4d, and Ld. The pattern of expression and functions of the D2d, D3d, and D4d genes are not known. To examine the expression of D2d we obtained mouse L cells transfected with a wildtype D2d gene or an exon shufled D2d/D2d/Dd gene that contained exons encoding the alpha 1 and alpha 2 domains of D2d and the alpha 3 domain of H-2Dd. Analysis of the mRNA in transfected cells suggested that two forms of the message were generated at approximately equal abundance by alternative splicing. Several tissues were analyzed and shown to express both forms of the D2d mRNA although the highest levels were found in lymphoid organs. Tumor lines also expressed D2d mRNA but exhibited differing ratios of alternative versus normally spliced message. This ratio was also affected by treatment of cells with Con A supernatants that contain interferon or infection with vesicular stomatitis virus (VSV).
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PMID:D2d, a D-End class I gene: tissue expression and alternative processing of the pre-mRNA. 196 42

The soluble glycoprotein Gs of vesicular stomatitis virus (VSV), at approximately 10(4) molecules per cell, sensitized target cells for lysis by clones of CD4+ cytolytic T lymphocytes (CTL). In addition to lysis, the clones responded by proliferation and interleukin-2 release. Targets sensitized by Gs competed effectively with VSV-infected cells for recognition. Immune cytolysis by these CD4+ CTLs was restricted by class II major histocompatibility complex (MHC) antigens and was specific to VSV. The specific class II MHC antigen which was restricting for each clone remained the same whether the targets were sensitized by infection with VSV or by exogenously added soluble antigen. Sensitization by Gs appeared to require prior processing because the antigen-presenting cells that were fixed prior to exposure to Gs failed to be recognized by the CTL clones. The high efficiency of this uptake and processing was suggested by the inability of Gs at concentrations up to 10(7) per cell to block superinfection by VSV or to effect the RNA-synthetic machinery of uninfected cells. Also, Gs failed to hemolyze sheep erythrocytes when there was hemolysis by virions or an amino-terminal peptide of the VSV glycoprotein. Extrapolation of these results to viral diseases was possible because soluble viral glycoproteins were naturally synthesized during many viral infections and class II MHC antigens were inducible in cells of nonlymphoid origin. Therefore, CD4+ CTLs may be important participants in increasing virus-induced pathology, especially among adjacent uninfected cells.
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PMID:The soluble viral glycoprotein of vesicular stomatitis virus efficiently sensitizes target cells for lysis by CD4+ T lymphocytes. 216 98

Study of the mechanisms by which interferon (IFN) treatment of cells induces resistance to virus infections has been complicated by the multiple biochemical changes induced. Over 20 proteins are increased by IFN, including the double-stranded (ds) RNA-activated protein kinase, (2'-5') oligo A synthetase, surface proteins such as the major histocompatibility complex (MHC) proteins, and various proteins with unknown functions. The availability of cloned complementary DNAs for several IFN-induced proteins now allows us to probe their roles in IFN action. For instance, the murine Mx protein has been shown to confer resistance, to influenza virus. We studied chinese hamster ovary (CHO) cell clones expressing high constitutive levels of (2'-5') A synthetase as a result of transfection with the cDNA encoding the enzyme form which has a relative molecular mass (Mr) of 40K. Elevated enzyme correlates directly with resistance to infection by a picornavirus such as Mengo, but does not make the cells resistant to vesicular stomatitis virus (VSV).
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PMID:Constitutive expression of (2'-5') oligo A synthetase confers resistance to picornavirus infection. 282 34

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