Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0038362 (stomatitis)
 8,852 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

BALB/c-H-2dm2 mice (H-2KdI-AdI-EdDd), a congenic strain of BALB/c mice, have a deletion of the class I MHC Ag, H-2Ld. This gene encodes the exclusive class I MHC-restricting gene product for vesicular stomatitis virus-specific cytolytic T lymphocytes. When dm2 mice were immunized with infectious vesicular stomatitis virus, a specific CTL response was generated. These CTL lysed VSV-infected targets that expressed Iad gene products, but not VSV-infected Iad- targets. The CTL were used initially as long term cytolytic lines; 13 CTL clones were derived by limit dilution. All of the clones expressed the phenotype CD3+, CD4+, CD8-; some clones expressed TCR that are members of the V beta 8 family, others did not. The clones were restricted by class II MHC Ag, both I-Ad and I-Ed serving as restricting elements for individual clones of the panel. All of the clones derived from dm2 mice were specific for the immunizing serotype, Indiana, of VSV and did not lyse syngeneic cells infected with VSV of the New Jersey serotype. Studies using defective interfering virus particles, UV light-inactivated virus, and purified micelles of the viral glycoprotein indicated that infectious virus was not required for sensitization of target cells for immune recognition by the class II MHC-restricted CTL clones. Additional studies using recombinant vaccinia virus vectors to sensitize targets confirmed the specificity of the clones for the viral glycoprotein. These studies also demonstrated a cryptic population of class II-restricted CTL in BALB/c lines specific for VSV G. Naturally occurring variant viruses and mutant viruses, selected for escape from neutralization by mAb, were used in an effort to map the determinant(s) recognized; on the basis of patterns of target cell lysis, three groups of epitopes recognized by the clones were defined. Therefore, in the absence of the class I MHC Ag required for a CTL response to VSV, dm2 mice generated CTL with the CD4+ phenotype that recognized different epitopes on the viral glycoprotein, and lysed cells in a class II-MHC restricted, Ag-specific manner.
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PMID:Cytolytic T lymphocytes from the BALB/c-H-2dm2 mouse recognize the vesicular stomatitis virus glycoprotein and are restricted by class II MHC antigens. 169 51

The conformational epitopes reactive with neutralizing monoclonal antibodies (MAbs) appear to be clustered at the middle third of the glycoprotein (G) of the New Jersey serotype of vesicular stomatitis virus (VSV-NJ) and are flanked by two N-linked carbohydrate chains (W. Keil and R.R. Wagner, Virology 170, 392-407, 1989). We report here studies on the effect of glycosylation on the reactivity of VSV-NJ G protein derived from released virions or immunoprecipitated from pulse-labeled cells was not significantly affected in its reactivity with MAbs directed to epitope IV mapped toward the amino-terminus, nor to the centrally located conformational epitopes VI, VIII, and IX. However, there was a 5- to 15-fold decrease in the reactivity with MAb of epitopes VI, VIII, and IX on unglycosylated G protein either isolated from a ribosome-enriched membrane fraction or immunoprecipitated from whole VSV-infected cells labeled for 15 hr in the presence of tunicamycin. In sharp contrast, epitope V and to a somewhat lesser extent epitope VII exhibited decreased reactivity with their respective MAbs when unglycosylated G protein was isolated from released viral particles or from pulse-labeled cells infected with VSV-NJ in the presence of tunicamycin. Enzymatic removal of preformed carbohydrate chains with N-glycanase had little or no effect on the MAb-reactivity of epitopes V and VII, indicating that the carbohydrate chains per se do not influence the antigenic specificity of VSV-NJ G protein. These data suggest that the formation of N-linked carbohydrate chains influences the structure of the VSV-NJ G protein in such a way that epitopes V and VII are shielded from reactivity with their specific MAbs from an early stage of G-protein processing and to a much lesser extent epitopes VI, VIII, and IX at late stages of intracellular processing. These results are compatible with, but do not prove, the hypothesis that N-linked glycosylation plays a key role in promoting the formation and the stability of the disulfide bonds that determine the epitope-specific conformational integrity of the VSV-NJ glycoprotein.
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PMID:Effect of glycosylation on the conformational epitopes of the glycoprotein of vesicular stomatitis virus (New Jersey serotype). 170 43

The denV gene from bacteriophage T4 encodes a pyrimidine dimer-specific endonuclease that has the capacity to initiate excision repair of DNA. Cells from excision repair-deficient xeroderma pigmentosum (XP) patients are able to carry out excision repair initiated by the denV gene product and introduction of the denV gene into XP cells results in the partial restoration of colony-forming ability after irradiation with UV light. In this work we have constructed a helper-independent recombinant human adenovirus, Ad5denV, which contains the denV gene. A 1.9 kb cartridge consisting of the denV gene flanked by the long terminal repeat (LTR) promoter from Rous sarcoma virus (RSV) and the simian virus 40 (SV40) polyadenylation (poly A) splice signals, was inserted into the E3 region of an E3 deletion mutant (Ad5d1E3) of adenovirus type 5. Infection of human fibroblasts and other permissive human cells with Ad5denV resulted in lytic infection and expression of the denV gene was confirmed by primer extension of infected cell RNA. The ability of the denV gene to restore the DNA repair deficiency in XP fibroblasts was examined using host cell reactivation of viral structural antigen formation for UV-irradiated adenovirus. The control virus, Ad5VSV, was also a recombinant which contained the gene for vesicular stomatitis virus glycoprotein G inserted into the E3 region of Ad5d1E3. UV survival of Ad5denV was similar to that of Ad5VSV following infection of two normal fibroblast strains and a Cockayne syndrome fibroblast strain, CS7SE, from complementation group B. In contrast, UV survival of Ad5denV was significantly greater than that for Ad5VSV after infection of three unrelated XP fibroblast strains from complementation groups A, C and E. However, UV survival of Ad5denV in the XP fibroblasts did not reach levels obtained in normal fibroblasts, indicating that restoration of the XP defect was partial.
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PMID:Construction of a recombinant adenovirus containing the denV gene from bacteriophage T4 which can partially restore the DNA repair deficiency in xeroderma pigmentosum fibroblasts. 170 21

Brefeldin A (BFA) was shown in earlier studies of numerous cell types to inhibit secretion, induce enzymes of the Golgi stacks to redistribute into the ER, and to cause the Golgi cisternae to disappear. Here, we demonstrate that the PtK1 line of rat kangaroo kidney cells is resistant to BFA. The drug did not disrupt the morphology of the Golgi complex in PtK1 cells, as judged by immunofluorescence using antibodies to 58- (58K) and 110-kD (beta-COP) Golgi proteins, and by fluorescence microscopy of live cells labeled with C6-NBD-ceramide. In addition, BFA did not inhibit protein secretion, not alter the kinetics or extent of glycosylation of the vesicular stomatitis virus (VSV) glycoprotein (G-protein) in VSV-infected PtK1 cells. To explore the mechanism of resistance to BFA, PtK1 cells were fused with BFA-sensitive CV-1 cells that had been infected with a recombinant SV-40 strain containing the gene for VSV G-protein and, at various times following fusion, the cultures were exposed to BFA. Shortly after cell fusion, heterokaryons contained one Golgi complex associated with each nucleus. Golgi membranes derived from CV-1 cells were sensitive to BFA, whereas those of PtK1 origin were BFA resistant. A few hours after fusion, most heterokaryons contained a single, large Golgi apparatus that was resistant to BFA and contained CV-1 galactosyltransferase. In unfused cells that had been perforated using nitrocellulose filters, retention of beta-COP on the Golgi was optimal in the presence of cytosol, ATP, and GTP. In perforated cell models of the BFA-sensitive MA104 line, BFA caused beta-COP to be released from the Golgi complex in the presence of nucleotides, and either MA104 or PtK1 cytosol. In contrast, when perforated PtK1 cells were incubated with BFA, nucleotides, and cytosol from either cell type, beta-COP remained bound to the Golgi complex. We conclude that PtK1 cells contain a nondiffusible factor, which is located on or very close to the Golgi complex, and confers a dominant resistance to BFA. It is possible that this factor is homologous to the target of BFA in cells that are sensitive to the drug.
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PMID:PtK1 cells contain a nondiffusible, dominant factor that makes the Golgi apparatus resistant to brefeldin A. 171 Feb 24

A novel lectin-resistance phenotype was displayed by a LEC10 Chinese hamster ovary (CHO) cell mutant that was selected for resistance to the erythroagglutinin, E-PHA. Biochemical and genetic analyses revealed that the phenotype results from the expression of two glycosylation mutations, LEC10 and lec8. The LEC10 mutation causes the appearance of N-acetylglucosaminyltransferase III (GlcNAc-TIII) activity and the production of N-linked carbohydrates with a bisecting GlcNAc residue. The lec8 mutation inhibits translocation of UDP-Gal into the Golgi lumen and thereby dramatically reduces galactosylation of all glycoconjugates. This reduction in galactose addition does not, however, cause Lec8 mutants to be very resistant to the galactose-binding lectin, ricin. By contrast, the double mutant LEC10.Lec8 behaved like a LEC10 mutant and was highly resistant to ricin. Based on structural studies of cellular glycopeptides as well as glycopeptides of the G glycoprotein of vesicular stomatitis virus grown in mutant cells, it appears that the ricin resistance of LEC10.Lec8 cells is due to the presence of a small number of Gal residues on branched, N-linked carbohydrates that also carry the bisecting GlcNAc residue. Labelling of N-linked cellular carbohydrates with [3H]galactose was found to occur at a low level for a wide spectrum of cellular glycoproteins in independent Lec8 mutants. Studies of the LEC10.Lec8 mutant have, therefore, led to the identification of a subset of structures that are acceptors for Gal when intra-Golgi UDP-Gal levels are limiting. This mutant also illustrates the potential for regulating cell surface recognition by carbohydrate-binding proteins by altering the expression of a single glycosyltransferase such as GlcNAc-TIII.
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PMID:A subclass of cell surface carbohydrates revealed by a CHO mutant with two glycosylation mutations. 183 51

An alternative approach to structure-function analysis of vesicular stomatitis virus (VSV) gene products and their interactions with one another during each phase of the viral life cycle is described. We showed previously by using the vaccinia virus-T7 RNA polymerase expression system that when cells expressing the nucleocapsid protein (N), the phosphoprotein (NS), and the large polymerase protein (L) of VSV were superinfected with defective interfering (DI) particles, rapid and efficient replication and amplification of (DI) particle RNA occurred. Here, we demonstrate that all five VSV proteins can be expressed simultaneously when cells are contransfected with plasmids containing the matrix protein (M) gene and the glycoprotein (G) gene of VSV in addition to plasmids containing the genes for the N, NS, and L proteins. When cells coexpressing all five VSV proteins were superinfected with DI particles, which because of their defectiveness are unable to express any viral proteins or to replicate, DI particle replication, assembly, and budding were observed and infectious DI particles were released into the culture fluids. Omission of either the M or G protein expression resulted in no DI particle budding. The vector-supported DI particles were similar in size and morphology to the authentic DI particles generated from cells coinfected with DI particles and helper VSV and their infectivity could be blocked by anti-VSV or anti-G antiserum. The successful replication, assembly, and budding of DI particles from cells expressing all five VSV proteins from cloned cDNAs provide a powerful approach for detailed structure-function analysis of the VSV gene products in each step of the replicative cycle of the virus.
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PMID:Cells that express all five proteins of vesicular stomatitis virus from cloned cDNAs support replication, assembly, and budding of defective interfering particles. 184 19

Viral mRNA encoding vesicular stomatitis virus glycoprotein sequences was detected and quantitated using a DNA-hybridization dot-blot technique. This assay was employed to determine if the synthetic double-stranded polynucleotide complex of polyriboinosinic-polyribocytidylic acid would elicit viral resistance in vitro in single day 9 bovine embryos. The levels of viral mRNA were assayed in 4 groups of bovine embryos: unexposed, virus-exposed, polynucleotide-treated, and virus plus polynucleotide treated. Reduced quantities of viral mRNA in single polynucleotide treated embryos demonstrated that resistance to viral infection was induced in day 9 bovine embryos.
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PMID:Chemically induced viral resistance in single preimplantation bovine embryos. 184

The vesicular stomatitis virus (VSV) glycoprotein (G) forms noncovalently linked trimers in the endoplasmic reticulum (ER) prior to transport to the cell surface. Here we examined the formation of heterotrimers between wild-type and mutant subunits that were retained in the ER by C-terminal retention signals. When G protein was coexpressed with mutant subunits that formed trimers at the wild-type rate and were transported from the ER at the wild-type rate, heterotrimers were readily detected. In contrast, when G protein was coexpressed with mutant subunits that formed trimers at the wild-type rate, but were retained in the ER, heterotrimers were not detected unless transport of the wild-type molecules from the ER was blocked. After removal of transport block, the heterotrimers then dissociated and reassorted to homotrimers of the mutant protein that were retained in the ER and wild-type trimers that were transported to the cell surface. These and other results presented here indicate that there is an equilibrium between G protein trimers and monomers in vivo, at least in the ER. This equilibrium may function to allow escape of wild-type subunits from aberrant retained subunits.
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PMID:Dissociation and reassociation of oligomeric viral glycoprotein subunits in the endoplasmic reticulum. 184 13

The replication of genomes of animal viruses in the cytoplasm of susceptible cells is usually coupled to specialized membrane structures. The inhibitor of lipid synthesis cerulenin blocks the formation of vesicular stomatitis virus polypeptides when added to cells soon after virus entry, but has much less effect on viral translation, or the acylation of the glycoprotein G, when cerulenin is added later during infection. By contrast, cerulenin powerfully blocks viral RNA synthesis or the incorporation of glycerol into lipids when present at any time after VSV-infection. These findings suggest that the synthesis of VSV RNA is dependent on continuous synthesis of lipids.
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PMID:Cerulenin, an inhibitor of lipid synthesis, blocks vesicular stomatitis virus RNA replication. 184 89

We have examined the fate of input viral proteins following the uncoating of vesicular stomatitis virus (VSV) by immunofluorescence microscopy, immunoelectron microscopy, and cell fractionation. VSV was adsorbed to BHK cells and allowed to become internalized in the presence of 100 mM NH4Cl; the NH4Cl was then removed to initiate synchronized uncoating. The three major structural proteins of VSV, the matrix protein (M), the nucleocapsid protein (N), and the glycoprotein (G), were each distributed uniquely after uncoating. Immunofluorescence microscopy showed that both G and N proteins retained a punctate distribution, whereas M protein was diffusely distributed throughout the cytoplasm, suggesting that it had become soluble. Immunoelectron microscopy showed that N protein was found in clusters (presumably in intact nucleocapsids) associated with the cell cytoskeleton and in unfused virions in endosomes and lysosomes. M protein was found diffusely distributed throughout the cytoplasm and also in endosomes and lysosomes. G protein was found only in association with endosomes and lysosomes after uncoating. Electrophoretic analysis of the high-speed cytosol fraction from infected cells showed that it contained chiefly M protein. The amount of M protein in the cytosol increased continuously during 90 min of uncoating, confirming its solubilization during uncoating. M protein was not covalently modified by phosphorylation upon uncoating, as evidenced by its mobility on nonequilibrium pH gradient gel electrophoresis. We suggest that those nucleocapsids associating with the cytoskeleton after uncoating may represent the sites of primary viral transcription.
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PMID:Intracellular distribution of input vesicular stomatitis virus proteins after uncoating. 185 35


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