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)

Although host protein synthesis is preferentially inhibited, there is a steady decline in the ability of Chinese hamster ovary (CHO) cells infected with vesicular stomatitis virus (VSV) to synthesize both host and viral proteins. We previously reported finding an mRNA-ribonucleoprotein particle (mRNP) that contained all five VSV mRNAs and viral N protein exclusively. This particle apparently regulates translation by sequestering a majority of the VSV mRNA made late in infection and thus rendering it unavailable for protein synthesis. In the present investigation the mRNP was also shown to inhibit in vitro protein synthesis in rabbit reticulocyte and wheat germ lysates programmed with mRNA isolated from VSV-infected cells. The synthesis of eIF-2 X GTP X Met-tRNA (ternary) complex, the first step in initiation of protein synthesis, was markedly inhibited by the mRNP. The inhibition was partially reversed by addition of purified eIF-2 to the inhibited lysate or ternary complex formation reaction. These results indicate a dual role of the mRNP in regulating protein synthesis during infection. Nucleocapsid also inhibited in vitro protein synthesis, although this inhibition was not reversed by eIF-2. Nucleocapsid did not inhibit ternary complex formation in vitro. Consequently, nucleocapsid may also regulate in vivo protein synthesis, but by a mechanism different from the mRNP.
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PMID:Inhibition of protein synthesis in vesicular stomatitis virus infected Chinese hamster ovary cells: role of virus mRNA-ribonucleoprotein particle. 608 70

Somatostatin is a14-amino acid peptide hormone that inhibits the secretion of a variety of other polypeptide hormones, including growth hormone. Here we describe an experimental system used to determine whether somatostatin can discriminate in its inhibition between secretory and plasma membrane proteins. Growth hormone-secreting cells (GH3) were infected with vesicular stomatitis virus and pulse-chased with [35S]methionine to follow the simultaneous intracellular transit of growth hormone and the viral membrane glycoprotein, G protein. Secretion of growth hormone was monitored by immunoprecipitation of chase media, while appearance of G protein on the plasma membrane was detected by cell surface labeling and virus purification. In the presence of somatostatin (10 micrograms/ml), the secretion of growth hormone was inhibited by 80%. In contrast, G protein appeared on the plasma membrane with slightly enhanced kinetics. When cells were treated with the ionophore monensin (0.2 microM), there was a dramatic inhibition of both the secretion of growth hormone and the incorporation of G protein into plasma membranes. Our results on the differential effect of somatostatin provide evidence for sorting of secretory and membrane proteins into distinct compartments in the secretory pathway. The data further suggest that this sorting event occurs late in the Golgi complex or after proteins exit from that organelle.
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PMID:Somatostatin discriminates between the intracellular pathways of secretory and membrane proteins. 614 20

The purified glycoprotein of vesicular stomatitis virus was cleaved at methionine residues with cyanogen bromide, and the resultant peptides were analyzed by two-dimensional electrophoresis in sodium dodecyl sulfate-polyacrylamide gels. Five peptide bands were resolved in cylindrical gels run under nonreducing conditions. After reduction and electrophoresis in the second dimension, 11 peptides were resolved, indicating that several were originally linked by disulfide bonds. Double-label experiments indicated that at least 8 of the 11 peptides were unique. The major oligosaccharide chains were attached to two different cyanogen bromide peptides. In addition, six other peptides contained small amounts of sialic acid, fucose, and mannose, indicating that the glycoprotein contains more carbohydrate chains than the two major ones which have been reported previously.
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PMID:Separation of cyanogen bromide-cleaved peptides of the vesicular stomatitis virus glycoprotein and analysis of their carbohydrate content. 625 57

Bacterial plasmids that directed expression of the vesicular stomatitis virus glycoprotein (G-protein) gene under control of the tryptophan operon regulatory region were constructed. A plasmid directing the synthesis of a G-protein-like protein (containing the NH2-terminal segment of seven amino acids encoded by the trpE gene fused to the complete G-protein sequence lacking only its NH2-terminal methionine) could be transformed into trpR+ (repressed) but not into trpR- (derepressed) cells. This result suggested initially that derepressed synthesis of the G-protein-like protein encoded by this plasmid was lethal in Escherichia coli. Deletion of the sequence encoding the large hydrophobic segment near the COOH terminus of G-protein did not overcome this lethality. Lethality of derepressed synthesis was overcome by deletion of the G-protein gene region encoding 10 amino acids in the hydrophobic NH2-terminal domain (signal peptide). Tryptic peptide mapping demonstrated that the G-protein-like protein and some truncated proteins encoded by the plasmid contained G-protein protein sequences. Antisera to vesicular stomatitis virus precipitated the G-protein-like protein, showing that it shares antigenic determinants with the authentic G-protein protein.
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PMID:Conditional expression of the vesicular stomatitis virus glycoprotein gene in Escherichia coli. 627 81

The glycosylation of the G-protein was analyzed in vesicular stomatitis virus-infected baby hamster kidney cells incubated in the absence of glucose. The results indicate that the G-protein in glucose-starved cells is initially glycosylated from a lipid donor with a glucosylated oligosaccharide which is resistant to endo-beta-N-acetylglucosaminidase H and partially susceptible to alpha-mannosidase. With longer times, the protein-bound carbohydrate chain becomes much more sensitive to alpha-mannosidase while remaining endo-beta-N-acetylglucosaminidase H-resistant. Purified virions from glucose-starved baby hamster kidney cells, labeled with [35S]methionine and isolated on a sucrose gradient, contain altered forms of the G-protein, whereas the other viral proteins remain unchanged. These altered forms could also be radiolabeled with [3H]mannose, and upon analysis of labeled glycopeptides by chromatography on concanavalin A-Sepharose and Bio-Gel P-6, it was apparent that modification of the oligosaccharide portion of the G-protein occurs in baby hamster kidney cells, leading to aberrant mature carbohydrate chains.
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PMID:Altered G-protein glycosylation in vesicular stomatitis virus-infected glucose-deprived baby hamster kidney cells. 628 41

Infection of mouse L-cell spinner cultures by vesicular stomatitis virus (VSV) effected the selective translation of viral mRNA by 4h after viral adsorption. Cell-free systems prepared from mock- and VSV-infected cells reflected this phenomenon; protein synthesis was reduced in the virus-infected cell lysate by approximately 75% compared with the mock-infected (control) lysate. This effect appeared to be specific to protein synthesis initiation since (i) methionine incorporation into protein from an exogenous preparation of initiator methionyl-tRNA gave completely analogous results and (ii) the addition of a ribosomal salt wash (containing protein synthesis initiation factors) stimulated protein synthesis by the infected cell lysate but had no effect on protein synthesis by the control. Micrococcal nuclease-treated (initiation-dependent) VSV-infected cell lysates were not able to translate L-cell mRNA unless they were supplemented with a ribosomal salt wash; a salt wash from ribosomes from uninfected cells effected a quicker recovery than a salt wash from ribosomes from infected cells. When salt wash preparations from ribosomes from uninfected and infected cells were tested for initiation factor 2 (eIF-2)-dependent ternary complex capacity with added GTP and initiator methionyl-tRNA, we found that the two preparations contained equivalent levels of eIF-2. However, initiation complex formation by the factor from virus-infected cells proceeded at a reduced initial rate compared with the control. When the lysates were supplemented with a partially purified eIF-2 preparation, recovery of activity by the infected cell lysate was observed. Mechanisms by which downward regulation of eIF-2 activity might direct the selective translation of viral mRNA in VSV-infected cells are proposed.
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PMID:Regulation of protein synthesis in vesicular stomatitis virus-infected mouse L-929 cells by decreased protein synthesis initiation factor 2 activity. 628 70

The binding of vesicular stomatitis virus (VSV) to Vero monkey cells was studied by using virus metabolically labeled with [35S]methionine. Under conditions where viral uptake did not occur (4 degrees C), apparent binding equilibrium was achieved within 12 h at a level representing 12% of the input virus. Two distinct forms of virus-cell interaction were found. At low concentrations of VSV, corresponding to multiplicities used for tissue culture studies, saturable binding was the major form of interaction. Saturation was complete at approximately 4,000 VSV virions per cell. At higher virus concentrations, nonsaturable binding prevailed. Trypsin treatment of Vero cells did not decrease the binding of VSV to the saturable binding sites. Internalization of VSV at 37 degrees C also displayed a saturable component which was directly comparable to that observed for binding. VSV binding to high-affinity, saturable sites on the plasma membrane may represent a receptor-mediated route of viral uptake.
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PMID:Saturable binding sites for vesicular stomatitis virus on the surface of Vero cells. 629 66

Some isolates of the temperature sensitive mutant tsD1 of complementation group D of vesicular stomatitis virus of New Jersey serotype have a nucleocapsid (N) protein which shows an increased electrophoretic mobility on sodium dodecyl sulfate--polyacrylamide gel electrophoresis (SDS-PAGE) when compared with wild type. Utilizing techniques involving specific chemical cleavage at tryptophan or methionine residues, as well as enzymatic cleavage with carboxypeptidases A and B, we have determined that residues near the carboxyterminus are responsible for the electrophoretic difference of the mutant protein. We have further shown that there are no differences in the tryptic peptides of the mutant compared with the wild type or a non-ts revertant in this region of the protein. We have identified a tryptic peptide located outside the relevant carboxyterminal region which is distinct in mutant and revertant. We conclude that the mutation producing the aberrant electrophoretic mobility of N protein of the tsD1 mutant is a missense point mutation located at least 40 amino acid residues from the carboxyterminus and which interacts with a more proximal carboxyregion so as to influence electrophoretic mobility on SDS-PAGE.
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PMID:Characterization of the electrophoretic mobility mutation in the N protein of the tsD1 mutant of vesicular stomatitis virus New Jersey serotype. 629 85

Recently we described a saturable, high-affinity binding site for vesicular stomatitis virus (VSV) on the surface of Vero cells that appears to mediate viral infectivity. To isolate this binding site, we have extracted Vero cells with the detergent, octyl-beta-D-glucopyranoside. The dialyzed detergent extract specifically inhibits the saturable, high-affinity binding of 35S-methionine-labeled VSV to Vero cells. The inhibitory activity is resistant to protease, neuraminidase and heating to 100 degrees C. It is soluble in chloroform-methanol and inactivated by phospholipase C, suggesting that it is a phospholipid. Of various purified lipids tested, only phosphatidylserine was capable of totally inhibiting the high-affinity binding of VSV. The half-maximal inhibitory concentration for phosphatidylserine was 1 microM. Phosphatidylserine also inhibited VSV plaque formation by 80%-90%; Herpes simplex virus plaque formation was unaffected. Centrifugation and electron microscopy studies have shown that phosphatidylserine-containing liposomes bind to VSV. The finding that phosphatidylserine directly binds to VSV and inhibits VSV attachment and infectivity suggests that plasma membrane phosphatidylserine could function as a binding site or portion of a binding site for VSV.
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PMID:Inhibition of VSV binding and infectivity by phosphatidylserine: is phosphatidylserine a VSV-binding site? 629 4

Lysates of L cells infected for 4 h with vesicular stomatitis virus were inhibited in their in vitro translational activity to about the same extent as protein synthesis was inhibited in vivo in infected L cells. Inhibition of translation occurred at the level of the ribosome as determined by reciprocal cross-reconstitution studies with polyribosomes and postribosomal supernatant fractions isolated from virus-infected and mock-infected cells. Inhibition of protein synthesis in reconstituted lysates of virus-infected cells was found to be at the level of initiation of translation as evidenced by reduction in incorporation into acid-precipitable proteins of formylatable [35S]methionine. Ribosomes from virus-infected and mock-infected cells were exposed to 0.5 M KCl and fractionated by centrifugation into salt-washed polyribosomes and supernatant fractions containing ribosome-associated proteins; reciprocal reconstitution of translational activity by a mixing of salt-washed polyribosomes and ribosome-associated proteins revealed that the defect in initiation of translation was in the ribosome-associated proteins released by salt wash from the infected-cell ribosomes. Differential ammonium sulfate precipitation of the supernatant ribosome-associated proteins from virus-infected and mock-infected cells indicated by reciprocal reconstitution studies that the defective ribosomal initiation factor(s) was (were) present primarily in the 0-40% ammonium sulfate fraction that is considered to contain primarily eIF-3 and eIF-4B. These results are similar to those found in earlier studies of defective initiation factors responsible for impaired protein synthesis in cells infected with plus-strand viruses quite different from the rhabdovirus studied in these experiments.
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PMID:Inhibition of translation in lysates of mouse L cells infected with vesicular stomatitis virus: presence of a defective ribosome-associated factor. 630 87


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