Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

Cultured fibroblasts were infected with vesicular stomatitis virus (VSV) and the pathway of exocytosis of G protein, the transmembrane glycoprotein of VSV, was followed by immunofluorescence and electron microscopy. G protein was detected within the endoplasmic reticulum, within smooth vesicles and stacks in the Golgi region and on the cell surface. No G protein was detected in the coated regions of the Golgi. Our data are consistent with the hypothesis that coated regions of the Golgi are involved in transfer of lysosomal enzymes and other substances to lysosomes and not in exocytosis.
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PMID:The morphologic pathway of exocytosis of the vesicular stomatitis virus G protein in cultured fibroblasts. 628 76

The intracellular migration of G protein in vesicular stomatitis virus-infected cells was visualized by light and electron microscope radioautography after a 2-min pulse with [3H]mannose followed by nonradioactive chase for various intervals. The radioactivity initially (at 5-10 min) appeared predominantly in the endoplasmic reticulum, and the [3H]mannose-labeled G protein produced was sensitive to endoglycosidase H. Silver grains were subsequently (at 30-40 min) observed over the Golgi apparatus, and the [3H]mannose-labeled G protein became resistant to endoglycosidase H digestion. Our data directly demonstrate the intracellular transport of a plasmalemma-destined transmembrane glycoprotein through the Golgi apparatus.
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PMID:Intracellular transport of the transmembrane glycoprotein G of vesicular stomatitis virus through the Golgi apparatus as visualized by electron microscope radioautography. 628 38

Human hepatoma cells, infected by vesicular stomatitis virus, offer a good system to study simultaneously the intracellular localization of a well defined transmembrane glycoprotein (VSV-G), a secretory glycoprotein (transferrin), and a nonglycosylated secretory protein (albumin). We used monospecific antibodies in combination with 5- and 8-nm colloidal gold particles complexed with protein A to immunolabel these proteins simultaneously in thin frozen sections of hepatoma cells. VSV-G, transferrin, and albumin are present in the same rough endoplasmic reticulum cisternae, the same Golgi compartments, and the same secretory vesicles. In the presence of the ionophore monensin intracellular transport is blocked at the trans cisternae of the Golgi complex, and VSV-G, transferrin, and albumin accumulate in dilated cisternae, which are apparently derived from the trans-Golgi elements. Glycoproteins, synthesized and secreted in the presence of monensin, are less acidic than those in control cultures. This is probably caused by a less efficient contact between the soluble secretory proteins and the membrane-bound glycosyltransferases that are present in the most monensin-affected (trans) Golgi cisternae.
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PMID:Vesicular stomatitis virus glycoprotein, albumin, and transferrin are transported to the cell surface via the same Golgi vesicles. 631 44

The infection of baby hamster kidney (BHK21) cells by the Indiana strain of vesicular stomatitis virus (VSV) causes a rapid loss of the ability of the cells to be superinfected by VSV virions or defective-interfering particles. This exclusion phenomenon is at the level of virus penetration and requires viral gene expression and a functional VSV transmembrane glycoprotein G. Infection with the New Jersey serotype of VSV also inhibits the uptake of the Indiana serotype. However, infection of BHK21 cells with either encephalomyocarditis, Newcastle disease, or influenza A viruses does not inhibit superinfection by VSV.
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PMID:Superinfection exclusion by vesicular stomatitis virus. 631 47

The transmembrane glycoprotein (G protein) of vesicular stomatitis virus (VSV) is known to contain 1-2 mol of covalently linked fatty acid (palmitate) per mol of protein. G protein is oriented in cellular membranes such that the carboxyl-terminal 29 amino acids protrude into the cytoplasm. We have obtained expression in eukaryotic cells of mutagenized cDNA clones that encode VSV G proteins lacking portions of this cytoplasmic domain. Labeling of these truncated proteins with [3H]palmitate indicated that the palmitate might be linked to an amino acid residue within the first 14 residues on the carboxyl-terminal side of the transmembrane domain. Using oligonucleotide directed mutagenesis, we changed the single codon specifying cysteine in this domain to a codon specifying serine. Expression of this mutant gene results in synthesis of a G protein lacking palmitate. We suggest that linkage of palmitate to G protein is through the cysteine in the cytoplasmic domain and that such a linkage may occur in many viral and cellular glycoproteins. The G protein lacking palmitate is glycosylated and is transported normally to the cell surface.
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PMID:The presence of cysteine in the cytoplasmic domain of the vesicular stomatitis virus glycoprotein is required for palmitate addition. 632 2

A cDNA copy of the mRNA of the glycoprotein G of Cocal virus, a rhabdovirus, has been cloned, sequenced and expressed in mammalian cells. The deduced amino acid sequence shows a typical transmembrane glycoprotein, 512 amino acids in length, containing two potential N-linked glycosylation sites. The amino acid sequence showed a high degree of identity with that of the prototype vesicular stomatitis virus serotype Indiana [VSV (IND)] G protein. In addition, phylogenetic analysis of amino acid sequence differences among the G proteins of vesiculoviruses indicated that Cocal virus represents a distinct lineage within the VSV (IND) serotype. Expression of the cloned Cocal G gene in mammalian cells produced a glycoprotein of mol.wt 71000 which was not palmitylated but induced cell fusion at acid pH.
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PMID:Structure, expression and phylogenetic analysis of the glycoprotein gene of Cocal virus. 969 27

We describe a replication-competent, recombinant vesicular stomatitis virus (VSV) in which the gene encoding the single transmembrane glycoprotein (G) was deleted and replaced by an env-G hybrid gene encoding the extracellular and transmembrane domains of a human immunodeficiency virus type 1 (HIV-1) envelope protein fused to the cytoplasmic domain of VSV G. An additional gene encoding a green fluorescent protein was added to permit rapid detection of infection. This novel surrogate virus infected and propagated on cells expressing the HIV receptor CD4 and coreceptor CXCR4. Infection was blocked by SDF-1, the ligand for CXCR4, by antibody to CD4 and by HIV-neutralizing antibody. This virus, unlike VSV, entered cells by a pH-independent pathway and thus supports a pH-independent pathway of HIV entry. Additional recombinants carrying hybrid env-G genes derived from R5 or X4R5 HIV strains also showed the coreceptor specificities of the HIV strains from which they were derived. These surrogate viruses provide a simple and rapid assay for HIV-neutralizing antibodies as well as a rapid screen for molecules that would interfere with any stage of HIV binding or entry. The viruses might also be useful as HIV vaccines. Our results suggest wide applications of other surrogate viruses based on VSV.
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PMID:Replication-competent rhabdoviruses with human immunodeficiency virus type 1 coats and green fluorescent protein: entry by a pH-independent pathway. 1040 Jul 92

We reported previously that the rabies virions contained a 21-kDa cellular transmembrane protein (referred to as VAP21) as a minor component (Sagara, J. et al, Microbiol. Immunol. 41(12): 947-955, 1997). In this study, we further examined the possible interactions of VAP21 with other enveloped viruses, including the vesicular stomatitis virus (VSV; negative-stranded RNA virus), Sindbis virus (positive-stranded RNA virus) and herpes simplex virus type 1 (HSV-1; double-stranded DNA virus). An immunoblot analysis demonstrated that all of these enveloped viruses contained VAP21 in the virion as a minor component. Immunoprecipitation studies suggested that VAP21 was associated with certain viral proteins in the cell, such as the matrix (M) protein of VSV, a capsid protein of Sindbis virus, and at least a capsid protein (VP5) of HSV-1. The association was disrupted by treatment with 0.5% sodium dodecyl sulfate, but resistant to the treatment with 1% NP-40 plus 1% deoxycholate. These results suggest that: 1) VAP21 is not primarily associated with the viral transmembrane glycoprotein but rather with the internal viral protein, and, 2) this association would cause the efficient incorporation of VAP21 into the virion.
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PMID:Association of a cellular 21-kDa transmembrane protein (VAP21) with enveloped viruses. 1044 51

The vesicular stomatitis virus (VSV) G protein is a model transmembrane glycoprotein that has been extensively used to study the exocytotic pathway. A signal in the cytoplasmic tail of VSV G (DxE or Asp-x-Glu, where x is any amino acid) was recently proposed to mediate efficient export of the protein from the endoplasmic reticulum (ER). In this study, we show that the DxE motif only partially accounts for efficient ER exit of VSV G. We have identified a six-amino-acid signal, which includes the previously identified Asp and Glu residues, that is required for efficient exit of VSV G from the ER. This six-residue signal also includes the targeting sequence YxxO (where x is any amino acid and O is a bulky, hydrophobic residue) implicated in several different sorting pathways. The only defect in VSV G proteins with mutations in the six-residue signal is slow exit from the ER; folding and oligomerization in the ER are normal, and the mutants eventually reach the plasma membrane. Addition of this six-residue motif to an inefficiently transported reporter protein is sufficient to confer an enhanced ER export rate. The signal we have identified is highly conserved among divergent VSV G proteins, and we suggest this reflects the importance of this motif in the evolution of VSV G as a proficient exocytic protein.
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PMID:Efficient export of the vesicular stomatitis virus G protein from the endoplasmic reticulum requires a signal in the cytoplasmic tail that includes both tyrosine-based and di-acidic motifs. 1063 87

The vesicular stomatitis virus glycoprotein (VSV G) is a model transmembrane glycoprotein that has been extensively used to study the exocytotic pathway. The cytoplasmic domain of VSV G contains information for several intracellular sorting steps including efficient export from the ER, basolateral delivery, and endocytosis. In order to identify proteins that potentially interact with the polypeptide sorting motifs in the VSV G tail, the carboxy-terminal 27 amino acids of VSV G were used as bait in a yeast two-hybrid system. The protein identified most frequently in the screen is a novel protein of 38 kDa, p38. In the present work, the initial molecular and biochemical characterization of p38 is described. Preliminary evidence suggests that p38 may interact transiently with endoplasmic reticulum (ER) membranes, and thus may affect VSV G and other cargo movement at the step of ER to Golgi traffic.
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PMID:p38: A novel protein that associates with the vesicular stomatitis virus glycoprotein. 1155 68


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