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)

Brefeldin A (BFA) is a macrolide antibiotic that has multiple targets in vesicular transport and blocks membrane traffic between the cis- and trans-Golgi compartments, leading to the disruption of the trans-Golgi apparatus (for a review see Pelham, 1991, Cell 67, 449-451). Consequently, BFA interferes with the maturation of viral glycoproteins and suppresses the formation of infectious viruses that contain a lipid envelope. We report that this antibiotic strongly inhibits poliovirus replication even though this virus lacks a lipid envelope and does not encode any glycoproteins. Addition of BFA from the beginning of poliovirus infection blocks the synthesis of late proteins but has no effect on p220 cleavage, indicating that the input viral RNA is translated to produce active 2Apro. The presence of BFA at later times has no effect on poliovirus protein synthesis, indicating that this step is not a direct target for the antibiotic. Indeed, the target of BFA is viral RNA synthesis, because addition of the antibiotic at any time after poliovirus infection drastically reduces the incorporation of labeled uridine into poliovirus RNA. Both plus- and minus-stranded RNA syntheses are diminished when BFA is present from the beginning of infection, but plus-stranded RNA synthesis is more affected when the inhibitor is added at later times. The replication of poliovirus RNA takes place in close association with membrane vesicles that fill the cytoplasm of the infected cells. Little is known about the origin and function of these vesicles that form part of the viral replication complexes. Our findings suggest that the replication of poliovirus genomes may require the maturation of membranous vesicles from a vesicular compartment that is affected by BFA. The effects of BFA on late protein synthesis by other animal viruses varies according to the virus species examined. Among picornaviruses, rhinoviruses are sensitive to the antibiotic, whereas encephalomyocarditis virus is resistant. A negative-stranded RNA virus such as vesicular stomatitis is blocked by BFA, whereas vaccinia virus, a cytoplasmic DNA virus, is resistant.
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PMID:Involvement of membrane traffic in the replication of poliovirus genomes: effects of brefeldin A. 132 15

In mouse L cells infected with vesicular stomatitis virus (VSV), the synthesis of 45 S rRNA and its conversion to 28 S and 18 S rRNA are inhibited during the course of infection. Evidence is presented that the lack of accumulation of stable rRNA species results not only from the decreased transcription and processing of 45 S rRNA, but also from an increased breakdown of pre-rRNA or stable rRNA during processing. In cells prelabeled with [3H]uridine and then infected, the 28 S and 18 S rRNA species remain unaffected. Studies using uv-irradiated VSV indicate that the viral function involved in rRNA synthesis inhibition is slightly more sensitive to uv irradiation than the function involved in processing inhibition. These results suggest that the VSV functions involved in 45 S rRNA synthesis and processing inhibition may be related, or overlapping, but not identical. In cells infected by VSV mutant T1026R1, total RNA synthesis is inhibited, but the distribution of precursor and stable rRNA species remains nearly normal for up to 5 hr after infection. The function of the mutant virus involved in the inhibition of rRNA processing appears to be defective. In mengovirus-infected L cells, 45 S rRNA synthesis, but not processing, is severely inhibited soon after infection, indicating that a decrease in rRNA transcription is not necessarily accompanied by a decrease in processing.
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PMID:The inhibition of mouse L-cell 45 S ribosomal RNA processing is a highly uv-resistant property of vesicular stomatitis virus. 216 17

Treatment of human amniotic cells (UAC) with Cytodex 1 (DEAE-dextran) results in the development of an antiviral state of the cells, as proven by studying (i) the cytopathic effect and (ii) [3H]uridine incorporation into the RNA of vesicular stomatitis virus (VSV) after VSV infection. The same treatment transiently triggers the breakdown of inositol phospholipids and activates the translocation of protein kinase C (PKC). On the basis of these data it can be suggested that cross-linking of cell surface receptors by a solid carrier bearing covalently bound positive charges may result in IFN-like effects.
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PMID:Interferon (IFN)-like antiviral effect is induced by unspecific cross-linking of cell surface receptors. 246 84

Acute infection of cloned BHK21 cells with rabies virus (CVS strain) resulted in a reduction in the amount of cellular RNA, not so rapid and pronounced as with another rhabdovirus, vesicular stomatitis virus (VSV). This decrease in the amount of cellular RNA was shown to be caused by a differential membrane permeability of infected and uninfected BHK21 cells to [3H]-uridine and by a real inhibition of cellular RNA synthesis.
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PMID:[Effects of rabies infection on the metabolism of the host-cell: does inhibition of cellular RNA synthesis take place?]. 258 78

Polyinosinic-polycytidylic acid, a potent inducer of inducer of interferon (IFN) production and activator of some IFN-induced enzymes, inhibits [3H]uridine incorporation into the RNA of vesicular stomatitis virus even in the absence of IFN synthesis, transiently triggers the breakdown of inositol phospholipids and activates the translocation of protein kinase C. Since IFNs also have similar activities these results suggest that IFN induction and IFN function are realised through common biochemical pathways.
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PMID:Inositol phospholipid turnover and protein kinase C translocation are stimulated by poly(I).poly(C) in human amnion cells (UAC). 282 50

A mutant (MO-5) resistant to monensin (an ionophoric antibiotic) derived from the mouse Balb/3T3 cell line, was a poor host for vesicular stomatitis virus (VSV) or semliki forest virus (SFV) multiplication. The yield of VSV particles in MO-5 is one 100-fold reduced as is VSV-dependent RNA synthesis. In contrast to a pH-remedial mutant, the abortive production of infectious VSV particles in MO-5 cells was not restored by low pH treatment. The pH values in the endosome and the lysosome of MO-5 cells were 5.2 and 5.4, respectively, values that were comparable to the pH value in Balb/3T3 cells. Assays with [3H]uridine-labeled VSV indicated similar binding of VSV in MO-5: percoll gradient centrifugation analysis of [35S]methionine-labeled VSV-infected Balb/3T3 showed accumulation of VSV in the lysosome fraction 20 min after VSV infection, whereas VSV can be found mainly in endosome/Golgi fraction of MO-5 cells after 40 to 60 min on the percoll gradients. Degradation of [35S]methionine-labeled VSV was observed at a significant rate in Balb/3T3 cells, but not in MO-5 cells. The monensin-resistant somatic cell may thus provide a genetic route to study the mechanism of endocytosis or transport of enveloped viruses.
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PMID:Monensin-resistant mouse Balb/3T3 cell mutant with aberrant penetration of vesicular stomatitis virus. 286 Dec 7

The association of poliovirus metabolism with the cytoskeleton was investigated. Infected cells were extracted by using the nonionic detergent Triton X-100 in the physiological cytoskeleton buffer. The skeletal framework obtained was examined by transmission electron microscopy of resinless sections. The fibers of the framework were grossly distorted in infected cells. No virions or procapsids were seen but many virus-specific spheroidal bodies were associated with the framework. They had a diameter of 40 to 70 nm, were characterized by a dense core and a translucent periphery, and occurred in strings, often near the remnants of flattened vesicles. These spheres may correspond to virus-synthesizing bodies. The metabolism of poliovirus RNA was shown to be associated with the skeletal framework by pulse-labeling cells with [3H]uridine and measuring the RNA retained on the framework. 20S double-stranded RNA, a form of poliovirus RNA found only in the replication complex, was attached to the skeleton throughout a 60-min pulse-label. 35S single-stranded viral RNA, a form found in virions, in polyribosomes, and in the replication complex, appeared first on the framework but after a few minutes was also found in the soluble cytoplasmic phase, encapsidated in virions. In contrast to viral RNA, viral proteins exhibited a varied association with the skeletal framework. Viral proteins were pulse-labeled with [35S]methionine and chased with unlabeled methionine. Although all of the virus-specific proteins were found, to some extent, in the skeletal fraction, the derivatives of P2 (P2-X and P2-5) and a derivative of P3 (P3-2) showed a preferential association with the skeletal framework. Virions and procapsids, on the other hand, were not associated with the cytoskeleton; both they and their component proteins (P1-VP0, P1-VP1, P1-VP2, and P1-VP3) were found dominantly in the soluble cytoplasmic phase. The pathway of poliovirus assembly can be inferred from the above data. It is different from that found previously for the enveloped vesicular stomatitis virus and may be representative of encapsidated cytoplasmic virus assembly.
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PMID:Poliovirus metabolism and the cytoskeletal framework: detergent extraction and resinless section electron microscopy. 299 75

A novel nucleoside analog, 4(5H)-oxo-1-beta-D- ribofuranosylpyrazolo[3,4-d]pyrimidine-3-thiocarboxamide (N10169), was evaluated in cell culture and in animals for antiviral activity against DNA and RNA viruses. The compound was highly active against strains of adeno-, vaccinia, influenza B, paramyxo-, picorna-, and reoviruses, with 50% inhibition of virus-induced cytopathology at 1 to 10 microM. Lesser or no antiviral effects were observed against herpes simplex, cytomegalo-, corona-, influenza A, vesicular stomatitis, and visna viruses. Drug potency against certain viruses was highly cell line dependent (N10169 was highly active in HeLa cells but was much less potent in Vero cells). This was correlated, in part, to differences in levels of adenosine kinase activity in these cell lines, since adenosine kinase appears to phosphorylate N10169 to its active form. N10169 was inhibitory to proliferating cells at antiviral concentrations, whereas stationary-phase monolayers tolerated higher concentrations (less than or equal to 100 microM). Exogenous uridine was able to reverse the virus-inhibitory effects of the compound, leading to the discovery that N10169 5'-monophosphate is a potent inhibitor of cellular orotidylate decarboxylase. N10169 was evaluated in mice that were infected intraperitoneally with banzi virus or inoculated intranasally with influenza B virus, and in hamsters that were infected intranasally with vaccinia virus. In each model, intraperitoneal injection of N10169 (100 to 300 mg/kg per day for 7 days) twice daily was ineffective, whereas intraperitoneal injection of ribavirin showed some benefit in the influenza B and banzi virus infection models.
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PMID:Novel pyrazolo[3,4-d]pyrimidine nucleoside analog with broad-spectrum antiviral activity. 343 2

Accumulation of the nucleoprotein of vesicular stomatitis virus (VSV) in the cytoplasm of BHK-21 cells and in two of four human cell lines was demonstrated. Appearance and progression of the nucleoprotein inclusions paralleled development of virus-specific immunofluorescence and production of virus progeny. The inclusions appeared early as discrete foci of filamentous material which eventually increased in size to form large masses which replaced normal cytoplasmic constituents. The filamentous strands were found in close proximity to budding virions. The inclusion material was extracted from infected cells and purified in cesium chloride gradients. The isolated filaments resembled the ribonucleoprotein isolated from purified virions. They incorporated (3)H-uridine, exhibited virus-specific complement-fixing activity, had a buoyant density of 1.32 g/cm(3), and appeared as single wavy strands the width of which varied from 2.5 to 8.5 nm, depending on the angle of viewing.
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PMID:Morphogenesis of the nucleoprotein of vesicular stomatitis virus. 410 May 28

Digitonin, a sterol glycoside which complexes with cholesterol, stripped off the envelope of vesicular stomatitis (VS) virions and liberated two viral structural proteins, 83% of P6 and 53% of P4. Deoxycholate also disrupted VS virions but released nucleocapsid cores which could be identified by higher buoyant density, ratio of incorporated (3)H-uridine to (14)C-protein, and electron microscopy. The major nucleocapsid protein was P5 but varying amounts of the minor protein aggregate P2 were present, depending on the concentration of urea used for extraction. P2 appeared to be a polymer of P5. Two other minor structural proteins, P1 and P3, could not be located in the virion. From these data, we conclude that the three microscopically identifiable structures of VS virions are each composed primarily of a single major protein, as follows: P6 = envelope protein, P4 = protein of underlying "shell," and P5 = nucleocapsid protein.
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PMID:Protein composition of the structural components of vesicular stomatitis virus. 430 4

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