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)

Infection of the lymphoblastoid CEM cell line with herpes simplex virus (HSV) type 1 results in a persistent infection with production of infectious virus. Evidence suggests that the persistent infection was not maintained by interferon or non-interferon-soluble antiviral inhibitors. Treatment of persistently infected cells with anti-HSV serum (termed CEMACR cells) or elevated temperature (39 degrees C) for 14 days (termed CEMTCR cells) resulted in loss of evidence of virus. HSV DNA was not detected in CEMACR or CEMTCR cells by Southern blot or in situ hybridization. The CEMACR or CEMTCR cells, however, were resistant to reinfection with homologous, parental virus (HSV0), but were susceptible to heterologous virus (vesicular stomatitis virus). Resistance to reinfection with HSV was not absolute; CEMACR or CEMTCR cells were less permissive to virus isolated from persistently infected cultures at times early in the course of infection, but were more permissive for HSV isolated at later times. Virus isolated later during persistent infection also displayed progressively increased virulence for the parental CEM cells. These results suggest that persistent infection of a human T lymphoblastoid cell line, CEM, with HSV-1 is maintained by a genetically determined cell-virus equilibrium, in which the resistance of cells and virulence of virus increase during persistence.
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PMID:Coevolution of virulent virus and resistant cells as a mechanism of persistence of herpes simplex virus type 1 in a human T lymphoblastoid cell line. 254 40

We have analysed the expression of vesicular stomatitis virus (VSV) proteins in virus-infected freshly explanted mouse peritoneal macrophages (resistant to virus replication), macrophages aged in vitro (permissive for virus replication) and freshly explanted macrophages from mice treated with antibody to interferon (IFN) alpha/beta (permissive for VSV replication). Our data showed that some VSV proteins (i.e. N/NS and G) were synthesized in virus-infected (1 p.f.u/cell) freshly harvested macrophages at early times after infection (3 to 6 h); the expression of such viral proteins was subsequently inhibited at 18 h post-infection. In contrast, a progressive increase in the expression of VSV proteins was observed in the macrophages aged in vitro and infected with VSV at 1 p.f.u./cell. Infection with a higher m.o.i. (16 p.f.u./cell) resulted in similar viral protein electrophoresis patterns for both aged macrophages and freshly explanted macrophages. Even at low m.o.i. a marked and progressive expression of all VSV proteins was observed in freshly harvested macrophages from mice treated with antibody to mouse IFN-alpha/beta. Higher levels of oligo-2',5'-adenylate synthetase (2-5AS) were found in freshly harvested macrophages than in either aged macrophages or those from mice treated with antibody to IFN. No dsRNA-dependent 67K protein kinase was detected in freshly harvested macrophages or peritoneal cells from untreated mice or mice treated with poly(rI).poly(rC) or Newcastle disease virus. The following conclusions can be drawn from these results. Low levels of spontaneous IFN-alpha/beta are responsible for the time-dependent inhibition of VSV protein synthesis in virus-infected freshly harvested macrophages; high levels of 2-5AS (in the absence of detectable levels of 67K protein kinase) appear to correlate with the progressive inhibition of VSV proteins; this natural antiviral state is highly effective only at low m.o.i.
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PMID:Studies on the mechanism of the interferon-mediated antiviral state to vesicular stomatitis virus in resting mouse peritoneal macrophages. 254 69

To determine the pattern of alternative splicing at the 5' end of class I genes, the 3' splice sites bordering exon 2 of the H-2Dd and H-2Kd genes were mutated from AG to GG (H-2Dd) or CG (H-2Kd). The mutant genes were transfected into L cells, and RNA from clones expressing these Ag was used for analysis by RNase and S1 nuclease mapping techniques. The first intervening sequence of both class I genes contains several potential 3' splice acceptor sites. However, a clear preference for only one site was detected in each of the H-2Dd and H-2Kd mRNA. Examination of the endogenous H-Dd and H-2Kd class I transcripts in normal murine tissues and in tumors demonstrated that the alternatively spliced mRNAs were produced, but at a low frequency. Infection of transfected L cells or tumor lines with vesicular stomatitis virus altered the level of differentially spliced message in these cells.
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PMID:Mutation of 3' splice sites in two different class I genes results in different usage of cryptic splice sites. 254 75

Purified vesicular stomatitis virus grown in the human cervical carcinoma HeLa cell line, VSV(HeLa), contains a 75 kDa tumor-specific antigen, detectable by immunoblotting of electrophoretically separated proteins with rabbit antiserum made against whole HeLa cells. Nearly identical results were obtained with VSV grown in the tumorigenic human hybrid ESH-5L cells, but not with the matched non-tumorigenic ESH-5E cells. Growth of VSV in 4 other independently isolated human cervical carcinoma cell lines led to the concentration of the same 75 kDa tumor-specific antigen by VSV. Infection of 2 other human cervical carcinoma cell lines did not lead to the detection of this antigen. The expression of the tumor-specific antigen correlated directly with the amount of RNA expression from human papillomavirus integrated in the DNA of these cells, irrespective of whether the papillomavirus was type 16 or 18.
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PMID:Human cervical carcinoma cell lines contain an antigen identical to the tumor-specific 75 kDa antigen of HeLa cells: detection by viral acquisition. 254 12

Infection with vesicular stomatitis virus (VSV) results in the rapid inhibition of cellular macromolecular synthesis, including transcription, translation, and maturation of the U1 and U2 snRNPs. Unlike infection with VSV, influenza virus infection did not result in the inhibition of either the processing of U1 and U2 snRNAs or the assembly of the RNPs. Although influenza virus relies on the cellular splicing apparatus to generate viral mRNAs, the maturation of snRNPs was inhibited during double infections with VSV. However, this inhibition of snRNP maturation had no effect on the splicing of a cellular pre mRNA in extracts prepared from VSV-infected HeLa cells. Thus, the effects of VSV on the processing and assembly of snRNPs appear to involve virus-specific functions and unique cellular targets. Coinfection with VSV and influenza virus resulted in the dramatic inhibition of influenza virus transcription; polyadenylated mRNAs corresponding to the influenza virus NP and NS1 proteins could not be detected by Northern blot analysis. However, reduced levels of the influenza virus replicative templates were still synthesized during double infection. Coinfection with VSV also resulted in the inhibition of influenza viral mRNA translation, even when superinfection with VSV was delayed until 3 or 6 hr after influenza virus infection. VSV required at least 2 hr to affect the inhibition of translation; this corresponded to the time after VSV infection when inhibition of cellular protein synthesis was evident. These results demonstrate that, in contrast to adenovirus, the VSV-mediated inhibition of cellular macromolecular synthesis may be effective against influenza virus.
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PMID:Inhibitory effects of vesicular stomatitis virus on cellular and influenza viral RNA metabolism and protein synthesis. 254 15

Infection of baby hamster kidney cells with vesicular stomatitis virus (VSV) results in the accumulation of immature U1 and U2 small nuclear ribonucleoproteins (snRNPs) that contain precursor U RNAs and at least some of the proteins specific for U1 and U2 snRNAs but lack the Sm complex of proteins that is common to these U snRNAs. The VSV function required for this effect is not known, but direct inhibition of cellular transcription did not alter the maturation of U1 and U2 snRNPs. On the other hand, viral transcription but not viral translation was required to inhibit U1 and U2 snRNP maturation. Temperature shift experiments with the mutant G114 showed that ongoing viral transcription was necessary, but that viral mRNA was not required for this inhibition. Furthermore, the VSV function involved in the inhibition of maturation of U1 and U2 snRNPs had a small UV target size of approximately 10 to 20 nucleotides. We demonstrate that temperature-sensitive mutants of VSV can be used as a tool to initiate the assembly of snRNPs in infected cells. These results are compatible with the suggestion that perturbation of snRNP metabolism by VSV precedes and is distinct from the effect of VSV on cellular RNA synthesis, although VSV leader RNA may be involved in both these functions.
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PMID:Viral transcription is necessary and sufficient for vesicular stomatitis virus to inhibit maturation of small nuclear ribonucleoproteins. 255 Jun 63

Infection of the oral mucous membrane is frequent in patients with removable prostheses, either totally of partially, and particularly when the prostheses is palatal. The principal etiological factor causing the infection is accepted to be "Candidas" aided by the presence of plaque bacteria (in patients with poor oral hygiene care), and a poor fit of the prostheses to the soft tissues. Treatment of the infection must proceed in the following order: a) use of effective medication against oral fungus such as Nystatin or Ketoconazole. b) Meticulous oral hygiene care in the mucous membrane as well as in the prostheses, but using the prostheses as little as possible during the treatment period. c) A total cure of the infection (denture stomatitis) before proceeding to the next phase of the treatment. d) Determination of the adjustment and occlusion of the prostheses in order to determine those areas of the prostheses which need to be refilled because of maladjustment of the prostheses to the soft tissues of the patient.
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PMID:[Stomatitis from dentures: etiopathological and therapeutic considerations]. 263 9

We report seven elderly patients with COPD who developed serious infectious complications during prolonged treatment with high doses of corticosteroids. Infections included invasive pulmonary aspergillosis, Herpes simplex stomatitis and esophagitis, cytomegalovirus pneumonia, bacterial sepsis, fungemia and meningitis due to Cryptococcus neoformans. Each of the three patients who developed invasive aspergillus pneumonia died. The efficacy of prolonged therapy with high doses of corticosteroids in patients with COPD is not proven. These cases illustrate the potential for serious infections in patients with COPD treated with corticosteroids.
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PMID:Serious infectious complications of corticosteroid therapy for COPD. 272 Dec 49

Infection of the retina with herpes simplex virus type 1 (HSV-1) causes devastating lesions usually leading to blindness. However, the interactions between individual retinal cell types and this virus have not been well characterized, probably because of limitations posed by the complexity of the intact retina. We have now approached this problem through the use of separate, purified populations of isolated chick embryo retinal neurons and photoreceptor cells, of glial cells, and of pigmented epithelial cells. This manuscript deals with the initial part of these studies, aimed at determining the susceptibility of different retinal types to HSV-1 infection. The different cultures were exposed to HSV-1 for 3-48 hr, and cell infection was evaluated by immunocytochemical detection of viral antigens or by autoradiographic study of viral DNA replication. Practically 100% of the retinal glial cells and pigmented epithelial cells appeared susceptible to HSV-1 infection. On the other hand, as many as 70% of the neurons present in glia-free, pigment epithelium-free cultures, also appeared infected after a 24-hr exposure to the virus. Neuronal susceptibility to HSV-1 was already present in early (2-day) cultures, was time- and concentration-dependent, and led to neuronal degeneration after 24-48 hr. Neuronal infection was also corroborated by the detection of viral particles by transmission electron microscopy. Photoreceptor cells were consistently and selectively resistant to HSV-1 infection at all the concentrations and time points investigated. Both immunocytochemical and autoradiographic studies showed similar results. Photoreceptor resistance to HSV-1 appears to be selective, since they could be readily infected with RNA viruses such as vesicular stomatitis virus and influenza virus. These cell culture preparations offer an attractive system for the investigation of cellular mechanisms involved in the differential susceptibility of retinal cells to viral infection. Moreover, they could also help in the screening of treatments potentially capable of preventing and (or) curing HSV-induced retinal infection.
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PMID:Differential sensitivity of cultured retinal neurons and photoreceptors to herpes simplex infection. 282 Jul 71

Infection of L929 murine cells with vesicular stomatitis virus (VSV) results in inhibition of host protein synthesis and appearance of membrane alterations at a time when cells are still actively engaged in viral protein synthesis. VSV temperature-sensitive (ts) mutants have been used to explore the role(s) played by the virus-coded proteins in the genesis of these effects. Cells were infected with each of five ts mutants representing the known complementation groups of VSV Indiana serotype, and incubated at permissive (32 degrees C) and non-permissive temperatures (39 degrees C). Protein synthesis in the presence and absence of Hygromycin B (Hyg. B) was analyzed during virus infection via incorporation of 35S-methionine in acid-precipitable material and SDS-polyacrylamide gel electrophoresis. Data indicate that mutants belonging to groups I (L protein), II (NS protein) and IV (N protein) do not inhibit host protein synthesis and do not induce any membrane changes when grown at the non-permissive temperature. Mutants of group III (M protein) and V (G protein), instead, do inhibit cell protein synthesis and induce membrane changes also when grown at the non-permissive temperature; this suggests that these effects do not correlate with the biological activity of these proteins and their interaction with the cellular membrane. On the other hand, mutants exhibiting defective steps of nucleocapsid replication are apparently unable to induce these effects once more suggesting that virus replication per se is essential, as also indirectly shown by experiments employing cycloheximide to mimic shut-off.
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PMID:L929 cells infected with temperature sensitive mutants of vesicular stomatitis virus: virus replication is necessary for induction of changes in membrane permeability. 282 8


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