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)

Temperature-sensitive mutant G31 of vesicular stomatitis virus induces mouse neuroblastoma N-18 cells to fuse during infections that are nonpermissive for virus replication, but BHK-21 cells do not undergo the viral glycoprotein-mediated cell fusion. The viral glycoprotein was expressed at the cell surface of both N-18 and BHK-21 cells; therefore, the host cell specificity did not stem from an absence of the viral glycoprotein at the surface of BHK-21 cells. Cell fusion readily occurred between infected and uninfected N-18 cells in mixed cultures, demonstrating that the viral glycoprotein was interacting with an uninfected cell for the initial cell-cell interaction of the cell fusion. Mixing infected BHK-21 cells with uninfected N-18 cells resulted in cell fusion initiated by BHK-21 cell-synthesized viral glycoprotein, but 88% of the nuclei in polykaryocytes were N-18 nuclei. The N-18 cell fusion specificity was readily apparent when infected N-18 cells were mixed with uninfected BHK-21 cells; 98% of the nuclei in polykaryocytes were N-18 nuclei. Similar results also were obtained with mixed cultures of N-18 cells and primary astroglial cells. Thus, the viral glycoprotein synthesized in any of the cell types could initiate cell fusion, but the properties of plasma membranes of neuroblastoma cells appeared to be much more suitable for cell-cell fusion.
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PMID:Neuroblastoma cell membranes: specificity for cell fusion mediated by a temperature-sensitive mutant of vesicular stomatitis virus. 628 86

Addition of 50 micrograms/ml chloroquine to neuroblastoma cells 1 h before infection with temperature-sensitive mutant ts G31 (III) of vesicular stomatitis virus (VSV) prevented virus-induced cell fusion from occurring. Interestingly, addition of chloroquine after infection still inhibited cell fusion. Based on the number of fusion events required to produce the polykaryocytes observed, cell fusion was inhibited 92% when chloroquine was added 1 h post-infection and 77% when chloroquine was added 2 h post-infection. The inhibition of virus-induced cell fusion could not be accounted for by an inhibition of virus protein synthesis because the virus protein synthesis measured 6 h post-infection was 90% of that in untreated, infected cells with chloroquine added 1 h post-infection, and the same as untreated, infected cells when chloroquine was added 2 h post-infection. No virus proteins were made, however, when chloroquine was added before infection, which is consistent with a chloroquine-mediated inhibition of virus uncoating. The release of infectious virions was completely inhibited when chloroquine was added before infection or 1 or 2 h post-infection, which indicated an inhibition of virus maturation in the later stages of virus assembly. By indirect immunofluorescence the virus glycoprotein (G protein) could not be detected on the surface of chloroquine-treated, infected cells, but the G protein was present inside the treated cells. With 125I-labelled anti-G protein IgG, 16% of the G protein found on the surface of untreated, infected cells was on the cell surface when chloroquine was added 2 h post-infection. When chloroquine was removed from infected cells, the G protein accumulated at the cell surface, and this accumulation could not be prevented by tunicamycin, an inhibitor of glycosylation. Furthermore, galactose was incorporated into the G protein in the presence of chloroquine. Therefore, the VSV G protein was being synthesized and glycosylated in the presence of chloroquine but the drug prevented the expression of the glycoprotein at the cell surface during the final stages of G protein assembly.U
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PMID:Inhibition of vesicular stomatitis virus glycoprotein expression by chloroquine. 629 May 97

A persistently-infected neuroblastoma culture [Neuro-2A( JHMV )] was established with the murine hepatitis virus JHM [MHV-JHM]. After 100 days of passage, the endogenous virus [Neuro-2A( JHMV ) end] released by this culture was unable to induce the syncytia typical of MHV-JHM and the endogenous virus was not temperature-sensitive. The Neuro-2A( JHMV ) culture was cured of virus production by passage under neutralizing antibody [Neuro-2A( JHMV )Ab]. The Neuro-2A( JHMV ) and the Neuro-2A ( JHMV ) Ab cultures were as susceptible to heterologous infection with mengovirus and vesicular stomatitis virus as the uninfected Neuro-2A culture. However, the Neuro-2A ( JHMV ) and Neuro-2A( JHMV ) Ab cultures were partially resistant to homologous superinfection by MHV-JHM and the closely related MHV-A59. Virus related to MHV-JHM was rescued from the antibody-cured cells by cell fusion. The synthesis of MHV-JHM specific antigens by Neuro-2A( JHMV ) cells, Neuro-2A( JHMV ) Ab cells and 17 Cl-1 cells infected by Neuro-2A( JHMV ) end was studied by SDS-PAGE. The genomic RNAs of MHV-JHM and Neuro-2A( JHMV ) end were compared by oligonucleotide mapping. The results of the protein and RNA studies indicated that the genome of Neuro-2A( JHMV ) end was substantially modified from the genome of MHV-JHM, but the modifications did not significantly alter the molecular size of the viral-specific proteins.
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PMID:Biological and macromolecular properties of murine cells persistently infected with MHV-JHM. 632 42

Dansylcadaverine, amantadine, and rimantadine, which have been shown to inhibit the endocytosis of alpha 2-macroglobulin, epidermal growth factor, and vesicular stomatitis virus [Schlegel, R., Dickson, R. B., Willingham, M. C. & Pastan, I. (1982) Proc. Natl. Acad. Sci. USA 79, 2291-2295], were found to decrease phosphatidylcholine synthesis, chemotaxis, and internalization of a formylated peptide but to stimulate the incorporation of inositol into phosphatidylinositol in rabbit neutrophils. Dansylcadaverine decreased phosphatidylcholine synthesis by both the CDP-choline and transmethylation pathways and also inhibited the synthesis of phosphatidylethanolamine by the CDP-ethanolamine pathway. Dansylcadaverine had no effect on the phosphocholine, CDP-choline, or S-adenosyl-L-homocysteine pools but increased 2-fold the S-adenosyl-L-methionine pool. These results suggest that dansylcadaverine in some manner inhibited the condensation of CDP-choline with diacylglycerol to form phosphatidylcholine. Dansylcadaverine also inhibited phosphatidylcholine synthesis in human neutrophils, human fibroblasts, chicken embryo fibroblasts, rat hepatocytes, osteosarcoma cells, and neuroblastoma cells. It did not stimulate phosphatidylinositol synthesis in chicken embryo fibroblasts.
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PMID:Inhibitors of endocytosis perturb phospholipid metabolism in rabbit neutrophils and other cells. 657 51

Inhibitory effects of nitric oxide (NO) on vesicular stomatitis virus (VSV) infection were investigated by using a VSV-susceptible mouse neuroblastoma cell line, NB41A3. Productive VSV infection of NB41A3 cells was significantly inhibited by an organic NO donor, S-nitro-N-acetylpenicillamine (SNAP), while the control compound N-acetylpenicillamine (NAP) had no effect. Survival rate of VSV-infected cells was greatly increased by the treatment with SNAP, while the NAP treatment did not have any effect. Adding SNAP 30 min prior to infection resulted in complete inhibition of viral production when a low multiplicity of infection (MOI) was used. Substantial inhibition of viral production was also obtained with treating cells 6 h earlier before infection with a higher MOI. Activating the neuronal NO synthase by treating cells with N-methyl-D-aspartate (NMDA) led to significant inhibition of viral production by cells infected at the three doses of virus tested (MOIs of 0.1, 1, and 5). The inhibitory effect of NMDA on viral infection was totally blocked by the NO synthase inhibitor N-methyl-L-arginine. However, adding hemoglobin, a strong NO-binding protein and thus an inactivator of NO activity, did not reverse the NMDA-induced inhibition of viral production, suggesting that NO might exert its antiviral effects inside the NO-producing cells. Collectively, these data support the anti-VSV effects of NO, which might be one of the important factors of natural immunity in controlling the initial stages of VSV infection in the central nervous system.
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PMID:Inhibition of vesicular stomatitis virus infection by nitric oxide. 753 52

The antiviral effects of nitric oxide (NO) on Japanese encephalitis virus (JEV), a member of the family Flaviviridae, were investigated in this study. In vitro, inhibition of replication of JEV in gamma interferon-activated RAW 264.7 murine macrophages was correlated to cellular NO production. When cocultured with infected murine neuroblastoma N18 cells, gamma interferon-activated RAW 264.7 cells also efficiently hindered JEV replication in contiguous bystanders, and this anti-JEV effect could be reversed by an NO synthase (NOS) inhibitor, N-monomethyl-L-arginine acetate. In vivo, the mortality rate increased as the NOS activity of JEV-infected mice was inhibited by its competitive inhibitor, N-nitro-L-arginine methyl ester. Moreover, when an organic donor, S-nitro-N-acetylpenicillamine (SNAP), was used, the NO-mediated antiviral effect was also observed in primarily JEV-infected N18, human neuronal NT-2, and BHK-21 cells, as well as in persistently JEV-infected C2-2 cells. These data reaffirm that NO has an effective and broad-spectrum antimicrobial activity against diversified intracellular pathogens. Interestingly, the antiviral effect of NO was not enhanced by treatment of N18 cells with SNAP prior to JEV infection, a measure which has been shown to greatly increase the antiviral effect of NO in infection by vesicular stomatitis virus. From biochemical analysis of the impact of NO on JEV replication in cell culture, NO was found to profoundly inhibit viral RNA synthesis, viral protein accumulation, and virus release from infected cells. The results herein thus suggest that NO may play a crucial role in the innate immunity of the host to restrict the initial stage of JEV infection in the central nervous system.
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PMID:Inhibition of Japanese encephalitis virus infection by nitric oxide: antiviral effect of nitric oxide on RNA virus replication. 918 90

The existence of specific rabies virus (RV) glycoprotein (G) binding sites on the surfaces of neuroblastoma cells is demonstrated. Spodoptera frugiperda (Sf21) cells expressing G of the RV strain CVS (Gcvs-Sf21 cells) bind specifically to neuroblastoma cells of different species but not to any other cell type (fibroblast, myoblast, epithelial, or glioma). Attachment to mouse neuroblastoma NG108-15 cells is abolished by previous treatment of Gcvs-Sf2 cells with anti-G antibody. Substitutions for lysine at position 330 and for arginine at position 333 in RV G greatly reduce interaction between Gcvs-Sf21 cells and NG108-15 cells. These data are consistent with in vivo results: an avirulent RV mutant bearing the same double mutation is not able to infect sensory neurons or motoneurons (P. Coulon, J.-P. Ternaux, A. Flamand, and C. Tuffereau, J. Virol. 72:273-278, 1998) after intramuscular inoculation into a mouse. Furthermore, infection of NG108-15 cells by RV but not by vesicular stomatitis virus leads to a reduction of the number of binding sites at the neuronal-cell surface. Our data strongly suggest that these specific attachment sites on neuroblastoma cells represent a neuronal receptor(s) used by RV to infect certain types of neurons in vivo.
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PMID:Neuronal cell surface molecules mediate specific binding to rabies virus glycoprotein expressed by a recombinant baculovirus on the surfaces of lepidopteran cells. 944 3

Between January 1993 and December 1996, 21 children with advanced solid tumors were entered in a dose-escalating study of high-dose sequential chemotherapy followed by autologous stem cell transplantation. The diagnoses included neuroblastoma (NB) for 13 patients; Ewing's sarcoma (ES) for six patients and osteosarcoma for two patients. Nine patients received therapy as consolidation for primary metastatic disease, and 12 patients had had previous relapses. Treatment consisted of CY given i.v. at a dose of 7 g/m2 on day 1, followed by G-CSF until myeloid recovery. After 3 weeks of rest, all patients were given thiotepa i.v. on days 22-24. The total dose of thiotepa was 450 mg/m2 in three patients, 600 mg/m2 in six patients, and 750 mg/m2 in 12 patients. Melphalan was given i.v. at a dose of 180 mg/m2 i.v. on day 27 followed by stem cell infusion on day 28. Major toxic reactions included stomatitis, esophagitis, diarrhea and dermatitis. Three patients died of treatment-related complications. Twelve patients have had a relapse. Six patients (five with NB and one with ES) are alive in continuous remission 5-50 months (median 36) after transplantation. The results of this study show that it is feasible to administer high-dose sequential chemotherapy to children with advanced solid tumors.
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PMID:High-dose sequential chemotherapy and autologous stem cell reinfusion in advanced pediatric solid tumors. 946 76

In this report, the role of nitric oxide synthase (NOS) and IL-12 administration in inhibition of vesicular stomatitis virus (VSV) from infected neuroblastoma cells was examined. We previously have shown that cytokine treatment of cells results in the induction of NOS-1, and this is associated with a 2 log inhibition of VSV production. We performed these studies to examine the mechanism by which viral replication is suppressed. Neuroblastoma cells (NB41A3) were treated with either IL-12 or medium and subsequently infected with VSV. Viral protein and mRNA were isolated from these cells, and their levels were measured by Western or Northern blots, respectively. mRNA levels were decreased modestly, but viral proteins were decreased substantially in cells pretreated with IL-12, suggesting that the inhibitory effect of NO is working at the translational level. Cytokine treatment of cells was not associated with oxidative stress. The viral proteins also were nitrosylated. These data suggest that the mechanism of NO inhibition of viral replication occurs through translational interference and posttranslational modifications of viral components.
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PMID:Mechanisms of cytokine-mediated inhibition of viral replication. 1038 58

The disease-free survival of children with malignant disorders has increased impressively over the last three decades due to better understanding of tumour biology and the resultant improvement in diagnosis and therapy. Children with advanced and relapsed solid tumours, such as brain tumour, alveolar rhabdomyosarcoma, Ewing's sarcoma, or neuroblastoma, have not benefited from this progress. The concept of myeloablative high-dose chemotherapy (HDT) is based on the observation that certain cytostatic drugs have a steep linear dose-response curve, and thus escalating the dose may increase the tumour cell kill. The interest in HDT intensified when autologous stem cells mobilised from the peripheral blood became available, in view of the possibility of increasing the cell dose, which correlates directly with the time period of haematopoietic recovery and thus reduces therapy-associated toxicity. The aim of the study was to evaluate the feasibility of single or double HDT by autologous peripheral blood stem cell transplantation (PBSCT) after each cycle in children, and to obtain pilot data for future prospective clinical trials. 11 children aged between 2.8 and 17.2 years with brain tumours, soft tissue sarcomas, germ-cell tumours and neuroblastomas were analysed over a 2-year-period. 7 of the 11 children are in complete remission 2+ and 24+ months after HDT, 3 died of progressive disease and one child died of therapy-associated complications. The median hospital stay was 29.5 (22-104) days. An absolute neutrophil granulocyte count of 0.5 x 10(9)/l was achieved after a median stay of 11 days and a platelet count of > 20 x 10(9)/l independent of platelet transfusions was achieved after 11 days. Painful stomatitis leading to total parenteral nutrition (9 children) and intravenous morphine therapy (6 children) was the most serious toxicity. Single or double HDT with autologous PBSCT after each cycle is feasible in children and offers basic data for conducting phase III paediatric clinical studies.
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PMID:[Single and double high-dose chemotherapy with autologous stem cell transplantation in children with advanced solid tumors: first experiences]. 1078 56

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