UMLS:C0017638 - FACTA Search

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Query: UMLS:C0017638 (glioma)
30,880 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The interaction of measles virus with RG-6 cells derived from rat glioma was investigated. When a culture of RG-6 cells was infected with measles virus, the synthesis of viral antigens was detected in very few cells, at most 5%. The apparent resistance to measles virus infection was also repeatedly found in all of the subclonal cells derived form RG-6 cells. Although all of the virus-synthesizing cells had the ability to form plaques on Vero cells, they produced only a reduced amount of infectious virus, i.e., 0.1 plaque-forming units per cell. These results imply the existence of some mechanism that regulates growth of measles virus in cultures of RG-6 cells. The transmission of genetic material of measles virus from infected RG-6 cells to Vero cells was not inhibited in the presence of antiviral serum. This fact may provide a basis for interpretation of the persistence of virus, in the presence of antibody, in patients with subacute sclerosing panencephalitis.
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PMID:Growth of measles virus in cultures of rat glioma cells. 80 59

Endothelin 1 causes a strong Ca2+ signal in C6 rat glioma cells as measured by fura-2 fluorescence. This endothelin 1-induced Ca2+ signal was not observed when the cells were persistently infected with a measles virus strain of subacute sclerosing panencephalitis (SSPE, strain Lec). Binding of 125I-labeled endothelin 1 to the C6/SSPE cells was less than 5% of the binding to the C6 control cells, suggesting that the impairment in signal transduction was due to a loss of binding sites for endothelin 1. Treatment of the C6/SSPE cells with measles antiserum resulted in the loss of expression of viral proteins located in the membrane as well as inside the cells (antigenic modulation), but it restored neither the endothelin 1-induced Ca2+ rise nor the 125I-endothelin 1 binding. Cocultivation of uninfected C6 cells with C6/SSPE cells (9:1 ratio) resulting in contact-mediated transmission of measles virus showed that the 125I-endothelin 1 binding activity was gradually lost as a consequence of persistent virus infection.
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PMID:Loss of the endothelin signal pathway in C6 rat glioma cells persistently infected with measles virus. 165 Apr 80

Theiler's murine encephalomyelitis virus (TMEV) induces demyelinating disease which is associated with persistent virus infection of the central nervous system. To study the interaction between TMEV and host cells, we infected the G26-20 glioma cell line in vitro, and this resulted in a lytic infection in which most, but not all, cells were killed. Surviving cells divided and formed a viable monolayer in which a small proportion of cells displayed viral cytopathic effects. Levels of virus produced by these cultures over a 6 month period fluctuated between 6 and 8 log10 p.f.u./ml as measured by viral plaque assay. Similarly, the percentage of cells producing both viral antigen and viral RNA, as measured by a simultaneous immunoperoxidase/in situ hybridization technique, varied between 5 and 30%. Although persistently infected cultures were susceptible to challenge by both vesicular stomatitis virus and herpes simplex virus, they were resistant to infection by homologous viruses. Interferon activity was not identified. TMEV isolated from passage 12 produced smaller plaques than wild-type Daniels strain virus (wt-DAV) on L-2 cell monolayers. In contrast to demyelination induced in SJL/J mice after intracerebral inoculation with wt-DAV, mice infected with the small plaque variant virus failed to develop viral persistence or chronic demyelination. However, following immunosuppression by total body irradiation, SJL/J mice infected with the small plaque variant developed viral persistence but no demyelination. Characterization of the biochemical and molecular determinants of the variant will lead to a better understanding of determinants important in viral persistence.
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PMID:Persistent infection of a glioma cell line generates a Theiler's virus variant which fails to induce demyelinating disease in SJL/J mice. 221 94

Japanese encephalitis viruses (JEV) were well propagated in human glioma cells, 118MGC until the first 24 hrs after virus infection. However, after 24 hrs, virus growth rate was quickly reduced. This unusual pattern of virus growth was different from the cases in others cells, e.g. IMR-32, Vero and C6/36 cells. The fact that actinomycin-D retained the high yields of JEV in 118MGC cells suggests that some suppressing factors against JEV replication are produced in MGC cells. Interestingly, culture fluids of 118MGC cells indicated inhibitory effect to JEV reproduction, but other culture fluids from several cell lines had no effect. This inhibitory effect of the MGC-culture fluids was lost by heat-treatment at 60 C. In addition, the infectivity of JEV was rapidly decreased by the incubation with MGC-culture fluids. These findings suggest that 118MGC cells produce and secret some inhibitory factors against JEV replication.
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PMID:[Reproduction of Japanese encephalitis virus in human glioma cells, 118MGC: inhibitory effect of host factor(s)]. 264 Jul 48

Cultivation of measles virus (SSPE virus, Lec strain) persistently infected C6 rat glioma cells at 39 degrees C resulted in the loss of detectable expression of measles virus proteins. Temperature shift-back led to reactivation of measles virus even after maintenance of the cells at 39 degrees C for 15 days. In Northern blot analysis viral mRNA disappeared at 3 days after shift-up whereas 50 S viral genome-sized RNA was detectable until 6 days. The 50 S RNA decreased in quantity in rough correlation with dilution by cell passage at 39 degrees C. The 50 S viral RNA was found in the nucleocapsid fraction. On day 9 after shift-down of persistently infected cells, maintained at 39 degrees C for 15 days, 50 S viral RNA reappeared although mRNAs were not yet detected. Infectious center assays showed that the number of cells in the population at 39 degrees C, which contained an SSPE virus genome that could be reactivated, declined after temperature shift. Moreover, cell cloning experiments, in which single cells of cultures maintained for various lengths of time at 39 degrees C were incubated at 35 degrees C and examined by immunofluorescence, reconfirmed the above results. This indicates that the reactivation of SSPE virus described here was due to re-infection of virus-antigen negative cells with progeny virus produced by a few latently infected cells in the population. The biological significance of this phenomenon in the central nervous system virus infection is discussed.
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PMID:Long-term effect of elevated temperatures on SSPE virus expression in persistently infected rat glial cells. 270 78

Thymidine kinase negative (dTK-) mutants of herpes simplex virus type 1 (HSV-1) multiplied well in rat brain glioma cells. A proportion (less than 1%) of glioma cells survived the infection with HSV and were designated "survivor" glioma cells. Survivor cells of dTK- mutant virus infection ceased to produce infectious virus after two passages and were highly resistant to both HSV-1 and HSV-2 but not to vesicular stomatitis virus (VSV). Flow cytometric studies indicated morphological differences between parental and survivor glioma cells, and HSV-1 specific antigens as well as DNA were detected in the survivor glioma cells, but only in early passages. Sensitivity to superinfection with HSV appears to correlate to loss of HSV-specific viral DNA in the survivor glioma cells. Survivor glioma cells after several subcultures lost their ability to resist superinfecting HSV, reverted morphologically to the appearance of parental glioma cells and also lost significant amount of HSV-1 specific DNA. These transient survivor glioma cells became persistently infected-virus producer cells upon HSV infection.
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PMID:Studies on interactions of dTK-HSV mutants with neurons in vitro. 287 27

The ability of a neurotropic virus, mouse hepatitis virus type 3 (MHV3), to invade the central nervous system (CNS) and to recognize cells selectively within the brain was investigated in vivo and in vitro. In vivo, MHV3 induced in C3H mice a genetically controlled infection of meningeal cells, ependymal cells, and neurons. In vitro, purified MHV3 bound to the surface of isolated ependymal cells and cultured cortical neurons but not to oligodendrocytes or cultured astrocytes. MHV3 replicated within cultured cortical neurons and neuroblastoma cells (NIE 115); infected cultured neurons nonetheless survived and matured normally for a 7-day period postinfection. On the other hand, MHV3 had a low affinity for cortical glial cells or glioma cells (C6 line), both of which appear to be morphologically unaltered by viral infection. Finally, MHV3 infected and disrupted cultured meningeal cells. This suggests that differences in the affinity of cells for MHV3 are determinants of the selective vulnerability of cellular subpopulations within the CNS. In vivo, a higher titer of virus was needed for CNS penetration in the genetically resistant (A/Jx) mice than in the susceptible (C57/BL6) mouse strain. However, in spite of viral invasion, no neuropathological lesions developed. In vitro viral binding to adult ependymal cells of susceptible and resistant strains of mice was identical. Genetic resistance to MHV3-CNS infection appeared to be mediated both by a peripheral mechanism limiting viral penetration into the CNS and by intra-CNS mechanisms, presumably at a stage after viral attachment to target cells.
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PMID:Selective tropism of a neurotropic coronavirus for ependymal cells, neurons, and meningeal cells. 302 91

A new in vitro model of normal human brain has been developed in which fetal human brain cells form three-dimensional aggregates that can be maintained for up to 60 days in culture. Cells appear fully differentiated at the time of initiation in culture; the predominant cells identified were astrocytes, neurons, and oligodendrocytes with myelin, with occasional ependymal cells and macrophages. The specific arrangement and numbers of neural cells within aggregates differed among brain specimens. Cell kinetics studies detected DNA synthesis throughout the culture interval. Aggregates cocultured with a human malignant glioma cell line (U251-MG) were progressively invaded by tumor cells. In aggregates infected with human cytomegalovirus (CMV), intracellular viral replication and morphologic changes characteristic of human brain infection with this pathogen were seen. This model of brain aggregates should prove valuable for multidisciplinary studies in human neurobiology, particularly in the fields of developmental neurobiology, neuro-oncogenesis, tumor cell invasion, and species-specific viral infection of the central nervous system.
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PMID:A normal human brain cell aggregate model for neurobiological studies. 321 35

Six isolates of the human immunodeficiency virus (HIV) showed differences in their ability to productively infect glioma-derived cell lines and early-passage human brain cell cultures. Susceptibility to HIV infection correlated well with the expression of the astrocyte marker glial fibrillary acidic protein. The CD4 molecule was expressed on some, but not all, of the brain-derived cells; however, no correlation was observed between CD4 protein expression and susceptibility to virus infection. The results show that HIV can productively infect human brain cells, particularly those of glial origin, and suggest that these cell types in the brain can harbor the virus.
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PMID:Human immunodeficiency virus can productively infect cultured human glial cells. 347 22

Maintenance of measles (SSPE-Lec) virus persistently infected C6 rat glioma cells in medium containing polyclonal measles antiserum resulted in the loss of detectable expression of all measles virus proteins. Removal of these cells from antiserum, however, led to a re-expression of virus proteins and the production of infectious virus. Cloning of antibody-modulated non-expressing cells in the presence of antiserum showed that re-expression of virus proteins was not due to an incomplete curing process following the addition of antiserum, as a large number of non-expressing cell clones developed the capacity to express measles virus antigen at different periods after removal of antiserum. Irradiation of persistently infected cells to give a non-growing culture showed that modulation was not mediated by a selection and outgrowth of a small percentage of non-expressing cells originally present in the culture. Antibody directed against C6 membrane proteins did not lead to modulation and it was also shown that only monoclonal antibodies with neutralizing activity could affect intracellular antigen expression. Immunoglobulin Fab fragments with neutralizing activity also had modulating activity. Although all modulated cell clones were more susceptible to homologous virus infection than control C6 cells, it was not possible to rescue any defective measles virus which may have been maintained in the culture.
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PMID:Effect of measles virus antibodies on a measles SSPE virus persistently infected C6 rat glioma cell line. 402 Mar 46

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