Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P10415 (Bcl-2)
 33,771 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Rubella virus (RV) causes multisystem birth defects in the fetuses of infected women. To investigate the cellular basis of this pathology, we examined the cytopathic effect of RV in three permissive cell lines: Vero 76, RK13, and BHK21. Electron microscopy and the TUNEL assay showed that the cytopathic effect resulted from RV-induced programmed cell death (apoptosis) in all three cell lines, but the extent of apoptosis varied among these cells. At 48 h postinfection, the RK13 cell line showed the greatest number of apoptotic cells, the Vero 76 cell line was approximately 3-fold less, and BHK21 had very few. An increased multiplicity of infection and longer time postinfection were required for the BHK21 cell line to reach the level of apoptotic cells in Vero 76 at 48 h. Purified RV induced apoptosis in a dose-dependent fashion, but not UV-inactivated RV or virus-depleted culture supernatant. Specific inhibitors of the apoptosis-specific proteases caspases reduced RV-induced apoptosis and led to higher levels of RV components in infected cells. To address the role of regulatory proteins in RV-induced apoptosis, the antiapoptotic gene Bcl-2 or Bcl-XL was transfected into RK13 cells. Although a high level of Bcl-2 family proteins was expressed, no protection was observed from apoptosis induced by RV, Sindbis virus, or staurosporine in RK13 cells. In BHK21 cells, however, increased expression of Bcl-XL protected cells from apoptosis. The observed variability in apoptotic response to RV of these cell lines demonstrates that programmed cell death is dependent on the unique properties of each cell and may be indicative of how selective organ damage occurs in a congenital rubella syndrome fetus.
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PMID:Rubella virus-induced apoptosis varies among cell lines and is modulated by Bcl-XL and caspase inhibitors. 1004 27

Rubella virus (RV) generally causes a mild disease but it is highly teratogenic when infection occurs during the first trimester of gestation. Under in vitro conditions, RV induces characteristic cytopathic changes on several cell lines, e.g. cell detachment from the monolayer and condensation of chromatin. The purpose of this study was to characterize RV-induced cell death and to determine the factors that might be involved in this process. Both acutely and persistently infected cells exhibited alterations characteristic of apoptosis, including DNA fragmentation, annexin V staining and reduced DNA content. UV-inactivated RV did not induce apoptotic cell death and expression of RV structural proteins in a transfected cell line was not sufficient to induce apoptosis, supporting the interpretation that replicating virus is necessary to provoke apoptosis. Both persistently infected and 24S-transfected cells retained their susceptibility to undergo apoptosis in response to either staurosporine or camptothecin. This indicates that RV does not block chemically induced apoptosis. The signals involved in RV-associated apoptosis appear to be independent of p53 and of the Bcl-2 gene family.
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PMID:Rubella virus-induced cytopathic effect in vitro is caused by apoptosis. 1042 33

Rubella virus (RV), a member of Togaviridae, is an important human pathogen that can cause severe defects in the developing fetus. Compared to other togaviruses, RV replicates very slowly suggesting that it must employ effective mechanisms to delay the innate immune response. A recent study by our laboratory revealed that the capsid protein of RV is a potent inhibitor of apoptosis. A primary mechanism by which RV capsid interferes with programmed cell death appears to be through interaction with the pro-apoptotic Bcl-2 family member Bax. In the present study, we report that the capsid protein also blocks IRF3-dependent apoptosis induced by the double-strand RNA mimic polyinosinic-polycytidylic acid. In addition, analyses of cis-acting elements revealed that phosphorylation and membrane association are important for its anti-apoptotic function. Finally, the observation that hypo-phosphorylated capsid binds Bax just as well as wild-type capsid protein suggests that interaction with this pro-apoptotic host protein in and of itself is not sufficient to block programmed cell death. This provides additional evidence that this viral protein inhibits apoptosis through multiple mechanisms.
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PMID:Phosphorylation and membrane association of the Rubella virus capsid protein is important for its anti-apoptotic function. 2445 40