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

Although tumorigenicity in nude mice is one of the most important transformed phenotypes, its mechanism has been little analyzed. To understand the molecular basis of tumorigenicity, we characterized nontumorigenic CGL1 and tumorigenic CGL4 cell lines, both of which were originated from a common ancestral HeLa-human diploid fibroblast hybrid cell clone and retained a malignant state except tumorigenicity. When injected into nude mice, nontumorigenic CGL1 cells underwent apoptosis, but tumorigenic CGL4 cells did not. In vitro, CGL1 was also less resistant to various apoptotic stimuli than CGL4. These results suggested that inhibition of apoptosis may lead to tumorigenicity. To examine this hypothesis, we introduced antiapoptotic genes into the CGL1 cell line and injected the resulting clones into nude mice. The results showed that the ectopic expression of Bcl-2 or E1B19k, but not of crmA, converted CGL1 cells to tumorigenicity, suggesting strongly that this phenotype may be conferred by evasion of apoptosis.
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PMID:Tumorigenic conversion resulting from inhibition of apoptosis in a nontumorigenic HeLa-derived hybrid cell line. 1021 83

The BARF1 gene encoded by the Epstein-Barr virus induces morphological changes, loss of contact inhibition and anchorage independence in established rodent Balb/c3T3 fibroblast. BARF1 gene was also capable of inducing malignant transformation in a human Louckes B cell line. Our recent study showed that BARF1 gene had an ability to immortalize primary epithelial cells. However we do not know which region(s) of BARF1 protein is(are) responsible for inducing malignant transformation in established rodent cells. Using the deletion mutants, we now localized a malignant transforming region in N-terminal of BARF1 protein. The mutants lacking this region were unable to transform the cells in malignant state. Furthermore, we demonstrated that only the mutants containing this region rendered the cells resistant to apoptosis induced by serum deprivation. Surprisingly, the BARF1 gene was capable of activating anti-apoptotic Bcl-2 expression and this activation was due to the N-terminal transforming region. These data suggest that the cooperation of BARF1 with Bcl-2 is essential for the induction of malignant transformation.
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PMID:N-terminal domain of BARF1 gene encoded by Epstein-Barr virus is essential for malignant transformation of rodent fibroblasts and activation of BCL-2. 1131 61

Although the multi-functional, prosurvival protein, Bcl-2-associated anthanogene 1 (BAG-1) is frequently overexpressed in breast cancers, its role in the development or maintenance of the malignant state remains unclear. Here, we have used the established MCF-10A 3-dimensional (3D) model of mammary morphogenesis as a biologically relevant system to determine how BAG-1 expression may influence the development of breast cancer. When cultured in 3D, MCF-10A cells undergo a highly regulated morphogenic program leading to the development of polarized acinar structures containing a central, hollow lumen formed, in part, through the induction of BIM-dependent apoptosis. BAG-1 overexpression resulted in an attenuation of this normal apoptotic program characterized by a significantly increased number of acini with filled lumens-a phenotype commonly observed in ductal carcinoma in situ. BAG-1's effects were associated with an activation of RAF-1-a known binding partner of BAG-1, enhanced signaling through the MAP kinase pathway and a decrease in BIM expression. Reversal of the BAG-1-associated survival phenotype by the mitogen-activated kinase/ERK kinase inhibitor, U0126, implicates the RAF-1-extracellular signal-regulated kinase signaling pathway as a major mediator of BAG-1's effects in this model. As BAG-1 expression is often elevated in preinvasive breast cancers, these findings support a possible role for BAG-1 as an early contributor to the malignant process in the breast.
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PMID:BAG-1 overexpression attenuates luminal apoptosis in MCF-10A mammary epithelial cells through enhanced RAF-1 activation. 1988 45