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Query: UNIPROT:P10415 (
Bcl-2
)
33,771
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The p53 tumor suppressor gene product is a transcriptional regulatory protein. It activates transcription from promoters that contain a p53 DNA binding site but represses many promoters that lack its binding site. High-level expression of wild-type p53 can induce apoptosis in certain cell types, and this activity can be blocked by the adenovirus
E1B
19-kDa oncoprotein or by the cellular
Bcl-2
oncoprotein. Here we report that p53-mediated repression of promoters that lack a p53 binding site is abrogated by the
E1B
19-kDa protein or
Bcl-2
oncoprotein. In contrast, transcriptional activation by p53 still occurs in the presence of either protein. The fact that two oncoproteins capable of preventing p53-mediated apoptosis also block transcriptional repression by p53 raises the possibility that p53 might induce apoptosis, at least in part, by repressing transcription.
...
PMID:Relief of p53-mediated transcriptional repression by the adenovirus E1B 19-kDa protein or the cellular Bcl-2 protein. 809 Jul 49
Adenovirus E1A expression recruits primary rodent cells into proliferation but fails to transform them because of the induction of programmed cell death (apoptosis). The adenovirus
E1B
19,000-molecular-weight protein (19K protein), the
E1B
55K protein, and the human
Bcl-2
protein each cause high-frequency transformation when coexpressed with E1A by inhibiting apoptosis. Thus, transformation of primary rodent cells by E1A requires deregulation of cell growth to be coupled to suppression of apoptosis. The product of the p53 tumor suppressor gene induces apoptosis in transformed cells and is required for induction of apoptosis by E1A. The ability of
Bcl-2
to suppress apoptosis induced by E1A suggested that
Bcl-2
may function by inhibition of p53. Rodent cells transformed with E1A plus the p53(Val-135) temperature-sensitive mutant are transformed at the restrictive temperature and undergo rapid and complete apoptosis at the permissive temperature when p53 adopts the wild-type conformation. Human
Bcl-2
expression completely prevented p53-mediated apoptosis at the permissive temperature and caused cells to remain in a predominantly growth-arrested state. Growth arrest was leaky, occurred at multiple points in the cell cycle, and was reversible.
Bcl-2
did not affect the ability of p53 to localize to the nucleus, nor were the levels of the p53 protein altered. Thus,
Bcl-2
diverts the activity of p53 from induction of apoptosis to induction of growth arrest, and it is thereby identified as a modifier of p53 function. The ability of
Bcl-2
to bypass induction of apoptosis by p53 may contribute to its oncogenic and antiapoptotic activity.
...
PMID:Bcl-2 blocks p53-dependent apoptosis. 813 58
The BHRF1 open reading frame of Epstein-Barr virus (EBV) codes for a 191-amino-acid protein that is expressed at high levels in productively infected cells and in certain latently infected cells. The BHRF1-coding sequences are conserved among all EBV isolates examined. BHRF1 shares a distant colinear amino acid sequence homology with the protein coded by the
Bcl-2
protooncogene which suppresses apoptotic cell death induced by multiple stimuli. We have established Chinese hamster ovary cell lines which constitutively express the BHRF1 protein and show that this viral protein can protect against apoptosis induced by the DNA-damaging agents cisplatin, etoposide, and mitomycin C. The BHRF1 protein also strongly suppresses DNA fragmentation induced by an adenovirus
E1B
19K deletion mutant. These results suggest that the BHRF1 protein is functionally similar to
Bcl-2
and adenovirus
E1B
19-kDa proteins. Since BHRF1 efficiently suppresses apoptosis induced by anti-cancer agents, its expression may have important implications for the chemotherapy of EBV-induced malignancies.
...
PMID:Epstein-Barr virus BHRF1 protein protects against cell death induced by DNA-damaging agents and heterologous viral infection. 818 52
The p35 gene of Autographa californica nuclear polyhedrosis virus (AcMNPV) is required to block virus-induced apoptosis. The trans-dominant activity of p35 suppresses premature cell death and facilitates AcMNPV replication in a cell line- and host-specific manner. To characterize the p35 gene product (P35), a specific polyclonal antiserum was raised. As revealed by immunoblot analyses of wild-type AcMNPV-infected cells, P35 appeared early (8 to 12 h) and accumulated through the late stages of infection (24 to 36 h). Biochemical fractionation of cells both early and late in infection and indirect immunochemical staining demonstrated that P35 localized predominantly to the cytosol (150,000 x g supernatant); comparatively minor quantities of P35 were associated with intracellular membranes. The cytoplasmic localization of P35 was independent of virus infection. The functional significance of the early and late synthesis of P35 was examined by constructing recombinant viruses in which the timing and level of p35 expression were altered. Delaying P35 synthesis by placing p35 under exclusive control of a strong, very late promoter failed to suppress intracellular DNA fragmentation and apoptotic blebbing in most cells. Thus, earlier expression of p35 was required to block virus-induced apoptosis. Site-specific mutagenesis of the p35 promoter demonstrated that low levels of P35 were sufficient to block apoptosis, whereas higher levels were required to maintain wild-type virus gene expression. Consistent with an early role in infection, P35 was also detected in the budded form of AcMNPV. Because of the lack of sequence similarity and its cytosolic targeting, P35 may function in a manner that is mechanistically distinct from other apoptotic regulators, including
Bcl-2
and the adenovirus
E1B
19-kDa protein.
...
PMID:The apoptotic suppressor P35 is required early during baculovirus replication and is targeted to the cytosol of infected cells. 818 86
Bcl-2
is an integral membrane protein that functions as a suppressor of programmed cell death. It contains a COOH-terminal signal anchor sequence that is selective for import and insertion of
Bcl-2
into the mitochondrial outer membrane and, by a different mechanism, can also direct the protein to other membrane sites. Deletion of the signal anchor sequence rendered
Bcl-2
cytosolic and impaired its ability to prevent apoptotic death of human KB cells infected with a mutant form of adenovirus type 5 that does not make
E1B
19-kDa protein. When the predicted transmembrane domain of the
Bcl-2
signal anchor was replaced with that of the signal anchor of the yeast outer mitochondrial membrane protein, Mas70p, the
Bcl-2
/Mas70p hybrid was found to be very similar to
Bcl-2
in its distribution within transfected KB cells, in its ability to heterodimerize with Bax, and in its ability to suppress apoptosis. These results are consistent with a model in which the transmembrane segment contributes to the function of
Bcl-2
by targeting and anchoring the protein to strategic membrane locations in the cell. Concentration of
Bcl-2
at these sites may contribute to its proposed role as regulator, or component, of an antioxidant pathway.
...
PMID:Role of membrane anchor domain of Bcl-2 in suppression of apoptosis caused by E1B-defective adenovirus. 820 64
Transformation of primary rodent cells by the adenovirus E1A and
E1B
oncogenes is a two-step process, where E1A-dependent induction of proliferation is coupled to
E1B
-dependent suppression of programmed cell death (apoptosis). The
E1B
gene encodes two distinct transforming proteins, the 19K and 55K proteins, both of which independently cooperate with E1A.
E1B
19K or 55K protein, or the human
Bcl-2
protein, functions to suppress apoptosis and thereby permits transformation with E1A. The
E1B
55K protein blocks p53 tumor suppressor protein function, indicating that p53 may mediate apoptosis by E1A. In the mutant conformation, p53 blocked induction of apoptosis by E1A and efficiently cooperated with E1A to transform primary cells. When p53 was returned to the wild-type conformation, E1A+p53 transformants underwent cell death by apoptosis. This induction of apoptosis by conformational shift of p53 from the mutant to the wild-type form was inhibited by expression of the
E1B
19K protein. Thus, the p53 protein may function as a tumor suppressor by initiating a cell suicide response to deregulation of growth control by E1A.
E1B
19K and 55K proteins provide separate mechanisms that disable the cell suicide pathway of p53.
...
PMID:Wild-type p53 mediates apoptosis by E1A, which is inhibited by E1B. 838 80
The adenovirus
E1B
19 kDa protein provides a cell survival function during adenovirus infection and facilitates efficient virus replication by preventing premature cell death. These functions resemble those performed by the protein coded by the proto-oncogene Bcl-1. The Bcl-1 protein, which provides a survival function in cells exposed to a number of cell death-inducing stimuli, can substitute for the 19 kDa protein during adenovirus infection. Although these two survival- promoting proteins are not overtly related by primary amino acid sequence, they appear to share short homologous sequences. In order to determine if these sequence motifs constitute common functional domains, we carried out domain exchanges between the 19 kDa and
Bcl-2
proteins. Our results indicate that a seven amino acid region of the
Bcl-2
protein (108-YRRDFAE-114) can efficiently substitute for the corresponding 19 kDa domain (47-YKWEFEE-53). Mutagenizing this domain in
Bcl-2
abolishes the survival promoting activity of
Bcl-2
. Substitution of the kDa sequences into
Bcl-2
restores the survival promoting activity, albeit at reduced levels. Our results suggest that this domain (designated NH1) may constitute a common functional domain for the 19 kDa protein and survival promoting members of the
Bcl-2
family of proteins.
...
PMID:Functional substitution identifies a cell survival promoting domain common to adenovirus E1B 19 kDa and Bcl-2 proteins. 857 Jan 92
The
E1B
19K protein is a potent apoptosis inhibitor and the putative adenovirus
Bcl-2
homolog. To investigate the mechanism of apoptosis regulation, 19K-interacting cellular proteins were identified using the yeast two-hybrid system, and Bax was one of seven 19-K interacting clones. Residues 50-78 of Bax containing a conserved region designated
Bcl-2
homology region 3 (BH3) were sufficient for specific binding to both the
E1B
19K and
Bcl-2
proteins. The Bax-
E1B
19K interaction was detectable in vitro and in lysates from mammalian cells, and Bax expression antagonized
E1B
19K protein function. bax mRNA and protein levels were p53-inducible with kinetics identical to that of p21/Waf-1/Cip-1, and
E1B
19K and
Bcl-2
expression did not affect Bax or p21/Waf-1/Cip-1 accumulation. In cells where p53 was mutant, Bax expression induced apoptosis, suggesting that Bax was sufficient for apoptosis, and acted downstream of p53. p53 may simultaneously activate the transcription of genes required for both growth arrest (p21/Waf-1/Cip-1) and death (bax), and
E1B
19K and
Bcl-2
may act distally and function through interaction with and antagonism of Bax to prevent apoptosis. With the death pathway disabled, induction of growth arrest by p53 can then be manifested.
...
PMID:The E1B 19K protein blocks apoptosis by interacting with and inhibiting the p53-inducible and death-promoting Bax protein. 860 29
Apoptin, a small protein derived from chicken anemia virus (CAV), induces apoptosis in human tumor cell lines regardless of whether these express p53 or not. We examined whether the small adenovirus 5
E1B
protein of 21 kDa (E1B-21kD), also called
E1B
-19kD) and
Bcl-2
could inhibit apoptin-induced apoptosis in human tumor cell lines and compared this with p53-induced apoptosis.
E1B
-21kD, but not
Bcl-2
was found to inhibit apoptin-induced apoptosis in the osteosarcoma cell lines U2OS and Saos-2. However, neither expression of
E1B
-21kD nor of
Bcl-2
resulted in inhibition of apoptin-induced apoptosis in Hep3B hepatoma cells and kidney rhabdoid tumor G401 cells. Both
Bcl-2
and Ad5
E1B
-21kD were able to inhibit p53-induced apoptosis in the human tumor cell lines Saos-2 and Hep3B. In Saos-2 and U2OS, but not in Hep3B and G401, expression of
E1B
-21kD leads to retention of apoptin in the cytoplasm, in that way preventing its nuclear function. These results indicate that proteins inhibiting the p53-induced apoptotic pathway do not block apoptin-induced apoptosis or do so only in a cell type-specific manner. The apoptin-induced apoptotic pathway is distinct from that induced by p53 and, therefore, apoptin is a potential antitumor agent.
...
PMID:Differential sensitivity to Ad5 E1B-21kD and Bcl-2 proteins of apoptin-induced versus p53-induced apoptosis. 860 67
The E1A oncoproteins of adenovirus type 5 are potent inducers of apoptotic cell death. To manifest growth promoting and transforming properties, therefore, E1A requires the co-expression of a suppressor of apoptosis. During normal viral infection, this function is provided by the
E1B
19 kDa protein. However, the cellular suppressor
Bcl-2
can substitute for 19K during infection, and both proteins can effectively cooperate with E1A to facilitate transformation of primary cells in culture. How E1A induces apoptosis and at what point(s) on this pathway
Bcl-2
and
E1B
19K act are not presently known. Here, we demonstrate that E1A-induced apoptosis is accompanied by specific endo-proteolytic cleavage of poly(ADP-ribose) polymerase (PARP), an event that is linked to the Ced-3/ICE apoptotic pathway in other systems. PARP cleavage was also observed in p53-null cells infected with 19K- virus expressing 13S E1A. In addition to PARP cleavage, expression of E1A caused processing of the zymogen form of CPP32, a Ced-3/ICE protease that cleaves PARP and is required for apoptosis in mammalian cells. These events were prevented when E1A was co-expressed with
E1B
19K or BCL-2, which places these suppressors of apoptosis either at or upstream of processing of pro-CPP32.
...
PMID:Bcl-2 and adenovirus E1B 19 kDA protein prevent E1A-induced processing of CPP32 and cleavage of poly(ADP-ribose) polymerase. 863 9
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