Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

The BCL-2 protein is able to protect neuronal and other cell types from apoptotic programmed cell death and plays a key role in regulating the rate of apoptosis during development of the nervous system. We have previously demonstrated that the Brn-3a POU domain transcription factor protects sensory neurons from apoptotic programmed cell death induced by nerve growth factor withdrawal. We report here that Bcl-2 transcription is predominantly initiated from the Bcl-2 P2 promoter in both the ND7 neuronal cell line and primary dorsal root ganglion neurons, in contrast to the predominant use of the Bcl-2 P1 promoter in other cell types. Moreover, Bcl-2 transcription initiated from the P2 region increases in ND7 cells stably overexpressing Brn-3a, resulting in enhanced BCL-2 protein levels. Similarly, the Bcl-2 P2 promoter is directly activated by Brn-3a in co-transfection assays in both ND7 cells and dorsal root ganglion neurons. Analysis of the Bcl-2 regulatory sequence revealed a binding site for Brn-3a that is required for maximal activation by Brn-3a both in transfected cells and during differentiation of ND7 cells. Together these data identify Brn-3a as the first transcription factor regulating Bcl-2 activity specifically in neuronal cells and indicate that the anti-apoptotic effect of Brn-3a is likely to be mediated, at least in part, via the up-regulation of Bcl-2 expression.
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PMID:Bcl-2 transcription from the proximal P2 promoter is activated in neuronal cells by the Brn-3a POU family transcription factor. 964 26

The ability of the POU family transcription factor Brn-3a to stimulate neurite outgrowth and the expression of the genes encoding neuronal proteins such as the neurofilaments and SNAP-25 has previously been shown to be dependent upon the C-terminal POU domain which can mediate both DNA binding and transcriptional activation. We show here, however, that the ability of Brn-3a to activate Bcl-2 expression and protect neuronal cells from apoptosis (programmed cell death) requires a distinct N-terminal activation domain. Bcl-2 gene activation and protection from apoptosis are thus produced only by the long form of Brn-3a which contains this domain and not by a naturally occurring short form lacking this domain or by the isolated POU domain, although all these forms of Brn-3a can stimulate neurite outgrowth. Hence Brn-3a is a multi-functional transcription factor with different regions of the factor mediating its different effects and two distinct forms with different properties being generated by alternative splicing.
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PMID:The N-terminal domain unique to the long form of the Brn-3a transcription factor is essential to protect neuronal cells from apoptosis and for the activation of Bbcl-2 gene expression. 972 27

Brn-3a is a member of the POU family of transcription factors which is expressed predominantly in neuronal cells. It exists in two forms, with the long form containing 84 amino acids at the N-terminus which are lacking in the short form. The N-terminal domain unique to the long form allows it to induce expression of the Bcl-2 gene and protect neuronal cells from apoptosis whereas the C-terminal POU domain common to both forms is sufficient for activating a number of other neuronally expressed genes and stimulating neuronal process outgrowth. These effects of Brn-3a suggest that manipulation of its expression by pharmacological or gene therapy procedures may be of benefit in human neurological diseases.
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PMID:The Brn-3a transcription factor. 983 40

The Brn-3a POU family transcription factor has been shown to strongly activate expression of the Bcl-2 proto-oncogene and thereby protect neuronal cells from programmed cell death (apoptosis). This activation of the Bcl-2 promoter by Brn-3a is strongly inhibited by the p53 anti-oncogene protein. This inhibitory effect of p53 on Brn-3a-mediated transactivation is observed with nonoverlapping gene fragments containing either the Bcl-2 p1 or p2 promoters but is not observed with other Brn-3a-activated promoters such as in the gene encoding alpha-internexin or with an isolated Brn-3a binding site from the Bcl-2 promoter linked to a heterologous promoter. In contrast, p53 mutants, which are incapable of binding to DNA, do not affect Brn-3a-mediated activation of the Bcl-2 p1 and p2 promoters. Moreover, Brn-3a and p53 have been shown to bind to adjacent sites in the p2 promoter and to directly interact with one another, both in vitro and in vivo, with this interaction being mediated by the POU domain of Brn-3a and the DNA binding domain of p53. The significance of these effects is discussed in terms of the antagonistic effects of Bcl-2 and p53 on the rate of apoptosis and the overexpression of Brn-3a in specific tumor cell types.
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PMID:p53 suppresses the activation of the Bcl-2 promoter by the Brn-3a POU family transcription factor. 1032 33

Inactivation of the gene encoding the POU domain transcription factor BRN-3A results in the absence of specific neurons in knockout mice. Here we demonstrate for the first time a direct effect of BRN-3A on the survival of neuronal cells. Specifically, overexpression of BRN-3A in cultured trigeminal ganglion or dorsal root ganglion sensory neurons enhanced their survival following the withdrawal of nerve growth factor. Moreover, reduction of BRN-3A levels impaired the survival of these neurons. The survival of sympathetic neurons was not affected by either approach. Similarly, overexpression of BRN-3A activated the endogenous Bcl-2 gene in trigeminal neurons, but not in sympathetic neurons. The protective effect of BRN-3A on trigeminal neuron survival following nerve growth factor withdrawal significantly increased during embryonic development. In contrast, overexpression of the related factor BRN-3B enhanced survival of trigeminal neurons only at an early stage of embryonic development. Thus, BRN-3A (and in some circumstances, BRN-3B) can promote the survival of nerve growth factor-dependent sensory but not sympathetic neurons, allowing it to play a direct role in the survival of some (but not all) neuronal populations in the developing and adult nervous systems.
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PMID:The BRN-3A transcription factor protects sensory but not sympathetic neurons from programmed cell death/apoptosis. 1105 12

The determination of cell fate plays a critical role during the later stages of embryogenesis and the early postnatal period-a time during which approximately half of neurons born during neurogenesis undergo programmed cell death. It has previously been reported that the type IV POU domain transcription factor Brn-3a plays a role in the maturation and survival of sensory neuronal populations. Indeed we have shown that the long form of Brn-3a is capable of activating expression of the antiapoptotic Bcl-2 gene and enhancing neuronal survival in cultures of sensory neurons. In this study, we report the identification of another antiapoptotic family member, Bcl-x(L), as a target gene of Brn-3a in sensory neurons, providing a further mechanism by which Brn-3a determines sensory neuronal fate during development. Bcl-x(L) gene expression is activated by Brn-3a in sensory but not in sympathetic neurons and its expression is reduced by antisense inhibition of Brn-3a expression in sensory neurons. Most importantly, both Bcl-x(L) expression and neuronal survival are enhanced by the overexpression of Brn-3a in dorsal root ganglion in vivo in a model of sciatic nerve injury in the intact animal.
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PMID:Brn-3a activates the expression of Bcl-x(L) and promotes neuronal survival in vivo as well as in vitro. 1127 42

The cellular Brn-3a transcription factor is known to activate transcription of the genes encoding the human papilloma virus E6 and E7 proteins and is over-expressed in women with cervical neoplasia. We show that cervical cell lines with reduced Brn-3a expression show a greatly reduced ability to form tumours in nude mice compared to control cells and also show reduced expression of the HPV E6 and cellular Bcl-2 oncogenes. These effects are also observed in cervical cells over-expressing the related Brn-3b factor, which is known to antagonize activation of HPV gene expression by Brn-3a. These results demonstrate, for the first time, that inhibition of Brn-3a expression or enhanced Brn-3b expression can inhibit cervical cell-derived tumour growth in vivo as well as in vitro. Hence they establish Brn-3a as a key factor in cervical tumorigenesis and as a potential therapeutic target in human cervical neoplasia.
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PMID:The Brn-3a transcription factor plays a key role in regulating the growth of cervical cancer cells in vivo. 1152 Dec 2

The Brn-3a transcription factor stimulates the expression of the anti-apoptotic Bcl-2 and Bcl-x proteins and protects neuronal cells from apoptosis. Here we show that a minimal Bcl-x promoter is activated by Brn-3a and that this stimulation is prevented by the pro-apoptotic p53 protein. Both these effects are mediated via Bcl-x promoter sequences, which are indistinguishable from those required for minimal basal promoter activity. A newly described upstream Bcl-x promoter is also activated by Brn-3a with this activation being prevented by p53. Hence, Brn-3a-mediated activation of two distinct Bcl-x promoters and of the Bcl-2 promoter is blocked by p53 whereas this is not observed for Brn-3a activated promoters derived from genes not involved in inhibiting apoptosis. p53 therefore appears to specifically target the activation by Brn-3a of promoters derived from genes with an anti-apoptotic effect and this may be involved in the pro-apoptotic activity of p53.
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PMID:A minimal Bcl-x promoter is activated by Brn-3a and repressed by p53. 1171 2

We have previously shown that the anti-apoptotic transcription factor, Brn-3a and the pro-apoptotic p53 factor have antagonistic effects on the promoter of the gene encoding the anti-apoptotic Bcl-2 protein, with p53 abolishing activation by Brn-3a. Here we demonstrate that this antagonism is also observed on the gene encoding the pro-apoptotic Bax protein with Brn-3a abolishing the ability of p53 to activate the Bax promoter and induce Bax protein expression. In contrast, Brn-3a and p53 co-operative to induce maximal activation of another p53 target gene encoding the cyclin dependent kinase inhibitor, p21(CIP1/Waf1). These differential effects of Brn-3a on p53-inducible genes involved in apoptosis or growth arrest are paralleled by its effects on these processes themselves. Thus, we show that Brn-3a antagonises the anti-apoptotic effect of p53 but co-operates with p53 to induce cell cycle arrest. The potential role of Brn-3a in determining the outcome of enhanced p53 levels is discussed.
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PMID:The Brn-3a transcription factor inhibits the pro-apoptotic effect of p53 and enhances cell cycle arrest by differentially regulating the activity of the p53 target genes encoding Bax and p21(CIP1/Waf1). 1220 24

Brn-3a, a member of the POU gene family (so-called because of the similarity with the group of transcription factors Pit, Oct, and Unc), was found in neuronal cells engaged in the transcription activity of the p1 and p2 promoters of the most powerful antiapoptotic gene, namely, Bcl-2. The alternative splicing of Brn-3a mRNA produces two molecular forms: a longer, Bcl-2 transactivating form, and a shorter inactive form, lacking 84 AA in the aminoterminus. In neuronal cells, following Brn-3a gene transfection and superexpression, an increase of 30 fold of the Bcl-2 protein occurs, leading to apoptosis protection. However, recent works demonstrate that Brn-3a expression is not restricted to neuronal cells, as its activity was detected also in cancer cells of non-neuronal nature. Looking for mechanisms linking Brn-3a to carcinogenesis, we discuss the role of this transcription factor in influencing Bcl-2/p53 antagonism and Bcl-2/VEGF induction of tumor angiogenesis, concluding this review with a proposal for the oncogenic nature of Brn-3a.
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PMID:Brn-3a, a neuronal transcription factor of the POU gene family: indications for its involvement in cancer and angiogenesis. 1240 60


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