UNIPROT:P04637 - FACTA Search

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Query: UNIPROT:P04637 (p53)
77,613 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

DNA-damaging agents such as ionizing radiation (IR) activate the tumor suppressor p53 and in some cases can cause apoptosis. M1 cells, which do not express the endogenous tumor suppressor gene p53, undergo apoptosis following activation of a temperature sensitive p53 transgene, where it has been shown that bax, an important mediator of apoptosis, is a p53 target gene (Selvakumaran et al, Oncogene 9, 1791-8, 1994). Since p53 can function as a transcription factor after activation by IR, the genetic response to this stress was examined in a panel of human cells with defined p53 status. Like the p53-regulated gene gadd45, bax was rapidly induced, as measured by increased mRNA levels, in the p53 wt (wild type) human myeloid line ML-1, and it was not induced in cells lacking functional p53. However, unlike other p53-regulated genes, bax was only induced in p53 wt cells in which IR also triggered apoptosis. In the case of bcl2, which opposes bax function, mRNA levels were reduced in ML-1 cells after IR. Thus, bax appears to be an unique p53-regulated gene in that its induction by IR not only requires functional p53 but also requires that the cells be apoptosis "proficient."
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PMID:Induction of bax by genotoxic stress in human cells correlates with normal p53 status and apoptosis. 797 Jul 35

Recently, both Bcl-2, which promotes cell survival, and Bax, which promotes cell death, have been implicated as major players in the control of apoptotic pathways, and it has been suggested that the ratio of Bcl-2 and Bax protein controls the relative susceptibility of cells to death stimuli. We have used M1 myeloid leukemia cells and genetically engineered M1 variants as a model system to study apoptosis induced by two distinct apoptotic stimuli. This includes apoptosis induced by activation of wild type p53 function of a temperature sensitive p53 transgene expressed in M1 cells, which do not express endogenous p53, and apoptosis induced by TGF beta 1. It is shown that the kinetics of apoptosis induced by p53 is more rapid than apoptosis induced by TGF beta 1. It is also shown that ectopic expression of Bcl-2, at levels which blocked TGF beta 1-induced apoptosis of M1 cells, delayed, but did not block, p53-induced apoptosis. Both p53 and TGF beta 1 down-regulated endogenous Bcl-2 expression, but only p53 up-regulated Bax expression, where bax has been identified as a p53 immediate early response gene. Thus, the p53-mediated up-regulation of Bax may provide at least a partial explanation for the more rapid rate of apoptosis induced by p53 compared to by TGF beta 1, as well as for the ineffectiveness of ectopoic Bcl-2 to abrogate p53-mediated apoptosis. These findings provide first insights to the molecular mechanisms which mediate p53-induced apoptosis, identifying bax and bcl-2 as p53 regulated genes, and serve as a paradigm of how the intracellular balance of Bcl-2 to Bax is differentially altered by distinct death stimuli.
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PMID:Immediate early up-regulation of bax expression by p53 but not TGF beta 1: a paradigm for distinct apoptotic pathways. 818 78

The p53 tumor suppressor gene product can induce apoptotic cell death through an unknown mechanism. Here we demonstrate that a temperature-sensitive p53 induces temperature-dependent decreases in the expression of the apoptosis-suppressing gene bcl-2 in the murine leukemia cell M1, while simultaneously stimulating increases in the expression of bax, a gene which encodes a dominant-inhibitor of the Bcl-2 protein. Mice deficient in p53 exhibit increases in Bcl-2 and decreases in Bax protein levels in several tissues as determined by immunohistochemical and immunoblot methods. The findings suggest a potential mechanism by which p53 regulates apoptosis, as well as responses to radiation and chemotherapeutic drugs in cancer.
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PMID:Tumor suppressor p53 is a regulator of bcl-2 and bax gene expression in vitro and in vivo. 818 79

We have earlier shown that wild-type (wt) p53 expressed from a temperature-sensitive construct (ts p53) triggers apoptosis in the v-myc retrovirus-induced, p53-negative T-cell lymphoma line J3D (Y. Wang et al., Cell Growth & Differ., 4: 467-473, 1993). We also found that constitutive bcl-2 expression inhibits wt p53-triggered apoptosis in these cells (Y. Wang et al., Oncogene, 8: 3427-3431, 1993). Here we demonstrate that more than 90% of the ts p53-transfected J3D cells were arrested in G1 at 18 h after induction of wt p53 expression by temperature shift to 32 degrees C. At this time, at least 80% of the cells remained viable. After 30 h at 32 degrees C, around 50% of the cells had died by apoptosis, while most of the remaining cells were still alive in G1, indicating that p53-induced apoptosis occurred following G1 arrest. The G1 cell cycle arrest at 18 h after temperature shift to 32 degrees C was reversible, as shown by the fact that the cells readily resumed exponential growth following temperature shift back to 37 degrees C, although viability dropped from around 80 to 65%. Expression of both WAF1 and bax mRNA was induced by wt p53 in both the ts p53 and ts p53/bcl-2 transfected cells. The kinetics of G1 cell cycle arrest at 32 degrees C was similar in both the ts p53 and the ts p53/bcl-2 double transfectants.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:bcl-2 inhibits wild-type p53-triggered apoptosis but not G1 cell cycle arrest and transactivation of WAF1 and bax. 851 83

Loss of or mutations in p53 protein have been shown to decrease both radio- and chemosensitivity. The present study assessed the p53 gene status, ability to arrest in G1 of the cell cycle, the functionality of the p53 transduction pathway, and apoptosis following treatment with radiation in a series of drug-resistant human breast cancer cells to determine whether p53 alterations occur during the development of drug resistance. We used 13 sublines derived from MCF-7, ZR75B, and T47D cells, which were resistant to doxorubicin, paclitaxel, vinblastine, cisplatin, etoposide, and amsacrine. Eleven of 12 drug-resistant sublines retained the parental p53 gene status, as determined by sequence analysis and functional yeast assay; only one subline was found to have acquired a mutation in the p53 gene. The MCF-7 TH subline was found to both acquire mutated p53 and to have major changes in p53 protein expression and function. In 12 other drug-resistant sublines, the G1 checkpoint was conserved or only slightly impaired. A normal accumulation of p53, p21Cip1/Waf1, and Mdm2 proteins and hypophosphorylation of Rb protein occurred in response to radiation with only small differences noted in the kinetics of p53 and p21Cip1/Waf1 induction. Increased susceptibility to apoptosis was found in the ZR75B drug-resistant sublines, whereas no evidence for apoptosis was observed in the ZR75B, MCF-7, and T47D parentals and the MCF-7 and T47D drug-resistant sublines. This effect could not be explained by alterations in bcl-2 or bax expression. Our results demonstrate that alterations in: (a) p53 gene status; (b) ability to arrest in G1; (c) induction of p53 protein and p53-dependent genes; and (d) decreased activation of apoptosis is not a requirement for the onset of drug resistance. The function of p53 appears to be dissociated from drug resistance in our model system.
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PMID:Normal p53 status and function despite the development of drug resistance in human breast cancer cells. 856 78

P53 status may be a determinant of chemosensitivity of tumor cells; however, its involvement in cellular resistance to cisplatin remains uncertain. To investigate the relationships between p53 and the development of resistance to cisplatin, the p53 gene status was studied in ovarian carcinoma cell systems which included two cisplatin-resistant variants (IGROV-1/Pt 0.5 and IGROV-1/Pt 1) selected in vitro after prolonged drug exposure of the cisplatin-sensitive parental IGROV-1 cell line. IGROV-1/Pt 0.5 and IGROV-1/Pt 1 cell lines exhibited a degree of resistance of approximately 6 and 14, respectively, following 96-h exposure to the drug and were cross-resistant to other DNA-damaging agents (ionizing radiation and melphalan). Resistance to cisplatin paralleled a reduced cell susceptibility to cisplatin-induced apoptosis. DNA single-strand conformation polymorphism analysis of exons 5-9 demonstrated the presence of two mutants alleles at exon 8 in the two resistant cell lines, in contrast to the parental IGROV-1 cell line which exhibited the wild-type p53 gene. Direct DNA sequencing revealed that the mutations consist of two nucleotide changes in the DNA-binding domain at codons 270 (T/A) and 282 (C/T). The consecutive levels of p53 protein were lower in IGROV-1 than in IGROV-1/Pt cells. Following exposure to ionizing radiation or cisplatin, accumulation of the p53 protein was markedly enhanced only in the sensitive cells. Concomitantly, the expression of WAF-1 protein was strongly induced in the parental IGROV-1 cells, whereas WAF-1 protein remained undetectable in the IGROV-1/Pt 1 subline after DNA-damaging treatment. Consistent with this finding is the observation that ionizing radiation caused a different pattern of cell cycle perturbation in sensitive and resistant cells. Northern blot analysis demonstrated a marked reduction in bax mRNA levels in IGROV-1/Pt 1 cisplatin-resistant cells. Cotransfection assays with wild-type or mutant p53 expression plasmids and a reporter gene plasmid that utilized the bax gene promoter to drive transcription of chloramphenicol acetyltransferase were consistent with the role of p53 in regulation of bax expression in these cells. Taken together, these observations support a role for mutations of the p53 gene in the development of cisplatin resistance in ovarian cancer as a consequence of loss of the ability of p53 to transactivate bax, an apoptosis-inducing gene.
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PMID:Association between cisplatin resistance and mutation of p53 gene and reduced bax expression in ovarian carcinoma cell systems. 856 71

The p53 tumour-suppressor guards the genome in response to genotoxic stress by transcriptional regulation of genes involved in cell-cycle control, DNA replication, repair and apoptosis such as p21, GADD45, bax and mdm2 (Cox and Lane, 1995). Mdm2 is classically considered to be an inhibitor of p53, that forms an auto-regulatory loop (Momand et al., 1992; Oliner et al., 1993; Wu et al., 1993; Chen et al., 1994; Chen and Levine, 1995). It immortalises cells containing wild type p53 and transforms them together with Ras (Finlay, 1993). We show that, in the absence of p53, mdm2 confers a growth advantage to cells (i.e. "transforms" them) and can overcome a G1 cell-cycl arrest induced by p107, a member of the pRb tumour-suppressor family (Adams and Kaelin, 1995). The minimum "transforming" and p107 inhibiting region of Mdm2 corresponds to its p53 binding domain. p53 inhibits transformation by Mdm2, apparently without requiring transcription. p53 can be considered to be a suppressor of Mdm2, a positive effector of the cell cycle. Mdm2 over-expression in tumours is reminiscent of p53 mutations with gain of function, in that Mdm2 both transforms cells and inhibits p53 activity.
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PMID:MDM2 transformation in the absence of p53 and abrogation of the p107 G1 cell-cycle arrest. 857 Jan 97

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.
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PMID:The E1B 19K protein blocks apoptosis by interacting with and inhibiting the p53-inducible and death-promoting Bax protein. 860 29

Our previous data have shown that isolated leukemic cells from progressive chronic lymphocytic leukemia (B-CLL) patients respond to growth stimulation in vitro and express high levels of p53, immunoreactive with the configuration-specific antibody PAb 240. We have now analyzed the in vitro survival of B-CLL cells in relation to Bcl-2, Bax alpha and p53 expression and compared this with the clinical progression of the disease. Leukemic cells from patients with progressive disease demonstrated higher in vitro survival, compared with non-progressive B-CLL and normal B cells. All cells were sensitive to treatment with a combination of glucocorticoid and cAMP. Bcl-2 protein levels were not related to clinical progression, as measured by flow cytometry. Competitive PCR showed that Bcl-2 mRNA was over-expressed in most of the B-CLL samples and that p53 mRNA expression was similar between B-CLL groups and normal values and thus not related to clinical progression. However, since Bax alpha expression was lower in progressive than in non-progressive patients, the Bcl-2/Bax alpha ratio at the mRNA level was significantly higher in the progressive group. Our data suggest that the Bcl-2/Bax alpha ratio is important for the regulation of B-CLL cell survival, that p53 over-expression in progressive B-CLL is the result of post-transcriptional modifications and that a directed PKA activation may potentiate the cytolytic effect of glucocorticoids in vivo.
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PMID:Bcl-2, Bax and p53 expression in B-CLL in relation to in vitro survival and clinical progression. 860 78

As a first step towards elucidating the potential role(s) of bcl-2 and bcl-2-related genes in lung tumorigenesis and therapeutic responsiveness, the expression of these genes has been examined in a panel of lung cancer cell lines derived from untreated and treated patients, and in cell lines selected in vitro for multidrug resistance. Bcl-2 was hyperexpressed in 15 of 16 small-cell lung cancer (SCLC) cell lines and two of five non-small-cell lung cancer (NSCLC) lines compared with normal lung and brain, and hyperexpression was not chemotherapy related. Bcl-x was hyperexpressed in the majority of SCLC and NSCLC cell lines as compared with normal tissues, and all lung tumour lines preferentially expressed bcl-x1-mRNA, the splice variant form that inhibits apoptosis. Bax gene transcripts were hyperexpressed in most SCLC and NSCLC cell lines examined compared with normal adult tissues. Mutant p53 gene expression was detected in the majority of the cell lines and no relationship between p53 gene expression and the expression of either bcl-2, bcl-x or bax was observed. No changes in bcl-2, bcl-x and bax gene expression were observed in multidrug-resistant cell lines compared with their drug-sensitive counterparts.
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PMID:Expression of apoptosis-regulatory genes in lung tumour cell lines: relationship to p53 expression and relevance to acquired drug resistance. 863 Feb 78

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