Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:B6E4X6 (mutant p53)
 3,342 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Previous studies have shown that the apoptotic response of cells following DNA damage requires p53 expression. Wild-type p53 protein levels increase in response to DNA damage and its growth-suppressive action is thought to be mediated by transcriptional activation of the p21/WAF1/CIP1 gene, the product of which is a potent inhibitor of cyclin-dependent kinases. The mechanism by which elevated p53 levels lead to apoptosis is not known, but is believed to involve transcriptional activation of apoptotic genes, such as BAX. We have studied transformed human cells that constitutively express high levels of the R273H mutant p53, which has been reported to lack transcriptional activation activity. We used the inability to induce the p21/Waf1/Cip1 protein as a marker to verify the lack of transcriptional activation activity. Cells expressing the R273H mutant of p53 do not show an increase in p21/Waf1/Cip1 following irradiation with ionizing or UVB radiation. Surprisingly, these cells are very susceptible to induction of apoptosis by UVB radiation, as seen by the formation of a nucleosomal ladder and the proteolytic cleavage of poly(ADP-ribose) polymerase. This suggests that the R273 mutant p53 can function normally in apoptosis but not in transcriptional activation following DNA damage. Furthermore, an inhibitor of RNA polymerase II is a potent inducer of apoptosis in these cells, demonstrating that transcription is not required for apoptosis and suggesting that stalled RNA polymerase II complexes can initiate apoptosis. Interestingly, proteolytic cleavage of p53 occurs during apoptosis in these cells, generating a 45-kDa fragment and liberating the DNA repair helicase binding domain of p53. We propose that the peptide liberated from the carboxy terminus of p53 may contribute to its apoptotic activity, possibly through interaction with the XPB and XPD DNA helicases.
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PMID:The apoptotic and transcriptional transactivation activities of p53 can be dissociated. 949 57

Many genes participate in the regulation of cell cycle progression from G1 to S phase. Functional loss of one or more of these genes has been reported to be associated with carcinogenesis and/or tumor progression and poor prognosis in many cancers. In a series of 126 patients with hepatocellular carcinoma (HCC), we immunohistochemically evaluated tumor expression of the cell cycle-related gene protein products of Rb, p21 (WAF1), and p53. Positive immunostaining for Rb, p21, and mutant p53 protein was detected in 58%, 33%, and 37% of the tumors, respectively. The proportion of HCCs exhibiting aberrant p53 protein expression increased significantly with advancing stage of disease (p < 0.001), poorer histological classification of differentiation (p < 0.01), and increasing tumor size (p < 0.01). A decrease in the proportion of HCCs expressing p21 protein was also associated with advancing clinical stage of disease (p < 0.01), and larger tumor size (p < 0.05). The only clinicopathological feature found to be associated with Rb status, was intrahepatic metastasis, which occurred with a higher frequency in HCCs exhibiting positive immunoreactivity for Rb protein expression (p < 0.05). Multivariate survival analysis revealed that, amongst the protein products of the different genes evaluated, only positive immunostaining for aberrant p53 protein expression served as an independent prognostic indicator, being significantly associated with worse survival in patients with HCC (p = 0.023). Analysis for relationships between gene products showed an inverse correlation between expression of aberrant p53 protein and p21 protein (p < 0.01), and also an inverse correlation between p21 protein and Rb protein expression (p < 0.05) in these cases of HCC. These findings demonstrate that positive immunostaining for mutant p53 protein expression is a significant indicator of tumor progression and poor prognosis, confirm that p21 protein expression is induced in a p53-dependent manner, and suggest that Rb protein expression may be regulated to some extent by p21 in HCC.
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PMID:Protein expression of p53, p21WAF1, and Rb as prognostic indicators in patients with surgically treated hepatocellular carcinoma. 956 77

Loss of wild-type p53 activity is thought to be a major predictor of failure to respond to radiotherapy and chemotherapy in various human cancers. This assumption is largely based on some cell-death studies in p53-knockout mice and on correlations of p53 status assessed by immunochemistry or single-strand conformational polymorphism (SSCP) analysis, and responses to therapy in human cancers in vivo. In principle, p53 may enhance chemosensitivity by promoting apoptosis via transcription-independent mechanisms as well as transcriptional activation of proapoptotic genes such as bax and transcriptional repression of antiapoptotic genes such as bcl-2. Drug-induced suicide mediated by the CD95/CD95 ligand system may also involve a p53-controlled pathway. Yet, p53 may decrease chemosensitivity by promoting p21-mediated and p21-independent growth arrest, DNA repair, and differentiation, and by enhancing the transcription of antiapoptotic genes such as bcl-x. Cell-culture work indicates that the effects of altering the p53 status on chemosensitivity depend very much on the cellular context. Disruption of p53 function in otherwise normal, nonneoplastic cells may enhance rather than decrease chemosensitivity. However, targeted p53 gene disruption in some cell types obtained from p53-knockout mice results in enhanced rather than decreased sensitivity, e.g., to irradiation. Transformed cells that have retained wild-type p53 function tend to acquire chemoresistance when p53 function is disabled, with few exceptions. Thus, preexisting molecular alterations or consecutive accumulation of molecular alterations after loss of p53 rather than the loss of wild-type p53 activity per se may confer chemoresistence to tumor cells. Moreover, p53 accumulation resulting from the increased half-life of mutant p53 proteins can act as a gain-of-function mutation, presumably as a consequence of multiple protein-protein interactions. Finally, significant tumor cell-type- and drug-specific patterns of modulation of chemosensitivity by p53 are beginning to emerge. Transfer of wild-type p53 genes into tumor cells commonly induces growth arrest but may render these cells relatively more resistant to most chemotherapeutic drugs. Therefore, careful experimental in vitro and in vivo studies are required before chemotherapy-supported p53 gene therapy for human cancer is introduced into clinical practice.
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PMID:Predicting response to cancer chemotherapy: the role of p53. 958

p21 (p21WAF1/Cip1), a cyclin-dependent kinase inhibitor, induces G1 arrest and can inhibit the activity of the proliferating cell nuclear antigen (PCNA). We analyzed p21 expression during colorectal tumorigenesis, its association with its transcriptional regulator p53, and its relationship to rates of cell proliferation and apoptosis. p21 and p53 protein expression were examined in sporadic tumors and hereditary nonpolyposis colorectal cancers (HNPCCs) by immunohistochemistry (IHC) and immunoblotting. Apoptosis was examined using a DNA nick end-labeling assay, and cell proliferation was examined by PCNA staining. In normal colorectal epithelia, nuclear p21 staining was uniformly detected in crypt cells of the superficial compartment (upper one-third) that stained negatively for PCNA. p21 and PCNA expression were, therefore, mutually exclusive. In sporadic cases, a decrease in the frequency of p21 expression accompanied adenoma development and progression to carcinoma. Specifically, p21 was detected in 12 of 16 (75%) adenomas and 10 of 32 (31%) carcinomas. In contrast to sporadic cases, HNPCCs with known mutations in DNA mismatch repair genes expressed p21 in 12 of 15 (80%) carcinomas. An inverse relationship between p21 and p53 was observed wherein mutant p53 proteins were detected in 4 of 15 (27%) HNPCCs versus 22 of 32 (69%) sporadic carcinomas. Although p21+ carcinoma cells were generally negative for p53, IHC revealed that some carcinoma cells expressed both p21 and p53 proteins. Furthermore, p53-mutated SW480 colon carcinoma cells were found to coexpress p21 and p53, suggesting that p21 can also be activated by a p53-independent mechanism. No association was found between p21 or PCNA and apoptotic labeling indices in adenomas or carcinomas. In conclusion, a decrease in p21 expression accompanies neoplastic progression in sporadic cases but not in HNPCCs. This finding appears related to p53 status in that the frequency of p53 expression was significantly reduced in HNPCCs compared to sporadic cases, suggesting a difference in their molecular pathways of tumorigenesis.
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PMID:Loss of p21WAF1/Cip1 protein expression accompanies progression of sporadic colorectal neoplasms but not hereditary nonpolyposis colorectal cancers. 960 84

Monitoring the transduction efficiency is of paramount importance in gene therapy. To monitor adenovirus-mediated wild-type p53 gene transfer, we have used a quantitative assay which tests the ability of human p53 to activate transcription in yeast. Selective amplification of cellular and viral p53 transcripts followed by quantitative assessment of mutant p53 content with the assay permits measurement of the wild-type p53 transduction efficiency into SF-188, U251MG and HUG31 glioblastoma cells. One reverse transcription primer tracks the wild-type/mutant ratio of endogenous p53 mRNA (P2), and the other the wild-type/mutant ratio of both endogenous and exogenous p53 mRNA (P1). Following infection of cell lines homozygous for mutant p53, the apparent transduction efficiency calculated (tau 0 = [P1-P2]/[1 + P2]) correlated with the level of p21 expression. Transduction efficiency in heterozygous wild-type/mutant HUG31 cells increased linearly with multiplicity of infection (MOI) for tau 0 values between 0.5 and 5.9, and admixture of normal cell-derived RNA produced only a modest reduction in tau 0 value, in keeping with theoretical predictions. These results suggest that the yeast p53 functional assay may be a useful tool for monitoring p53 gene therapy.
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PMID:Monitoring adenoviral p53 transduction efficiency by yeast functional assay. 961 53

The novel early response gene p22/PRG1 is linked to cell cycle entry and the induction of proliferation in various cell types although its exact function is still unknown. The p22/PRG1 promoter region contains a 20 bp sequence matching the consensus binding motif for the tumor suppressor protein p53. Gel shift assays demonstrated that p53 specifically binds to an oligonucleotide derived from the p53 binding site of the p22/PRG1 promoter. Chloramphenicol acetyltransferase (CAT) reporter gene assays confirmed that this site confers p53-dependent transcriptional activity to the p22/PRG1 promoter. In Hela cells, p22/PRG1 promoter constructs induced CAT expression only when cotransfected with an expression plasmid for wild-type, but not for mutant p53. Similarly, CAT expression was inducible at the permissive (31 degrees C) but not at the non-permissive temperature (39 degrees C) in the rat embryo fibroblast-derived cell line clone-6 that expresses a temperature-sensitive mutant p53. Conversion of this mutant p53 to a functional p53 at the permissive temperature was accompanied by a significant increase of endogenous p22/PRG1 mRNA level in this cell line. Gamma-irradiation of rat splenocytes or doxorubicin-treatment of Hela cells increased p53 levels followed by transcriptional activation of p22/PRG1 and p21/Waf1 in parallel. Our data demonstrate that p22/PRG1 transcription is induced by p53 during p53-dependent cell cycle arrest and apoptosis. Therefore, p22/PRG1 represents a novel target for transcriptional activation by p53.
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PMID:The proliferation-associated early response gene p22/PRG1 is a novel p53 target gene. 962 14

We examined the sensitivity for cisplatin-induced apoptosis in a panel of four testicular germ cell tumour (TGCT) cell lines and monitored the cellular expression of the apoptosis-related proteins p53, Bcl-2 and Bax. Three of four TGCT cell lines (NT2, NCCIT and S2) were hypersensitive for cisplatin-induced apoptosis, while the TGCT cell line 2102 EP appeared to be resistant for cisplatin-induced apoptosis, even at relatively high drug concentrations (12.5 microM). For all four cell lines, the induction of apoptosis by cisplatin correlated with drug sensitivity in the MTT assay. The differences in chemosensitivity and induction of apoptosis could not be attributed to differences in cellular platinum accumulation, DNA platination or platinum-DNA adduct removal. We next analysed the relationship between p53 status and cisplatin-induced up-regulation of p53, and the susceptibility to cisplatin-induced apoptosis. Wild-type p53 containing NT2 and 2102 EP cells showed p53 up-regulation upon drug treatment, and NCCIT (mutant p53) and S2 (no p53 protein) cells did not. Consistently, the increase in wild-type p53 protein in NT2 and 2102 EP cells led to an increase in mRNA level of the p53 downstream gene p21/WAF/CIP, whereas mutant p53-containing NCCIT cells and p53-non-expressing S2 cells could not transactivate this p53-responsive gene. As NT2, NCCIT and S2 were readily triggered into apoptosis, while 2102 EP cells failed to undergo cisplatin-induced apoptosis, our data suggest that the presence of wild-type and/or transactivation-competent p53 might not be an absolute prerequisite for efficient induction of apoptosis in TGCT cell lines. Also endogenous levels of Bcl-2 and Bax expression did not correlate with cisplatin-induced apoptosis. In addition, the endogenous Bcl-2 and Bax expression was not affected by cisplatin treatment. The present study suggests that, at least in our panel of TGCT cell lines, hypersensitivity for cisplatin-induced apoptosis might not be necessarily correlated with the presence of wild-type p53 and is probably not associated with Bcl-2 and Bax expression.
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PMID:Expression of p53, Bcl-2 and Bax in cisplatin-induced apoptosis in testicular germ cell tumour cell lines. 963 29

Metastatic melanoma, compared with other cancers, appears to be unusual because of its low frequency of p53 mutations and prevalence of wild-type p53 protein in advanced malignancy. Here, we examined the effects of wild-type and mutated p53 (143 Val-Ala) on tumorigenic and metastatic potential of two human melanoma cell lines. The cell line UISO-MEL-4 contains wild-type p53 and is tumorigenic, whereas UISO-MEL-6 lacks p53 and produces lung and liver metastasis upon s.c. injection into athymic mice. Our study showed that UISO-MEL-4 stably transfected with wild-type p53 cDNA driven by cytomegalovirus promoter-enhancer sequences expressed high levels of p53 and p21 and formed s.c. tumours in vivo. Mutated p53 (143 Val-Ala) expression, on the other hand, inhibited tumour growth in 50% of cases and produced significantly slower growing non-metastatic tumours. Reduced tumour growth involved necrotic as well as apoptotic cell death. Inhibition of tumour growth was abrogated by the addition of Matrigel (15 mg ml(-1)). With UISO-MEL-6 cells, stably transfected with mutant p53, tumour growth was delayed and metastasis was inhibited. In soft agar colony formation assay, both wild-type and mutant p53 transfectants reduced anchorage-independent colony formation in vitro. These data suggest that mutated (143 Val-Ala) p53, which retains DNA binding and some of the transactivation functions of the wild-type p53 protein, suppresses tumorigenic and metastatic potentials of human melanoma cell lines in vivo.
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PMID:Suppression of tumorigenic and metastatic potentials of human melanoma cell lines by mutated (143 Val-Ala) p53. 964 36

We investigated the p53 status and the ability of exogenous wildtype (wt) p53 to affect chemosensitivity in three anaplastic thyroid carcinoma cell lines (BHT-101, SW-1736, and KAT-4). All three cell lines had nonfunctional p53. Treatment with mitomycin C or adriamycin did not result in accumulation of p53 or induction of p21WAF1/CIP1 or Mdm-2 and did not cause Rb dephosphorylation. BHT-101 and KAT-4 cells had mutant p53. SW-1736 cells were functionally mutant because of marked down-regulation of wt p53 messenger ribonucleic acid, representing a novel mechanism of p53 dysfunction. Infection with a p53-expressing adenovirus (Ad-p53) induced high levels of p21 and Mdm-2 proteins. In BHT-101 cells, induction of p21 and Mdm-2 was evident 10 h after infection. In KAT-4 cells, induction of p21 and Mdm-2 was observed 1 day after infection, and continued to increase over the ensuing 24 h. SW-1736 cells demonstrated intermediate kinetics. Sensitivity to the cytotoxic effect of Ad-p53 paralleled the kinetics of p21/Mdm-2 induction. BHT-101 cells were most sensitive to killing by Ad-p53, with an IC50 of less than 2 multiplicity of infection; SW-1736 cells were intermediate in sensitivity; KAT-4 cells were resistant. All three cell lines became more sensitive to adriamycin after wt p53 expression, with a 10-fold decrease in IC50 values. The latter observation may make a combination of wt p53 and chemotherapeutic drugs an attractive modality for treating anaplastic thyroid cancer.
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PMID:Effects of p53-expressing adenovirus on the chemosensitivity and differentiation of anaplastic thyroid cancer cells. 966 37

Gliomas are part of a subset of tumors in which overexpression of p53 protein in the absence of p53 gene mutation has been described. We have utilized a series of glioma cell lines to study the effects of ionizing radiation on the regulation of p53, p21, mdm2 and Rb proteins. The induction of p53 protein in glioma cell lines that overexpress wild-type p53 differs from normal control cells and glioma cell lines containing mutant p53. Alterations in the accumulation of p53 and p21 proteins are associated with diminished Rb hypophosphorylation. Gliomas that overexpress wild-type p53 also express high levels of mdm2 protein and exhibit a radiosensitivity that is intermediate between normal cells and cells with mutant p53. These findings suggest that, at least in certain glioma cell lines that over-express p53 which is wild-type in sequence, the function of p53 protein is abnormal.
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PMID:Differential p53, p21, mdm2 and Rb regulation in glioma cell lines that overexpress wild-type p53. 966 13


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