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)

Induction of differentiation in M1 myeloid leukemic cells by the hematopoietic cytokines interleukin 6 and granulocyte-colony stimulating factor, or by the glucocorticoid dexamethasone, was associated with down-regulation of the apoptosis inhibiting gene bcl-2. The cytokine treated leukemic cells showed an increased sensitivity to induction of apoptotic cell death by the cancer chemotherapy compounds Adriamycin and cytosine arabinoside and by heat shock and cycloheximide. Dibutyryl cyclic AMP neither induced differentiation nor down-regulated bcl-2 expression, but it sensitized the cells to induction of apoptosis by some of these agents. Although dexamethasone induced differentiation and down-regulated bcl-2 expression, it did not sensitize the cells to induction of apoptosis and inhibited the apoptosis sensitizing effect of the cytokines and dibutyryl cyclic AMP. Dexamethasone did not inhibit induction of apoptosis by wild-type p53 or viability factor withdrawal. The apoptosis sensitizing effect of the cytokines and dibutyryl cyclic AMP was reversible upon their withdrawal.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Control of sensitivity to induction of apoptosis in myeloid leukemic cells by differentiation and bcl-2 dependent and independent pathways. 751 74

p53 tumor suppressor protein is required for efficient execution of apoptosis after DNA-damage in many cell systems. Since the oncogene E1a confers susceptibility to DNA-damaging agents and stabilizes p53 protein, we investigate whether the sensitivity to anticancer drugs of E1a-expressing cells was mediated by binding to a specific set of cellular proteins (p60, p105, p107 and p300) and related to the induction of apoptosis and the level of p53 protein. We studied the effect of cisplatin (CDDP), doxorubicin (DOX) and ionizing radiation (RX) on murine keratinocytes (PAM 212) transfected by the wild type E1a oncogene or several E1a mutants which bind to different subsets of cellular proteins. Keratinocytes transfected with the mutant d1787N (which binds to p60, p105, p107 and p300) showed a lethality in response to CDDP (10 micrograms ml-1) fourfold higher than controls and threefold higher in response to DOX and radiation (5 grays). The sensitivity of keratinocytes carrying the mutant NTd1598 (binding to p105, p107 and p60) to DNA-damaging agents was similar to that of control keratinocytes, while mutant d1922/947 (binding only to p300) were resistant to CDDP and RX but sensitive to DOX. Apoptosis (after 24 h) studied by DNA fragmentation and flow cytometry was only observed in cells carrying the wild type E1a or the mutant d1787N. After treatment with DNA-damaging agents, p53 protein expression increased in all the cell lines and no rE1ation to sensitivity to anticancer agents or induction of apoptosis was observed. From these results, we conclude that cell sensitivity to cisplatin and ionizing radiation induced by the E1a oncogene requires binding to p105, p107 and p300 cellular proteins, while sensitivity to Doxorubicin requires binding only to p300. Interestingly, p53 protein levels were related to the binding to the p300 protein. The high levels of p53 after CDDP and DOX in the mutant d1922/947, which are only sensitive to DOX, suggest that E1a oncogene products may induce sensitivity to DNA-damaging agents by p53-related and unrelated pathways.
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PMID:Lack of correlation between p53 protein level and sensitivity of DNA-damaging agents in keratinocytes carrying adenovirus E1a mutants. 765 31

The cytotoxicity of Doxorubicin and cis-dichloro-diammine-platinum (DDP) was evaluated in clones, obtained from a human ovarian cancer cell line transfected with a temperature-sensitive p53 mutant, which express mutant p53 at 37 degrees C and wild-type-like p53 at 32 degrees C. DDP was equally active in cells not expressing p53 (SKN) or cells expressing a mutated form of p53 (SK23a kept at 37 degrees C) or a wild-type-like form of p53 (SK23a cells kept at 32 degrees C). In contrast, Doxorubicin was less cytotoxic in cells expressing wild-type p53 than in cells expressing no p53 or mutated p53. This reduction was not due to a decreased intracellular accumulation or to a faster efflux of Doxorubicin. Topoisomerase II was found to be present in the same amount in all the systems utilized and to be functionally active, thus not accounting for the observed effect of Doxorubicin. A clear induction of WAF1/CIP1 and GADD45 genes in cells expressing wild-type p53 after Doxorubicin treatment was found. DDP, which was equally active in the cells utilized, caused an increase in the transcription only of GADD45 gene but not of WAF1/CIP1 gene. Doxorubicin was also able to induce the transcription of WAF1/CIP1 gene in SKN cells (not expressing p53) or in SK23a cells at 37 degrees C (expressing mutated p53), indicating that the expression of this gene also, in some tumor-cell lines, is not necessarily or uniquely induced by wild-type p53.
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PMID:Decreased cytotoxic effects of doxorubicin in a human ovarian cancer-cell line expressing wild-type p53 and WAF1/CIP1 genes. 772 53

Drugs used in anti-cancer chemotherapy are thought to exert their cytotoxic action by induction of apoptosis. Genes have been identified which can mediate or modulate this drug-induced apoptosis, among which are c-myc, p53 and bcl-2. Since expression of oncogenic ras genes is a frequent observation in human cancer, we investigated the effects of the c-H-ras oncogene on anti-cancer drug-induced apoptosis. Apoptosis induced by a 2 h doxorubicin exposure was measured by in situ nick translation and flow cytometry in a rat cell line (R2T24) stably transfected with the c-H-ras oncogene and in a control cell line (R2NEO) transfected only with the antibiotic resistance gene neo. Both cell lines (R2T24 and R2NEO) had nearly identical growth characteristics, including cell doubling time, distribution over the cell cycle phases and plating efficiency in soft agar. Doxorubicin exposure of the R2NEO cells led to massive induction of apoptosis. In contrast, R2T24 cells, expressing the c-H-ras oncogene, showed significantly less apoptosis after doxorubicin incubation. Doxorubicin induced approximately 3- to 5-fold less cytotoxicity in the R2T24 cells than in the R2NEO cells, as determined by clonogenic assay in soft agar. No difference was observed in intracellular doxorubicin accumulation between the two cell lines, indicating that the classical, P-glycoprotein-mediated multidrug resistance phenotype is not involved in the observed differences in drug sensitivity. In conclusion, our data show that constitutive expression of the c-H-ras oncogene suppresses doxorubicin-induced apoptosis and promotes cell survival, suggesting that human tumours with ras oncogene expression might be less susceptible to doxorubicin treatment.
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PMID:Constitutive expression of the c-H-ras oncogene inhibits doxorubicin-induced apoptosis and promotes cell survival in a rhabdomyosarcoma cell line. 788 Jul 39

We have investigated the effect of chemotherapeutic and DNA damaging agents on binding of the tumor suppressor phosphoprotein p53 to its consensus DNA sequence. Activation of p53-DNA binding was seen for treatment with radiation, hydrogen peroxide, actinomycin D, Adriamycin, etoposide, camptothecin, 5-fluorouracil, mitomycin C, and cisplatin. These results showed that DNA strand breaks were sufficient to lead to increased levels of p53. The protein synthesis inhibitor cycloheximide blocks the increase in p53 following DNA damage. The increase in p53 activation in camptothecin treated cells may result, at least in part, from an increased half-life of the protein and consequent increases in intracellular protein concentration.
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PMID:Increases in sequence specific DNA binding by p53 following treatment with chemotherapeutic and DNA damaging agents. 848 5

The WAF1/CIP1 protein has been identified as a downstream mediator of the tumor suppressor p53 in regulating cell cycle progression through a G1-phase check-point. Recent work has implicated the functional status of p53 as a critical determinant in the apoptotic response of certain cell lines to DNA damaging agents. By using human T-cell leukemia virus type I-transformed lymphoid cell lines that differ in their level and function of wild-type p53, we investigated the induction of WAF1/CIP1 and apoptosis after exposure to Adriamycin, a genotoxic agent. We found that regardless of the p53 status in these cell lines, WAF1/CIP1 RNA was rapidly induced in response to Adriamycin treatment. An elevated level of WAF1/CIP1 protein was observed as well. Additionally, we demonstrated that apoptosis was induced in all cell lines analyzed despite some having functionally inactive p53 protein. Our data suggest that a p53-independent pathway may play a role in the apoptotic response observed in some cell lines after exposure to DNA damaging agents.
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PMID:Induction of the WAF1/CIP1 protein and apoptosis in human T-cell leukemia virus type I-transformed lymphocytes after treatment with adriamycin by using a p53-independent pathway. 855 18

Deficiency in p53-mediated cell death is common in human cancer, contributing to both tumorigenesis and chemoresistance. In an attempt to restore p53, we evaluated in vitro infectivity and cytotoxicity of a wild type (w.t.) p53-expressing adenovirus (Ad-p53) toward a panel of human cancer cell lines (n = 19). At a multiplicity of infection of 30, both Ad-p53 and adenovirus expressing beta-galactosidase (Ad-LacZ) infected greater than 99% of cells derived from brain, lung, breast, ovarian, colon, and prostate cancer, but failed to infect leukemia or lymphoma cells. Ad-p53, but not Ad-LacZ, infection of cancer cells was followed by nuclear accumulation of the CDK inhibitor p21WAFI/CIPI, cell cycle arrest and loss of viability. Ad-p53 induced apoptotic death in cancer cells that express mutant p53, including multi-drug resistant cells, but fewer deaths were observed in some w.t. p53 expressing cells. Ad-p53-infected SKBr3 breast cancer cells were more sensitive to cytotoxicity of the DNA damaging drugs mitomycin C or Adriamycin, but not the M-phase specific drug vincristine. Our results suggest that Ad-p53 is capable of infecting and killing cancer cells of diverse tissue origins (including multi-drug resistant cancer cells), that p21WAFI/CIPI may be a useful marker of p53 infectivity and that there may be synergy between Ad-p53 and either mitomycin C or Adriamycin induced cell death in tumors with p53 mutations.
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PMID:In vitro evaluation of a p53-expressing adenovirus as an anti-cancer drug. 870 13

Recent studies have hinted that there may be a relationship between p53 and the immune response. In preliminary experiments, we found significantly decreased levels of immunoglobulin deposition in 13 of 16 p53-null tumors compared with 2 of 17 tumors derived from p53 +/- mice. We further explored the effect of p53 on B-cell development and function. p53-null mice contained more splenic white pulp and more immature B cells in the bone marrow compared with p53 +/- mice. p53-null B cells were hyperresponsive to proliferative challenge but were not more resistant to signal-induced apoptosis. Several p53 DNA-binding sites were localized to the regulatory regions of immunoglobulin heavy and light chain genes, including the KII site, which serves as an enhancer for rearrangement of the mouse kappa chain J cluster genes. Levels of p53 protein and the kappa chain sterile transcript increased after exposure of pre-B cells to the DNA damaging agents etoposide and Adriamycin. Our observations suggest that p53 may be involved in B-cell maturation and may relay certain stress signals to affect B-cell function.
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PMID:Decreased immunoglobulin deposition in tumors and increased immature B cells in p53-null mice. 904 Sep 34

Doxorubicin (Dox, Adriamicin), a potent broad spectrum anthracycline anticancer drug, selectively inhibits muscle specific gene expression in cardiac cells in vivo and prevents terminal differentiation of skeletal muscle cells in vitro. By inducing the expression of the helix-loop-helix (HLH) transcriptional inhibitor ld2, Dox represses the myogenic function of the MyoD family of muscle regulatory factors (MRFs). In many cell types, terminal differentiation is coupled to an irreversible exit from the cell cycle and MyoD plays a critical role in the permanent cell cycle arrest of differentiating myocytes by upregulating the cyclin dependent kinase inhibitor (cdki) p21. Here, we correlate Dox effects on cell cycle with changes of E2F/DP complexes and activity in differentiating C2C12 myocytes. In Dox-treated quiescent myoblasts, which fail to differentiate into myotubes under permissive culture conditions, serum re-stimulation induces cyclin/cdk re-association on the E2F/DP complexes and this correlates with an evident increase in E2F/DP driven transcription and re-entry of myoblasts into the cell cycle. Despite Dox ability to activate the DNA-damage dependent p53/p21 pathway, when induced in the absence of MyoD or other MRFs, p21 fails to maintain the postmitotic state in Dox-treated myocytes induced to differentiate. Thus, uncoupling p21 induction and MyoD activity results in a serum-reversible cell cycle arrest, indicating that MRF specific activation of cdki(s) is required for permanent cell cycle arrest in differentiating muscle cells.
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PMID:Uncoupling of p21 induction and MyoD activation results in the failure of irreversible cell cycle arrest in doxorubicin-treated myocytes. 921 25

The relationship between chemosensitivity and p53 is currently considered from two mutually exclusive points of view: (1) wt p53 increases chemosensitivity due to apoptosis and (2) wt p53 decreases chemosensitivity due to growth arrest and DNA repair. We used p53-expressing adenovirus (Ad-p53) to directly evaluate effect of p53 on sensitivity to anticancer drugs. When p53 was expressed at sublethal levels, it sensitized cells to the DNA-damaging drugs Adriamycin, mitomycin C, actinomycin D, etoposide (VP16), cisplatin and CPT11. This sensitization was observed in cancer cell lines (N=10) regardless of endogenous p53 status and also in normal human lung and skin fibroblasts. The degree of sensitization appeared to be greater in cancer cells with mutant p53. Normal fibroblasts required significantly higher doses of Ad-p53 to affect a drug's sensitivity partly because of their lower infectivity by adenovirus. Wt p53 not only decreased IC50 but also accelerated cell death induced by DNA-damaging drugs. In contrast, sensitization to microtubule-active drugs by p53 was shown only in a few cell lines. We conclude that exogenous wt p53 accelerates cell death induced by DNA damaging agents in both normal and cancer cells and offers no protection from anticancer drugs.
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PMID:Acute overexpression of wt p53 facilitates anticancer drug-induced death of cancer and normal cells. 950 40

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