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

The tumor suppressor p53 inhibits tumor growth primarily through its ability to induce apoptosis. Mutations in p53 occur in at least 50% of human tumors. We hypothesized that reactivation of mutant p53 in such tumors should trigger massive apoptosis and eliminate the tumor cells. To test this, we screened a library of low-molecular-weight compounds in order to identify compounds that can restore wild-type function to mutant p53. We found one compound capable of inducing apoptosis in human tumor cells through restoration of the transcriptional transactivation function to mutant p53. This molecule, named PRIMA-1, restored sequence-specific DNA binding and the active conformation to mutant p53 proteins in vitro and in living cells. PRIMA-1 rescued both DNA contact and structural p53 mutants. In vivo studies in mice revealed an antitumor effect with no apparent toxicity. This molecule may serve as a lead compound for the development of anticancer drugs targeting mutant p53.
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PMID:Restoration of the tumor suppressor function to mutant p53 by a low-molecular-weight compound. 1187

The possibility that magnetic fields (MF) cause antitumor activity in vivo has been investigated. Two different experiments have been carried out on nude mice bearing a subcutaneous human colon adenocarcinoma (WiDr). In the first experiment, significant increase in survival time (31%) was obtained in mice exposed daily to 70 min modulated MF (static with a superimposition of 50 Hz) having a time average total intensity of 5.5 mT. In the second independent experiment, when mice bearing tumors were exposed to the same treatment for four consecutive weeks, significant inhibition of tumor growth (40%) was reported, together with a decrement in tumor cell mitotic index and proliferative activity. A significant increase in apoptosis was found in tumors of treated animals, together with a reduction in immunoreactive p53 expression. Gross pathology at necroscopy, hematoclinical/hematological and histological examination did not show any adverse or abnormal effects. Since pharmacological rescue of mutant p53 conformation has been recently demonstrated, the authors suggest that MF exposure may obtain a similar effect by acting on redox chemistry connected to metal ions which control p53 folding and its DNA-binding activity. These findings support further investigation aimed at the potential use of magnetic fields as anti-cancer agents.
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PMID:Increased mouse survival, tumor growth inhibition and decreased immunoreactive p53 after exposure to magnetic fields. 1189 53

Although metastatic breast cancer is responsive to radioimmunotherapy (RIT), a systemic targeted radiation modality, complete and permanent remissions are not typical with single-modality treatment. Antiangiogenic agents, which target normal, proliferating endothelial cells, have the potential to provide relatively nontoxic continuous inhibition of tumor growth by blocking new blood vessel growth and may synergize with RIT to increase efficacy. This study was designed to determine whether, and how, the cyclic Arg-Gly-Asp peptide Cilengitide (EMD 121974), which targets the alpha(v)beta(3) integrin receptor expressed on neovasculature, could increase systemic RIT efficacy of therapy in a human breast cancer tumor model having mutant p53 and expressing bcl-2. HBT 3477 breast cancer tumor response in nude mice was compared between groups of untreated mice (n = 24), Cilengitide-treated mice (n = 18), RIT (200-260 mu Ci (90)Y-labeled 1,4,7,10-tetraazacyclododecane-N,N',N",N"'-tetraacetic acid (DOTA)-peptide ChL6; n = 46), and combined modality RIT (CMRIT) using RIT and six doses of Cilengitide (250 microg/dose; n = 41). Tumor size, survival, body weight, and blood counts were monitored for efficacy and toxicity of therapy. To clarify the mechanism of synergistic effect, tumors were evaluated at selected time points through 6 days for apoptosis, proliferation, and microvessel density. Cilengitide alone did not alter tumor growth when compared with untreated mice, but CMRIT with Cilengitide increased efficacy of treatment, with the cure rate for mice that received 260 mu Ci RIT increasing from 15 to 53% (P = 0.011). Lower-dose RIT (200 mu Ci) combined with Cilengitide resulted in less increase in cures (36 compared with 25% for RIT alone; P = 0.514). Combined analysis for high- and low-dose groups demonstrated increased efficacy of CMRIT (P = 0.020). Analysis of tumors from CMRIT mice indicated significantly increased apoptosis of tumor and endothelial cells 5 days after RIT compared with tumors from mice given RIT alone. Proliferation was decreased in CMRIT tumors compared with RIT tumors at 6 days (ANOVA, P < 0.05). Microvessel density in tumors from RIT and CMRIT mice was not different. No increased toxicity attributable to Cilengitide was observed based upon pooled blood sample and no statistical increase in mortality. In conclusion, CMRIT, combining Cilengitide and RIT, significantly increased the efficacy of therapy and increased apoptosis compared with single-modality therapy with either agent, in an aggressive, well-studied breast cancer model. The enhanced therapeutic synergy is of particular note, having been achieved without additional toxicity.
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PMID:Cilengitide targeting of alpha(v)beta(3) integrin receptor synergizes with radioimmunotherapy to increase efficacy and apoptosis in breast cancer xenografts. 1215 28

New active drugs are needed for the treatment of primary brain tumors in both children and adults. S16020 is a cytotoxic olivacine derivative that inhibits topoisomerase II. The aim of the study was to determine its antitumor activity in athymic mice bearing subcutaneous medulloblastoma (IGRM33, 34, 57) and glioblastoma (IGRG88, 93, 121) xenografts treated at an advanced stage of tumor growth in comparison with that of doxorubicin. Animals were randomly assigned to receive i.v. S16020 or doxorubicin weekly for three consecutive weeks. The optimal dose was 80 mg/kg per week. S16020 demonstrated a significant antitumor activity in two out of three medulloblastoma xenografts. IGRM57 xenografts were highly sensitive with 100% tumor regressions and a tumor growth delay (TGD) of 102 days, while one of eight IGRM34 xenografts showed a partial regression with a TGD of 16 days. Doxorubicin was significantly more active than S16020 in these two models. IGRM33, a model established from a tumor in relapse after chemotherapy and radiotherapy, was refractory to both drugs. S16020 demonstrated a significant antitumor activity in the three glioblastoma xenografts evaluated. The wild-type p53 IGRG93 xenograft was highly sensitive with 100% tumor regressions and a TGD of 54 days. IGRG121 (wt p53) and IGRG88 (mutant p53) were moderately sensitive with TGDs of 33 and 23 days, respectively. Doxorubicin showed greater activity in two of these models. All six xenografts exhibited low expression of mdr1 as quantitated by RT-PCR, and no correlation was found with the activity of either drug. Conversely, a low activity of the two drugs was significantly associated with a high expression of MRP1 in medulloblastomas. Finally, no relationship was observed between drug sensitivity to either drug and expression of their target, topoisomerase IIalpha. In conclusion, S16020 and doxorubicin showed significant antitumor activity in brain tumor xenografts treated at an advanced stage of tumor growth. Their activity was related to MRP1 expression in medulloblastomas.
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PMID:In vivo antitumor activity of S16020, a topoisomerase II inhibitor, and doxorubicin against human brain tumor xenografts. 1273 60

Tumor cells can acquire aggressive phenotypes secondary to the loss of expression of the wild-type p53 (WTp53) protein or by the gain of function for selected mutant p53 (MTp53) proteins. However, it is unclear as to whether the development of aggressive phenotypes is inter-related. Herein we report the radiosensitivity, chemosensitivity, and in vivo growth characteristics of isogenic p53(-/-) MEF ras-transformants that variably express an MTp53 protein. Initial experiments revealed significant clonal heterogeneity with respect to cellular sensitivity to DNA-damaging agents (i.e. ionizing radiation, ultraviolet radiation, cis-platinum, and methotrexate) within subclones of a pre-existing p53(-/-) MEF cell population. Moreover, this differential sensitivity was also observed within subclones of p53(-/-) MEF cells transformed with an activated ras allele, suggesting that secondary genetic events and clonal selection, but not cellular transformation per se, may drive the resistance patterns for certain null-p53 tumors. In contrast, uniform resistance was observed following the additional transfection of an MTp53 allele (MTp53pro193) into p53(-/-) MEF transformants and p53(-/-) DP-16 Friend erythroleukemia cells, consistent with a gain of MTp53 function for this allele. Relative tumor growth rate and experimental metastatic ability was not enhanced by MTp53pro193 expression. Our results support the concept that gain of MTp53pro193 function leads to the selection of dominant clones, which may exhibit cellular resistance following cancer therapy.
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PMID:Resistance to DNA-damaging agents is discordant from experimental metastatic capacity in MEF ras-transformants-expressing gain of function MTp53. 1277 47

p53 represents an ideal target for anti-cancer drug design, because p53 is mutated in more than half of human tumors. Most of the remaining tumors, although carrying wild-type p53, have defects in the p53-mediated apoptotic pathway. Activation of p53 activity by either chemotherapy or radiotherapy induces p53-dependent apoptosis in tumor cells with wild-type p53. Supplying exogenous wild-type p53 in cancer cells by gene delivery is effective in suppressing tumor growth of both mutant and wild-type p53-containing tumors. Blockage of p53 degradation pathways either by overexpression of ARF or interruption of MDM2:p53 interaction is effective in inducing p53 triggered tumor cell death. Since unlike most other tumor suppressor genes, mutant p53 is over expressed in tumor cells, a promising approach involves restoring tumor-suppressing function to mutant p53. The activity of the mutant p53 in tumor cells is restorable based on the fact that PAb241 antibody against the carboxy-terminus of p53 and peptides corresponding to the p53 carboxy-terminus can restore specific DNA-binding ability to some mutant p53 proteins. High throughout screening of chemical libraries has led to the identification of a group of small synthetic molecules such as CP-31398, which can restore p53 function to mutant p53 by stabilizing the active conformation of the protein that is destabilized in many mutants. Subsequent identification of PRIMA-1 provides further evidence to the possibility of developing anti-cancer drugs that may rescue mutant p53. Further understanding of the mechanisms by which CP-31398 and PRIMA-1 restore p53 activity may not only lead to discovery of more potent analogs but may also suggest new strategies for p53-targeting in tumor therapy.
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PMID:Restoring p53-dependent tumor suppression. 1450 81

We recently showed that ASPP1 and ASPP2 stimulate the apoptotic function of p53. We show here that ASPP1 and ASPP2 also induce apoptosis independently of p53. By binding to p63 and p73 in vitro and in vivo, ASPP1 and ASPP2 stimulate the transactivation function of p63 and p73 on the promoters of Bax, PIG3, and PUMA but not mdm2 or p21(WAF-1/CIP1). The expression of ASPP1 and ASPP2 also enhances the apoptotic function of p63 and p73 by selectively inducing the expression of endogenous p53 target genes, such as PIG3 and PUMA, but not mdm2 or p21(WAF-1/CIP1). Removal of endogenous p63 or p73 with RNA interference demonstrated that (16) the p53-independent apoptotic function of ASPP1 and ASPP2 is mediated mainly by p63 and p73. Hence, ASPP1 and ASPP2 are the first two identified common activators of all p53 family members. All these results suggest that ASPP1 and ASPP2 could suppress tumor growth even in tumors expressing mutant p53.
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PMID:ASPP1 and ASPP2: common activators of p53 family members. 1472 77

Clinical adenoviral p53 gene therapy has been shown by us and others to inhibit tumor growth of ovarian cancer with endogenous mutant p53. This study was designed to test the cooperative antitumor effect of standard combination chemotherapy using paclitaxel and carboplatin together with adenoviral p53 gene transfer in the presence of wild-type and mutant p53. Seven ovarian cancer cell lines with mutant p53 and seven ovarian cancer cell lines with wild-type p53 were tested. An E1-deleted adenovirus type 5 expressing p53 (ACNp53) was used for p53 gene transfer. p53 gene transfer at 50% transduction efficiency significantly reduced IC50 of carboplatin chemotherapy up to 49-fold, of paclitaxel chemotherapy up to six-fold, and of paclitaxel/carboplatin chemotherapy up to 19-fold in the wild-type p53 cell line OV-MZ-5. Synergism between ACNp53 and chemotherapy calculated by median-effect analysis was found at low drug concentrations in all cell lines independent of the p53 mutational status. In conclusion, adenoviral p53 gene transfer significantly increased the sensitivity of ovarian tumor cells to paclitaxel, to carboplatin and/or to the combination of both.
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PMID:Cooperative effect of adenoviral p53 gene therapy and standard chemotherapy in ovarian cancer cells independent of the endogenous p53 status. 1515 38

In contrast to findings in vitro, the clinical response to anticancer chemotherapy is not simply associated with the p53 mutation status. To analyze the relationship between the actual response of solid tumors with p53 mutation and other biological characteristics, we used a human cancer-nude mouse panel of 21 lines derived from stomach, colorectal, breast, lung, and liver cancers for experimental chemotherapy. We examined the tumor growth rates of the cancer lines and the effects of nine drugs in clinical use, namely, mitomycin C (MMC), cisplatin (CDDP), nimustine hydrochloride (ACNU), irinotecan (CPT-11), cyclophosphamide (CPA), 1-(2-tetrahydrofuryl)-5-fluorouracil (FT-207), a 4:1 mixture of uracil and FT-207 (UFT), 5'-deoxy-5-fluorouridine (5'-DFUR), and adriamycin (ADM), on these tumors. The chemotherapy response was expressed as the tumor growth inhibition rate (IR). The genomic DNA sequences of the p53 gene in exons 5 through 8 were analyzed in these cancer tissues, and p53 mutations were detected in 10 of the 21 cancer lines (48%). Resistance to MMC was observed in p53 mutant tumors with smaller IRs than those for wild-type tumors (57.7% vs. 79.9%, P < 0.03). No significant differences were noted with the other eight drugs. To explore the role of the p53 function in the chemotherapy response, we calculated the correlation coefficients between chemosensitivity and tumor growth rate separately in p53 mutant and wild-type groups. In the p53 wild-type group, we found a positive correlation for the following drugs: ADM (P < 0.02), ACNU (P < 0.007), CPA (P < 0.011), UFT (P < 0.012), and FT-207 (P < 0.02). In the p53 mutant group, only CPA (P < 0.003) showed a positive correlation. The kinetics suggests that in the wild-type tumors, DNA damage caused by anticancer drugs occurs proportionally to the rate of DNA synthesis, and p53-mediated apoptosis is subsequently induced. The low frequency of positive correlation in the p53 mutant tumors is compatible with the loss of function or malfunction of mutant p53. The present results provide kinetic evidence that p53 function affects the response to anticancer drugs. Preserved p53 function tended to confer good chemosensitivity on rapidly growing tumors. However, the p53 mutation status did not seem to be suitable for use as an exclusive indicator to predict the chemotherapy response of human cancer xenografts.
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PMID:Dependence of chemotherapy response on p53 mutation status in a panel of human cancer lines maintained in nude mice. 1518 37

Maspin is a Class II tumor suppressor protein and plays a role in tumor growth by inhibiting cellular invasion and motility. It is a member of the serpin family of protease inhibitors and has been shown to reduce angiogenesis. Maspin gene expression can be upregulated by the tumor suppressor p53. We tested 7 p53-related proteins of the p63 and p73 families for their ability to induce maspin expression. The p63 splice form TAp63gamma can substitute for p53 in activating the maspin promoter. TAp63gamma activates the promoter through the same consensus site as p53. In the DLD-1 colorectal adenocarcinoma cell line, harboring a tet-off regulated transgene, induction of TAp63gamma leads to an upregulation of maspin mRNA from the chromosomal gene. With a short lag phase also maspin protein levels are elevated after induced TAp63gamma expression. To assess a potential function of p63-dependent maspin upregulation in tumors we followed expression of p53, p63 and maspin by immunohistochemistry in hepatocellular carcinomas. Two types of tumors with wild-type or mutant p53 were assayed. Interestingly, the majority of tumors expressing only a mutated and inactive p53 protein nonetheless stain positive for maspin, whereas these tumors were positive for p63 protein expression. In summary, we show that TAp63gamma can substitute for p53 in transcriptional activation of the maspin tumor suppressor gene. TAp63gamma employs the same DNA recognition site for this activation as p53. We observe expression patterns of p53, p63 and maspin proteins in tumor tissue that may indicate also a function of maspin induction by p63 in tumors.
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PMID:TAp63gamma can substitute for p53 in inducing expression of the maspin tumor suppressor. 3191 78


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