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

Cis-diamminedichloroplatinum(II) (cisplatin, cis-DDP) is well studied anticancer drug, whose activity can be attributed to its ability to form adducts with DNA, but this drug can also form DNA-damaging free radicals, however this mechanism of cisplatin action is far less explored. Using the comet assay we studied cisplatin-induced DNA damage in the presence of spin traps: DMPO and PBN, Vitamins A, C and E as well as the tyrosine kinases inhibitor STI571 in normal human lymphocytes and leukemic K562 cells. The latter cells express the BCR/ABL fusion protein, which can be a target of the tyrosine kinase inhibitor STI571. A 20 h incubation with cisplatin at 1-10 microM induced DNA cross-links and DNA fragmentation in normal and cancer cells. Cisplatin could induce intra- and interstrand DNA-DNA cross-links as well as DNA-protein cross-links. DNA damage in K562 cells was more pronounced than in normal lymphocytes. In the presence of spin traps and vitamins we noticed a decrease in the DNA fragmentation in both cell types. Co-treatment of the lymphocytes with cisplatin at 10 microM and STI571 at 0.25 microg/ml caused an increase of DNA fragmentation in comparison with DNA fragmentation induced by cisplatin alone. In the case of K562 cells, an increase of DNA fragmentation was observed after treatment with cisplatin at 1 microM. Our results indicate that the free radicals scavengers could decrease DNA fragmentation induced by cisplatin in the normal and cancer cells, but probably they have no effect on DNA cross-linking induced by the drug. The results obtained with the BCR/ABL inhibitor suggest that K562 cells could be more sensitive towards co-treatment of cisplatin and STI571. Our results suggest also that aside from the BCR/ABL other factors such as p53 level, signal transduction pathways and DNA repair processes can be responsible for the increased sensitivity of K562 cells to cisplatin compared with normal lymphocytes.
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PMID:Cisplatin-evoked DNA fragmentation in normal and cancer cells and its modulation by free radical scavengers and the tyrosine kinase inhibitor STI571. 1513 86

We reported that CPT-11 could induce apoptosis in mouse lens epithelial tumors when it was administered to pregnant alphaT3 mice which developed epithelial cell carcinoma in situ in the lens in the perinatal period. p53-deficient alphaT3 mice were generated to analyze the influence of p53 status on tumor cells under combined chemotherapy. On the 16-18th gestational day, alphaT3 received a single i.p. administration of both CPT-11 and Cisplatin, and fetal lens epithelial tumors were examined two days later. Apoptosis in the p53-wild-type alphaT3 tumors was observed in a Cisplatin dose-dependent manner. In addition, it was found that Cisplatin augmented CPT-11-induced p53-independent apoptosis in p53-deficient alphaT3 mice.
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PMID:Cisplatin enhances the p53-independent apoptosis induced by a topoisomerase I inhibitor (CPT-11) in the lens epithelial tumors in transgenic mice. 1525 85

The combination of 5-fluorouracil (5-FU) plus Cisplatin (CDDP) (FP treatment) possesses synergistic cytotoxicity against colon cancer. The molecular mechanisms by which chemotherapeutic agents induce apoptosis have been clarified by identifying apoptosis-related genes such p53 and bcl-2. We previously established a new experimental technique in which cancer cells are distributed in thin collagen gel as 1 or 2 cell layers. additionally, we evaluated the efficacy and toxicity of FP treatment in the gastric and colon cancer cell lines, and examined the relationship between the response to FP treatment and apoptosis. In these results we reported transfection of normal p53 gene into p53 mutant and analyzed the impact of the p53 gene in a sensitivity test. In this study, we examined induced apoptosis in colon cancer cell lines and the status of p53 expression in response to treatment of HCT116, COLO320, SW480 and DLD1 with 5-FU alone, CDDP alone and FP treatment under flow cytometric analysis. Transfection of SW480 and DLD1 cells was performed to compare the chemosensitivity of naturally occurring mutant-type p53 SW480 and DLD1 cells with neo-transfected SW480 and DLD1 cells and transfected SW480 and DLD1 cells. Appreciable apoptosis was induced in HCT116 and COLO320 (p53 wild-type) but not in SW480 and DLD1 cells (p53 mutant-type). Transfected SW480 and DLD1 cells underwent significantly more apoptosis (p<lt;0.001) than naturally occurring mutant-type p53 SW480 and DLD1 cells. p53 expression may further induce apoptosis in FP treatment. Patients with p53 wild-type may be better candidates for FP therapy than patients with p53 mutant-type in colon cancer. Therefore, we think that p53 may be also effective against colon cancer in FP therapy.
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PMID:p53 dependence and apoptosis in response to FP treatment with p53-transfected colon cancer cell lines by use of thin layer collagen gel. 1525 2

This study investigates the possible molecular basis leading to failure in a treatment that is composed of hypoxia and chemotherapy in a rat orthotopic hepatoma model. Hypoxia was induced by hepatic artery ligation, whereas chemotherapeutic effect was achieved by intraportal injection of cisplatin. High-dose sodium salicylate was administered to achieve transcriptional blockade. Significant prolongation of animal survival was observed in the groups receiving hepatic artery ligation with cisplatin or sodium salicylate. Massive tumor cell necrosis and apoptosis were found in the ligation and all of the combined treatment groups. Up-regulation of hypoxia inducible factor 1alpha (HIF-1alpha) and vascular endothelial growth factor (VEGF) at both mRNA and protein levels were detected in the groups receiving ligation and ligation with cisplatin, whereas a decreased level of von Hippel-Lindau tumor suppressor protein was identified in the group receiving ligation with cisplatin. Sodium salicylate enhanced expression of von Hippel-Lindau tumor suppressor protein but down-regulated HIF-1alpha and VEGF levels after ligation with or without cisplatin. An increased number of activated hepatic stellate cells in the tumors were observed in the ligation and ligation with cisplatin groups, whereas they were greatly reduced by sodium salicylate. In vitro study revealed that under hypoxic condition, both cisplatin and sodium salicylate could remarkably augment P53 and caspase 3 levels. Cisplatin stimulated HIF-1alpha up-regulation, whereas sodium salicylate suppressed HIF-1alpha expression. In conclusion, tumor progression after hypoxia and chemotherapy might be related to up-regulation of HIF-1alpha and subsequent VEGF production, and transcriptional blockade by sodium salicylate could enhance the therapeutic efficacy of hypoxia and chemotherapy.
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PMID:The potential role of hypoxia inducible factor 1alpha in tumor progression after hypoxia and chemotherapy in hepatocellular carcinoma. 2990 84

Cisplatin (CDDP) is among the most widely used and most effective chemotherapeutic agent for many types of human cancer. Because killing cancer cells by chemotherapy is principally executed by apoptosis, a defective apoptotic program might acquire drug resistance. Flow cytometric Annexin V assay demonstrated that HEp-2 cells (human laryngeal cancer) were persistently resistant to CDDP as compared to HeLa cells (human uterine cervical cancer), despite the same histological type and wild-type p53 status. CDDP treatment caused steady induction of p53 protein in both cancer cell types, although it was more dramatic in CDDP-resistant HEp-2 cells, which was correlated well with p53 Ser15 phosphorylation, but not with the expression level of HPV type 18 E6 oncoprotein in these cells. Importantly, CDDP differently activated caspase cascades between HEp-2 and HeLa cells. CDDP activated the caspase-8 pathway through TNFR superfamily receptors such as Fas, but not caspase-9 in HeLa cells. On the other hand, the caspase-9 pathway was significantly activated in HEp-2 cells, although the activation of caspase-8 by CDDP was deficient. This different response to CDDP in caspase-8 activation was not related with the expression level of either Fas or FasL in these cells. We concluded from these results that loss of the caspase-8 activation pathway in HEp-2 cells was a possible mechanism for its resistance to CDDP-induced apoptosis. The caspase-8 pathway might play an important role in CDDP-induced apoptosis in HPV-positive human squamous cell carcinomas.
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PMID:Loss of caspase-8 activation pathway is a possible mechanism for CDDP resistance in human laryngeal squamous cell carcinoma, HEp-2 cells. 1528 75

Apoptosis plays an important role in cancer pathogenesis. Several oncogenes and antioncogenes regulate this process. Loss of their normal function leading to cell resistance to apoptosis seems to be a key factor of neoplasm development. In tumour cells, programmed cell death is a spontaneous process and its intensity increases after chemo-, radio- and hormonotherapy. Amongst several genes and their products, bcl-2 and p21 genes play a significant role in the process. p21 gene product, cyclin-dependent kinase inhibitor, along with p53 gene take part in cell cycle regulation. Our study aimed at evaluating p21 and Bcl-2 protein expression in the cells of patients afflicted with stage IIIA of non-small cell lung cancer who underwent neoadjuvant chemotherapy (three courses of Vepesid and Cisplatin). Protein expression was evaluated in slides of tissue material obtained before pharmacological treatment (during bronchofiberoscopy) and after three courses of Vepesid and Cisplatin (during surgical tumour resection). Protein activity in tissue slides was conducted using histochemical method with labelled antibodies (immunoperoxidase staining procedure). The control material was obtained from patients who had not undergone inductive chemotherapy. The results were documented as photographs and presented as charts after extinction level measurement using cytophotometric technique. Decrease in Bcl-2 protein activity and increase in p21 protein level in tumour cells of patients after inductive chemotherapy were observed.
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PMID:Expression of p21 and bcl-2 proteins in paraffin-embedded preparations of non-small cell lung cancer in stage IIIA after Etoposide and Cisplatin induced chemotherapy. 1531 75

Apoptosis (programmed cell death) plays a very important role in the development regulation, homeostasis maintenance as well as in the origin of many diseases, including neoplasms. This process is genetically regulated and reflected in characteristic morphological and biochemical changes taking place in cells. The process is considered to be of great significance in tumour originating and growth as well as in tumour cell response to chemotherapy. There are many genes and their products that are involved in apoptosis. The following genes: p53, bcl-2 and p21 seem to have the greatest significance. Our study aimed at evaluating p53 gene expression in non-small-cell lung cancer patients after neoadjuvant chemotherapy. We examined the tissue material from 35 patients after three-cycle inductive chemotherapy (Vepesid and Cisplatin). The material was obtained before chemotherapy during bronchofiberoscopy and four weeks after drug treatment during surgery. The control group comprised patients who had not undergone inductive chemotherapy. After deparaffinising of tissue slides, gene p53 activity using in situ hybridisation technique was evaluated. Moreover, apoptosis valuation with TUNEL method was performed. The results were documented as photographs. Gene p53 activity level was estimated using cytophotometric technique. Our study revealed significantly higher percentage of cells undergoing apoptosis and increased gene p53 activity in tumour tissue slides of patients after neoadjuvant chemotherapy.
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PMID:Expression of p53 gene in stage IIIA non-small cell lung cancer in patients after neoadjuvant chemotherapy with Vepesid and Cisplatin. 1531 76

Tubular damage by cisplatin leads to acute renal failure, which limits its use in cancer therapy. In tubular cells, a primary target for cisplatin is presumably the genomic DNA. However, the pathway relaying the signals of DNA damage to tubular cell death is unclear. In response to DNA damage, the tumor suppressor gene p53 is induced and is implicated in subsequent DNA repair and cell death by apoptosis. The current study was designed to examine the role of p53 in cisplatin-induced apoptosis in cultured rat kidney proximal tubular cells. Cisplatin at 20 microM induced apoptosis in approximately 70% of cells, which was partially suppressed by carbobenzoxy-Val-Ala-Asp-fluoromethyl ketone (VAD), a general caspase inhibitor. Of interest, cisplatin-induced apoptosis was also suppressed by pifithrin-alpha, a pharmacological inhibitor of p53. Cisplatin-induced caspase activation was completely inhibited by VAD, but only partially by pifithrin-alpha. Early during cisplatin treatment, p53 was phosphorylated and upregulated. The p53 activation was blocked by pifithrin-alpha, but not by VAD. Bcl-2 expression abolished cisplatin-induced apoptosis without blocking p53 phosphorylation or induction. The results suggest that p53 activation might be an early signal for apoptosis during cisplatin treatment. To further determine the role of p53, tubular cells were stably transfected with a dominant-negative mutant of p53 with diminished transcriptional activity. Expression of the mutant attenuated cisplatin-induced apoptosis and caspase activation. In conclusion, the results support an important role for p53 in cisplatin-induced apoptosis in renal tubular cells. p53 May regulate apoptosis through the transcription of apoptotic genes.
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PMID:Role of p53 in cisplatin-induced tubular cell apoptosis: dependence on p53 transcriptional activity. 1531 38

Cisplatin is one of the most potent anticancer agents, displaying significant clinical activity against a variety of solid tumors. For more than two decades, the most effective systemic chemotherapy for non-small cell lung cancer (NSCLC), the leading cause of cancer morbidity and mortality among men and women in the western world, was cisplatin-based combination treatment. Unfortunately, the outcome of cisplatin therapy on NSCLC seems to have reached a plateau. Therefore, the biological mechanisms of cisplatin action need to be understood in order to overcome the treatment plateau on NSCLC. Moreover, the development of resistance is a hurdle in the use of this drug. The molecular mechanisms that underlie this chemoresistance are largely unknown. Possible mechanisms of acquired resistance to cisplatin include reduced intracellular accumulation of cisplatin, enhanced drug inactivation by metallothionine and glutathione, increased repair activity of DNA damage, and altered expression of oncogenes and regulatory proteins. In addition, it is generally accepted that cytotoxicity of cisplatin is mediated through induction of apoptosis and arrest of cell cycle resulting from its interaction with DNA, such as the formation of cisplatin-DNA adducts, which activates multiple signaling pathways, including those involving p53, Bcl-2 family, caspases, cyclins, CDKs, pRb, PKC, MAPK and PI3K/Akt. Increased expression of anti-apoptotic genes and mutations in the intrinsic apoptotic pathway may contribute to the inability of cells to detect DNA damage or to induce apoptosis. Towards an understanding of the molecular basis of the cellular response to cisplatin-based chemotherapy in NSCLC, in this review we provide some insights into the pathways involved in cisplatin damage from entering the cells to execution of apoptosis or survival of NSCLC cells. We believe that as more and more molecular mechanisms of response to cisplatin-based therapy are unraveled, this knowledge should provide a basis for further studies to improve our understanding of molecular events associated with lung NSCLC as well as to devise novel and effective therapeutic approaches to overcome the treatment plateau or reverse drug resistance in this disease.
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PMID:Molecular basis of cellular response to cisplatin chemotherapy in non-small cell lung cancer (Review). 1549 78

Thiols such as N-acetylcysteine (NAC) are increasingly used in clinical trials of platinum chemotherapy as chemoprotectants. NAC can prevent cisdiamminedichloroplatinum (cisplatin)-induced ototoxicity, nephrotoxicity, and gastrointestinal toxicity; however, the molecular mechanisms of NAC on apoptosis and cisplatin cytotoxicity remain unknown. We investigated cisplatin cytotoxicity and NAC chemoprotection in human tumor cell lines, as assessed by immunoblotting and immunocytochemistry. Cisplatin cytotoxicity was associated with nuclear translocation of apoptosis induction factor, expression of the pro-apoptotic Bax protein, cleavage of caspases 3 and 9, and cleavage of PARP. NAC administration reversed the cytotoxic and apoptotic effects if added concurrent with cisplatin or up to 2 h after cisplatin, but chemoprotection was reduced if NAC administration was delayed more than 2 h and was minimal by 8 h after cisplatin. Expression of tumor suppressor p53 and the cell cycle regulatory protein p21 was stimulated within 5 to 10 min by cisplatin in p53-positive LX-1 small cell lung carcinoma cells, and this effect was blocked by NAC. In p53-negative SKOV3 cells, cisplatin toxicity and NAC chemoprotection remained effective, suggesting that chemoprotection may be mediated through both p53-dependent and -independent pathways. Specific kinase inhibitors demonstrated that cisplatin induced apoptosis through the p38 mitogen-activated protein kinase (MAPK) pathway, not the extracellular signal-regulated kinase MAPK pathway. These results show that NAC blocks both the death receptor and the mitochondrial apoptotic pathways induced by cisplatin. The time course for NAC chemoprotection after cisplatin matches our previous in vivo results and provides an opportunity to manipulate route and timing to maintain cisplatin antitumor efficacy while protecting against chemotherapy side effects.
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PMID:The chemoprotective agent N-acetylcysteine blocks cisplatin-induced apoptosis through caspase signaling pathway. 1549 15


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