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)

Extensive researches have revealed that arsenical can exert anti-tumor efficacy against several kinds of cancers including leukemia. Though, little is known about the effects of arsenical on leukemia resistant to chemotherapy, emerging as a serious clinical problem. In this study, we tested arsenic trioxide (As(2)O(3))-induced apoptosis in K562/ADM multidrug-resistant leukemic cells and investigated its possible mechanisms. Using microscopy, flow cytometry (FCM) and DNA electrophoresis, we found that As(2)O(3) could induce the cells to undergo G2/M phase arrest and apoptosis. Further, it was shown that the levels of FAS and P53 proteins increased and P-glycoprotein (P-gp) decreased upon drug action by employing FCM. Reverse transcription polymerase chain reaction (RT-PCR) detected increased mRNA product of FAS and caspase-3 genes and reduced MDR1 mRNA. CASPASE-3 activity was also enhanced after As(2)O(3) treatment. However, the expression of BCL-2 protein was not affected by the drug. Taken together, As(2)O(3) is able to reverse the apoptosis resistance in drug-resistant K562/ADM cells by modulating expression or activity of key factors associated with apoptosis induction.
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PMID:Arsenic trioxide overcomes apoptosis inhibition in K562/ADM cells by regulating vital components in apoptotic pathway. 1597 94

The results of multidrug resistance determinants expression analysis on leukemic cells of 56 acute myeloid leukemia (AML) patients by immunophenotyping are presented. Of these, there were 21 persons exposed to ionizing radiation due to the Chemobyl accident with radiation-associated AML and 35 patients with spontaneous leukemia. The aim of this study was to determine if transport proteins (P-glycoprotein, LRP, and MDR1), apoptosis-related proteins (Fas, Bcl-2, Bax, p53, and Bcl-X(L)), and topoisomerase IIalpha expression in AML patients with the history of radiation exposure differed from those in spontaneous AML cases. Leukemic cells in patients with radiation-associated diseases compared to spontaneous AML more often overexpressed antiapoptotic oncoprotein Bcl-2 (12/21 vs. 6/35, p < 0.005) and less often demonstrated expression of Fas receptor (12/21 vs. 30/35, p < 0.05). Moreover, leukemic cells were simultaneously Fas negative and Bcl-2 positive in 4 out of 21 patients exposed to ionizing radiation but none of spontaneous cases had similar phenotype (p < 0.05). Leukemic cells in patients with radiation-associated AML compared to spontaneous cases more often were P-glycoprotein positive (12/20 vs 9/31, p < 0.05). P-glycoprotein overexpression significantly correlated with resistant disease in patients with radiation-associated AML (r = 0.47, p < 0.05), but was not a prognostic variable for the treatment outcome in terms of overall survival. Defects in pathways of drug-induced apoptosis and function of pump, that actively effluxes drugs could contribute significantly to developing drug resistance in radiation-associated AML.
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PMID:[Multidrug resistance determinants in acute myeloid leukemia developed in persons exposed to ionizing radiation due to the Chernobyl accident]. 1713 22

Multimodal treatment protocols are increasingly employed to improve the survival of patients with locally advanced adenocarcinomas of the upper gastrointestinal tract, however, only 30-40% per year of the patients respond to 5-FU and cisplatin-based neoadjuvant chemotherapy. The goal of our studies is the identification of reliable genetic markers, on the genomic DNA-level, mRNA, or protein level that could predict response of upper gastrointestinal carcinomas prior to neoadjuvant chemotherapy. In esophageal carcinomas, a higher gene expression of methylenetetrahydrofolate reductase (MTHFR), an enzyme involved in folate metabolism, was more frequently found in responding patients. In addition high gene expression of caldesmon and of the two drug carrier proteins, MRP1 and MDR1 was associated with response to therapy. By performing a genome-wide profiling on the protein level in a small group of patients, new potential markers were identified, which have to be validated in ongoing studies. In gastric carcinomas, mutations of the p53 gene revealed no association with response or survival, but tumors with a high rate of loss of heterozygosity (LOH), determined by microsatellite analysis, showed a better response to a cisplatin-based chemotherapy. Analysis of expression of 5-FU-(e.g., TS, DPD, and TP) and cisplatin-(e.g., ERCC1, ERCC4, GADD45A, and KU80) related genes, demonstrated an association of DPD expression with response and survival. The combined consideration of TP and GADD45 gene expression, showed the most obvious association with therapy response in this tumor. Our studies point to promising markers with potential use for chemotherapy response prediction of adenocarcinomas of the upper gastrointestinal tract, but prospective studies for validation are necessary.
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PMID:Prediction of response to neoadjuvant chemotherapy in carcinomas of the upper gastrointestinal tract. 1716 61

Secondary metabolites from plants serve as defense against herbivores, microbes, viruses, or competing plants. Many medicinal plants have pharmacological activities and may, thus, be a source for novel treatment strategies. During the past 10 years, we have systematically analyzed medicinal plants used in traditional Chinese medicine and focused our interest on Artemisia annua L. (qinhao, sweet wormwood). We found that the active principle of Artemisia annua L., artemisinin, exerts not only antimalarial activity but also profound cytotoxicity against tumor cells. The inhibitory activity of artemisinin and its derivatives towards cancer cells is in the nano- to micromolar range. Candidate genes that may contribute to the sensitivity and resistance of tumor cells to artemisinins were identified by pharmacogenomic and molecular pharmacological approaches. Target validation was performed using cell lines transfected with candidate genes or corresponding knockout cells. The identified genes are from classes with diverse biological functions; for example, regulation of proliferation (BUB3, cyclins, CDC25A), angiogenesis (vascular endothelial growth factor and its receptor, matrix metalloproteinase-9, angiostatin, thrombospondin-1) or apoptosis (BCL-2, BAX, NF-kappaB). Artesunate triggers apoptosis both by p53-dependent and -independent pathways. Antioxidant stress genes (thioredoxin, catalase, gamma-glutamylcysteine synthetase, glutathione S-transferases) as well as the epidermal growth factor receptor confer resistance to artesunate. Cell lines overexpressing genes that confer resistance to established antitumor drugs (MDR1, MRP1, BCRP, dihydrofolate reductase, ribonucleotide reductase) were not cross-resistant to artesunate, indicating that artesunate is not involved in multidrug resistance. The anticancer activity of artesunate has also been shown in human xenograft tumors in mice. First encouraging experience in the clinical treatment of patients suffering from uveal melanoma calls for comprehensive clinical trials with artesunate for cancer treatment in the near future.
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PMID:Willmar Schwabe Award 2006: antiplasmodial and antitumor activity of artemisinin--from bench to bedside. 1735 63

Previous results showed that overexpression of the WTH3 gene in multidrug resistance (MDR) cells reduced MDR1 gene expression and converted their resistance to sensitivity to various anticancer drugs. The WTH3 gene promoter was found to be differentially regulated in paired MDR vs non-MDR MCF7 cells owing to epigenetic modifications and transcription factor modulations. To understand further the mechanisms that govern WTH3's differential expression, we uncovered a p53-binding site in its promoter, which indicated that WTH3 could be regulated by the p53 gene. This hypothesis was then tested by different strategies. The resulting data revealed that (1) the WTH3 promoter was upregulated by the p53 transgene in diverse host cells; (2) there was a correlation between WTH3 expression levels and p53 gene status in a cell line panel; (3) a WTH3 promoter region was directly targeted by the p53 protein in vitro and in vivo. In addition, overexpression of the WTH3 gene promoted the apoptotic phenotype in host cells. On the basis of these findings, we believe that the negative role played by the WTH3 gene in MDR development is through its proapoptotic potential that is regulated by multiple mechanisms at the transcription level, and one of these mechanisms is linked to the p53 gene.
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PMID:WTH3 is a direct target of the p53 protein. 1742 8

Increasingly, multimodal treatment protocols are being employed to improve the survival of patients with locally advanced adenocarcinomas of the upper gastrointestinal tract; however, only 30%-40% of the patients respond to 5-fluoro-uracil (5-FU) and cisplatin-based neoadjuvant chemotherapy. The goal of our studies is the identification of reliable genetic markers--on the genomic DNA, messenger RNA (mRNA), or protein level-that could predict response of upper gastrointestinal carcinomas prior to neoadjuvant chemotherapy. In esophageal carcinomas, a higher gene expression of methylenetetrahydrofolate reductase (MTHFR), an enzyme involved in folate metabolism, was more frequently found in responding patients. In addition high gene expression of caldesmon and of the two drug carrier proteins MRP1 and MDR1 was associated with response to therapy. By performing a genome-wide profiling on the protein level in a small group of patients, new potential markers were identified that will have to be validated in ongoing studies. In gastric carcinomas, mutations of the p53 gene revealed no association with response or survival, but tumors with a high rate of loss of heterozygosity, as determined by microsatellite analysis, showed a better response to a cisplatin-based chemotherapy. Analysis of the expression of 5-fluorouracil (5-FU) (TS, DPD, TP)- and cisplatin (ERCC1, ERCC4, GADD45A, KU80)-related genes demonstrated an association of DPD expression with response and survival. The combined consideration of TP and GADD45 gene expression showed the most obvious association with therapy response in this tumor. Our studies point to promising markers with potential use for chemotherapy response prediction of adenocarcinomas of the upper gastrointestinal tract, but prospective studies for validation are necessary.
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PMID:Prediction of response to neoadjuvant chemotherapy in carcinomas of the upper gastrointestinal tract. 1760 14

The p73 protein is a transcription factor and member of the p53 protein family that expresses as a complex variety of isoforms. DeltaNp73alpha is an N-terminally truncated isoform of p73. We found that DeltaNp73 protein is upregulated in human gastric carcinoma suggesting that DeltaNp73 may play an oncogenic role in these tumors. Although it has been shown that DeltaNp73alpha inhibits apoptosis and counteracts the effect of chemotherapeutic drugs, the underlying mechanism by which this p73 isoform contributes to chemotherapeutic drug response remains to be explored. We found that DeltaNp73alpha upregulates MDR1 mRNA and p-glycoprotein (p-gp), which is involved in chemotherapeutic drug transport. This p-gp upregulation was accompanied by increased p-gp functional activity in gastric cancer cells. Our data suggest that upregulation of MDR1 by DeltaNp73alpha is mediated by interaction with p53 at the MDR1 promoter.
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PMID:DeltaNp73alpha regulates MDR1 expression by inhibiting p53 function. 1795 18

An shRNA tumor suppressor panel was screened using reverse infection of an A549 tumorigenic cell line and exposing it to a predetermined concentration of paclitaxel, an anticancer drug. The shRNAs targeting a positive control gene, MDR1, were found to effectively decrease mRNA levels and cause cells to become more sensitive to the chemotherapeutic drug. A set of genes were identified in the screen of a panel of tumor suppressors which, when down-regulated, were found to increase or decrease cell sensitivity in regards to treatment with paclitaxel. In many cases, there were multiple clones to a single gene that provided a positive result. The shRNAs targeting SMAD4, LZTS2, ST14 and VHL all increased the cell's sensitivity to paclitaxel. The loss of other tumor suppressors such as GLTSCR2, LATS1, NF1, PTEN, TP53 and WT1 induced a protective effect in the cell, making it more resistant to the effect of the drug. Further investigation of VHL mRNA levels after down-regulation with shRNA show a direct correlation between gene expression levels and paclitaxel sensitivity. This study credits the identified genes with the potential to act as prognostic biomarkers for use in genetic profiling, or even as targets in pathways of tumorigenesis yet to be fully understood.
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PMID:A screen of shRNAs targeting tumor suppressor genes to identify factors involved in A549 paclitaxel sensitivity. 1798 36

An inverted CCAAT sequence is recognized by both transcription factors NF-Y and DNA/RNA binding protein YB-1. In the process of examining the effect of nuclear RNA on an inverted CCAAT-containing promoter of MDR1 gene, we found that U7 snRNA inhibits NF-Y and suppresses the promoter activity both in vitro and in NG108-15 tumor cells. Analysis using a designed RNA, which was structurally unrelated to U7 snRNA, revealed that RNA binding by YB-1 is not specific and that the protein is not involved in the transcription. Furthermore, we demonstrated that in the nucleus of doxorubicin-treated cells, DNA binding by NF-Y and transcriptional activity of the promoter were inhibited without either a decrease of NF-Y or an increase of the p53 tumor suppressor, which is known to inhibit DNA binding by NF-Y. In these cells, U7 snRNA was specifically increased and associated with NF-Y, and treatment with RNase A eliminated the inhibition of NF-Y activity. These results suggest that U7 snRNA has a novel function as a transcriptional regulator to control NF-Y.
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PMID:U7 snRNA acts as a transcriptional regulator interacting with an inverted CCAAT sequence-binding transcription factor NF-Y. 1807 22

2-Methoxyestradiol (2ME), a natural derivative of estradiol, is currently evaluated in clinical trials for breast cancer. The current study aims to evaluate the modulatory effects of 2ME on regulation of multidrug resistance (MDR) in doxorubicin (Dox) resistant breast cancer cells (MCF-7/Dox) and its underlying mechanisms. The chemosensitizing effect of 2ME on Dox cytotoxicity is tested by MTT assay. RT(2) Profiler PCR Array was used to identify differentially expressed genes in Dox and/or 2ME treatment groups, based on significance of results 4 genes were selected: MDR1, Bcl2, P53 and Cyclin D1. The expression of these genes was confirmed using western blotting. Lastly, functions of these genes were examined by studying p-glycoprotein (p-gp) function, caspase 3 activity and flowcytometric cell cycle assays respectively. 2ME significantly increased sensitivity of the resistant MCF-7/Dox cells to the cytotoxic effect of Dox by 2.9-folds. The array and western blotting showed that Bcl2 and Cyclin D1 expression were down regulated; P53 expression was not affected while MDR1 was over expressed by combination of 2ME with Dox. 2ME increased p-gp function by 24+/-7.05%, compared to control. Addition of 2ME to Dox increased caspase activity by 27-folds. Combination of 2ME to Dox arrested the cell cycle in G(1) and S phases, compared to Dox. In conclusion, 2ME chemosensitizes resistant breast cancer cells to Dox cytotoxicity by down regulating expression of Bcl2 and Cyclin D1, augmenting caspase 3 activity as well as inducing cell cycle block in G(1) and S phases.
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PMID:2-Methoxyestradiol and multidrug resistance: can 2-methoxyestradiol chemosensitize resistant breast cancer cells? 1822 36


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