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)

The advent of DNA microarray technology will likely have a major impact on the molecular classification and understanding of human cancer. Obtaining a global perspective of proteins expressed in cancer cells is considerably more challenging. Here we describe a microarray-based platform that can be used to measure protein levels and activities in a complex biological milieu such as a cellular lysate. Using a protein microarray made up of 1920 elements (146 distinct antibodies) we were able to monitor alterations of protein levels in LoVo colon carcinoma cells treated with ionizing radiation. The protein microarray approach revealed radiation-induced up-regulation of apoptotic regulators including p53, DNA fragmentation factor 40/caspase activated DNase, DNA fragmentation factor 45/inhibitor of caspase activated DNase, tumor necrosis factor-related apoptosis-inducing ligand, death receptor 5, decoy receptor 2, FLICE-like inhibitory protein, signal transducers and activators of transcription 1alpha, and uncoupling protein 2, among others. Consistent with this observation, an increased percentage of apoptosis was observed in irradiated LoVo cells. Interestingly, we also observed radiation-induced down-regulation of carcinoembryonic antigen, a prototypic cancer biomarker. Selected proteins assessed by microarray were validated by traditional immunoblotting. Taken together, our work suggests that protein/antibody microarrays will facilitate high-throughput proteomic studies of human cancer and carcinogenesis.
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PMID:Profiling of cancer cells using protein microarrays: discovery of novel radiation-regulated proteins. 1160 98

The death receptor 5 (DR5) is a receptor for tumor necrosis factor-related apoptosis-inducing ligand and is able to induce apoptosis in various tumor cells. The expression of DR5 is up-regulated at the transcriptional level by p53, genotoxic stress and so on. To investigate the structure of the DR5 gene promoter, we screened and sequenced a genomic clone containing the 5'-flanking region of the DR5 gene. RNase protection assays showed two major transcription start sites around -122 and -137 upstream of the translation initiation codon ATG. Transient transfections with serial 5'-deletion mutants identified the minimal promoter element spanning -198 to -116. Site-directed mutagenesis demonstrated that the DR5 gene promoter has no typical TATA-box, but has two Sp1 sites responsible for the basal transcription activity of the DR5 gene promoter.
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PMID:Promoter structure and transcription initiation sites of the human death receptor 5/TRAIL-R2 gene. 1169 76

Natural killer (NK) cells and interferon (IFN)-gamma have been implicated in immune surveillance against tumor development. Here we show that tumor necrosis factor-related apoptosis-inducing ligand (TRAIL) plays a critical role in the NK cell-mediated and IFN-gamma-dependent tumor surveillance. Administration of neutralizing monoclonal antibody against TRAIL promoted tumor development in mice subcutaneously inoculated with a chemical carcinogen methylcholanthrene (MCA). This protective effect of TRAIL was at least partly mediated by NK cells and totally dependent on IFN-gamma. In the absence of TRAIL, NK cells, or IFN-gamma, TRAIL-sensitive sarcomas preferentially emerged in MCA-inoculated mice. Moreover, development of spontaneous tumors in p53(+/-) mice was also promoted by neutralization of TRAIL. These results indicated a substantial role of TRAIL as an effector molecule that eliminates developing tumors.
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PMID:Critical role for tumor necrosis factor-related apoptosis-inducing ligand in immune surveillance against tumor development. 1180 43

The efficacy of chemotherapeutic drugs is hampered by the occurrence of intrinsic and acquired drug resistance. A variety of mechanisms cause drug-resistance. A final common factor, however, is the reduced capacity of drug resistant cells to go into apoptosis following treatment with DNA damaging agents. This is due to defects in apoptotic pathways, for example, changes in p53. The presence of a common factor makes it of interest to search for ways that facilitate the cell to go into apoptosis following exposure to chemotherapeutic drugs. The death receptor ligands tumor necrosis factor (TNF), Fas ligand (FasL) and TNF-related apoptosis-inducing ligand (TRAIL) are able to induce apoptosis by binding to their cell membrane receptors. Recombinant forms of these ligands are capable to potentiate the effect of chemotherapeutic drugs in vitro and in vivo in the animal model. Based on preclinical toxicity and activity profiling, especially TRAIL is considered to be of interest for clinical use. Systemic treatment of non-human primates with TRAIL did not result in acute toxicity. Animal studies demonstrated antitumor activity of TRAIL and potentiation of the chemotherapy efficacy by TRAIL. Phase 1 studies with TRAIL will therefore be initiated. As TRAIL is supposed to be non-toxic, it will be a major challenge to design surrogate end points to find the optimal dose in the clinic. In analogy to the herceptin therapy, it may be helpful to characterize the tumor of the patient. In addition, ex vivo exposure of the tumor may also be useful to select the proper ligand therapy for the individual patient. For optimal effect it is most likely that ligand therapy will be combined with chemotherapy, but even a combination of ligands for patient treatments can be envisioned. It is to be expected that smart, small molecules targeting these death receptors will be designed in order to lower toxicity and increase antitumor activity.
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PMID:Death receptor ligands, in particular TRAIL, to overcome drug resistance. 1183 47

Pro-apoptotic Bax and Bak have been implicated in the regulation of p53-dependent apoptosis. We assessed the ability of primary baby mouse kidney (BMK) epithelial cells from bax(-/-), bak(-/-), and bax(-/-) bak(-/-) mice to be transformed by E1A alone or in conjunction with dominant-negative p53 (p53DD). Although E1A alone transformed BMK cells from p53-deficient mice, E1A alone did not transform BMK cells from bax(-/-), bak(-/-), or bax(-/-) bak(-/-) mice. Thus, the loss of both Bax and Bak was not sufficient to relieve p53-dependent suppression of transformation in epithelial cells. To test the requirement for Bax and Bak in other death signaling pathways, stable E1A plus p53DD-transformed BMK cell lines were derived from the bax(-/-), bak(-/-), and bax(-/-) bak(-/-) mice and characterized for their response to tumor necrosis factor-alpha (TNF-alpha)-mediated apoptosis. The loss of both Bax and Bak severely impaired TNF-alpha-mediated apoptosis, but the presence of either Bax or Bak alone was sufficient for cell death. Cytochrome c was released from mitochondria, and caspase-9 was activated in Bax- or Bak-deficient cells in response to TNF-alpha but not in cells deficient in both. Thus, either Bax or Bak is required for death signaling through mitochondria in response to TNF-alpha, but both are dispensable for p53-dependent transformation inhibition.
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PMID:Bax and Bak independently promote cytochrome C release from mitochondria. 1183 41

The cytokine tumor necrosis factor (TNF)alpha induces caspase-dependent cell death in a subset of tumor cells. In this report, we show a novel suppressive effect of calpeptin, a calpain inhibitor, on TNFalpha-induced cell death and accumulation of p53 in L929 mouse fibrosarcoma. Exposure to 10 ng/ml TNFalpha induced cell death in >50% of L929 cells within 12 h and stimulated accumulation of p53 (8-fold). Preincubation of cells with calpeptin blocked both TNFalpha-induced cell death and accumulation of p53 as examined with Western blot. TNFalpha-induced accumulation of p53 was in part contributed by increase of p53 mRNA level (2.2-fold) in a calpeptin-insensitive manner. Interestingly, other calpain inhibitors tested did not show these effects like calpeptin and TNFalpha treatment did not increase apparent calpain activity in L929 cells, suggesting that calpeptin may have another function besides targeting calpain. Expression of dominant negative mutant p53Val(135) reduced the incidence of TNFalpha-mediated cell death. Taken together, our findings suggest that TNFalpha induces calpeptin-dependent, but calpain-independent accumulation of p53 protein as a necessary step leading to death in L929 cells.
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PMID:Calpeptin suppresses tumor necrosis factor-alpha-induced death and accumulation of p53 in L929 mouse sarcoma cells. 1186 95

Alpha-tocopheryl succinate (alpha-TOS), a redox-inactive analogue of vitamin E, is a strong inducer of apoptosis, whereas alpha-tocopherol (alpha-TOH) lacks apoptogenic activity (J. Neuzil et al., FASEB J., 15: 403-415, 2001). Here we investigated the possible antineoplastic activities of alpha-TOH and alpha-TOS and further explored the potential of alpha-TOS as an antitumor agent. Using nude mice with colon cancer xenografts, we found that alpha-TOH exerted modest antitumor activity and acted by inhibiting tumor cell proliferation. In contrast, alpha-TOS showed a more profound antitumor effect, at both the level of inhibition of proliferation and induction of tumor cell apoptosis. alpha-TOS was nontoxic to normal cells and tissues, triggered apoptosis in p53(-/-) and p21(Waf1/Cip1(-/-)) cancer cells, and exerted a cooperative proapoptotic activity with tumor necrosis factor-related apoptosis-inducing ligand (Apo2 ligand) due to differences in proapoptotic signaling. Finally, alpha-TOS cooperated with tumor necrosis factor-related apoptosis-inducing ligand in suppression of tumor growth in vivo. Vitamin E succinate is thus a potent and highly specific anticancer agent and/or adjuvant of considerable therapeutic potential.
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PMID:Vitamin E succinate is a potent novel antineoplastic agent with high selectivity and cooperativity with tumor necrosis factor-related apoptosis-inducing ligand (Apo2 ligand) in vivo. 1189 20

In the present study, we have investigated the mechanisms by which the restoration of wild-type (wt) p53 functions in p53 mutant cells increases their susceptibility to the cytotoxic action of tumor necrosis factor (TNF). Our data indicate that the resistance of p53-mutated cl.1001 cells to TNF-induced cell death was not due to a defect in the expression of TRADD and FADD, yet correlated with a reduced caspase-8 activation as well as a deficient mitochondrial membrane permeabilization. Moreover, cl.1001 cells failed to translocate the mitochondrial AIF and cytochrome c to the nucleus and to the cytosol, respectively, in response to TNF. Sensitization of these cells, following infection with a recombinant adenovirus encoding wtp53, to TNF-induced cytotoxicity resulted in the restoration of caspase-8 cleavage and the reestablishment of mitochondrial signs of apoptosis. These findings suggest that the cross-talk between p53 and TNF-induced cell death depends on mitochondria and that the combination of TNF and Adwtp53 may be a potential strategy to sensitize mutant p53 TNF-resistant tumors to the cytotoxic action of this cytokine.
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PMID:Wild-type p53 induced sensitization of mutant p53 TNF-resistant cells: role of caspase-8 and mitochondria. 1189 37

The cornerstone of the systemic treatment of advanced colorectal cancer is 5-fluorouracil.However, 5-fluorouracil-induced apoptosis is dependent on p53, a tumor suppressor gene that is lost or inactivated in at least 85% of human colorectal cancers. Here we show that tumor necrosis factor-related apoptosis-inducing ligand (TRAIL)/Apo2L triggers caspase-8-mediated truncation of BID, mitochondrial activation of caspase-9, and apoptosis in both p53(+/+) or p53(-/-) isogenic HCT116 colorectal cancer cells. TRAIL/Apo2L also sensitizes both p53(+/+) or p53(-/-) colorectal cancer cells to ionizing radiation. In contrast, we find that TRAIL/Apo2L fails to activate caspase-9 or induce apoptosis in isogenic HCT116 colorectal cancer cells that are deficient in BAX, a proapoptotic gene that is mutated in >50% of colorectal cancers of the microsatellite mutator phenotype. Loss of BAX also renders colorectal cancer cells resistant to TRAIL/Apo2L-mediated radiosensitization. We additionally demonstrate that TRAIL/Apo2L-induced death of p53(+/+)- or p53(-/-)- BAX-proficient but not BAX-deficient colorectal cancer cells is augmented by reducing nuclear factor-kappaB-dependent expression of Bcl-x(L) with either a peptide that disrupts the inhibitor of kappaB kinase complex or the nonsteroidal anti-inflammatory drug, sulindac sulfide. These results indicate that the combination of TRAIL/Apo2L with either irradiation or sulindac may be highly effective against both p53-proficient and p53-deficient colorectal cancers; however, BAX-deficient tumors may evade elimination by TRAIL/Apo2L-based regimens. Our findings may aid the development and genotype-specific application of TRAIL/Apo2L-based combinatorial regimens for the treatment of colorectal cancers.
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PMID:Requirement of BAX for TRAIL/Apo2L-induced apoptosis of colorectal cancers: synergism with sulindac-mediated inhibition of Bcl-x(L). 1191 24

High risk strains of human papillomavirus (HPV), such as HPV 16, cause human cervical carcinoma. The E6 protein of HPV 16 mediates the rapid degradation of p53, although this is not the only function of E6 and cannot completely explain its transforming potential. Previous work in our laboratory has demonstrated that transfection of HPV 16 E6 into the tumor necrosis factor (TNF)-sensitive LM cell line protects expressing cells from TNF-induced apoptosis in a p53-independent manner, and the purpose of this study was to determine the molecular mechanism underlying this protection. Caspase 3 and caspase 8 activation were significantly reduced in E6-expressing cells, indicating that E6 acts early in the TNF apoptotic pathway. In fact, E6 binds directly to TNF R1, as shown both by co-immunoprecipitation and mammalian two-hybrid approaches. E6 requires the same C-terminal portion of TNF R1 for binding as does TNF R1-associated death domain, and TNF R1/TNF R1-associated death domain interactions are decreased in the presence of E6. HA-E6 also blocked cell death triggered by transfection of the death domain of TNF R1. Together, these results provide strong support for a model in which HPV E6 binding to TNF R1 interferes with formation of the death-inducing signaling complex and thus with transduction of proapoptotic signals. They also demonstrate that HPV, like several other viruses, has developed a method for evading the TNF-mediated host immune response.
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PMID:The human papillomavirus 16 E6 protein binds to tumor necrosis factor (TNF) R1 and protects cells from TNF-induced apoptosis. 1193 87


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