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)

Protein kinase CK2 is a ubiquitous protein kinase responsible for the phosphorylation of Ser and Thr residues specified by acidic side chains in many proteins, including several key enzymes, growth factor receptors, transcription factors and cytoskeletal proteins. The holoenzyme is composed of two catalytic and two regulatory subunits, the latter having antagonistic roles. CK2 is constitutively active and its targeting seems to be modulated through association with a variety of cellular proteins (e.g. heat shock protein 90 and p53). CK2 is abnormally elevated in proliferating and neoplastic tissues and recent studies suggest that mice overexpressing CK2 develop leukemia. Specific inhibitors of CK2, currently being developed, may have therapeutic potential.
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PMID:Protein kinase CK2. 936 31

In the past ten years a wealth of fundamental knowledge delineating the molecular mechanism(s) of apoptosis has emerged, and can now be exploited to identify novel apoptotic modulators for the treatment of cancer. Two distinct yet complimentary classes of non-genotoxic agonists that can selectively kill tumor cells are discussed; agents that target 'classical' and 'atypical' apoptotic signaling pathways. The goal of agents targeting classical apoptosis and survival pathways is to directly modulate key apoptotic regulators such as Bcl-2, Akt/PKB, and p53. The aim of agents targeting atypical apoptotic pathways is to target signaling cascades whose inhibition remains non-lethal in normal cells, yet is suicidal in tumor cells. Such compounds presently under development include inhibitors of heat shock protein 90, histone deacetylases and HMG-CoA reductase. Both classes of apoptotic modulators have merit and identification of additional agonists of this nature will provide the many diverse cytotoxic agents that are required to combat the many diseases we call cancer.
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PMID:Apoptosis modulators as cancer therapeutics. 1156 48

Wild-type p53 is a tumor-suppressor gene that encodes a short-lived protein that, upon accumulation, induces growth arrest or apoptosis. Accumulation of p53 occurs mainly by posttranslational events that inhibit its proteosomal degradation. We have reported previously that inhibition of NAD(P)H: quinone oxidoreductase 1 (NQO1) activity by dicoumarol induces degradation of p53, indicating that NQO1 plays a role in p53 stabilization. We now have found that wild-type NQO1, but not the inactive polymorphic NQO1, can stabilize endogenous as well as transfected wild-type p53. NQO1-mediated p53 stabilization was especially prominent under induction of oxidative stress. NQO1 also partially inhibited p53 degradation mediated by the human papilloma virus E6 protein, but not when mediated by Mdm-2. Inhibitors of heat shock protein 90 (hsp90), radicicol and geldanamycin, induced degradation of p53 and suppressed p53-induced apoptosis in normal thymocytes and myeloid leukemic cells. Differences in the effectiveness of dicoumarol and hsp90 inhibitors to induce p53 degradation and suppress apoptosis in these cell types indicate that NQO1 and hsp90 stabilize p53 through different mechanisms. Our results indicate that NQO1 has a distinct role in the regulation of p53 stability, especially in response to oxidative stress. The present data on the genetic and pharmacologic regulation of the level of p53 have clinical implications for tumor development and therapy.
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PMID:NQO1 stabilizes p53 through a distinct pathway. 1186 46

Focal adhesion kinase (FAK) and hypoxia-inducible factor (HIF-1alpha) are both up-regulated in glioblastoma multiforme (GBMs), particularly in invasive zones. Because FAK may play an important role in the invasion of glioma cells into the surrounding brain, we sought an agent that causes down-regulation of FAK phosphorylation as a potential inhibitor of brain tumor invasion and growth. Geldanamycin (GA), a benzoquinone ansamycin antibiotic, binds to heat shock protein 90 (Hsp90) and interferes with its function. GA inhibits the proliferation of various non-glial cells and has anti-tumor activity. Moreover, GA blocks HIF-regulated transcription of VEGF and inhibits the VEGF-induced phosphorylation of FAK and migration of endothelial cells. Here, we tested the effect of GA on glioma cell migration in vitro and its potential to down-regulate HIF-1alpha induction. Our results demonstrate that GA (i) decreases U87MG, LN229, and U251MG glioma cell migration; (ii) reduces cell migration independent of p53 and PTEN status; (iii) prevents migration at non-toxic concentrations; (iv) reduces phosphorylation of FAK; and (v) inhibits cobalt chloride (CoCl(2))-mediated induction of HIF-1alpha in glioma cells. To the best of our knowledge, this is the first report showing that GA can inhibit phosphorylation of FAK concomitant with a decrease in cellular migration. One of the most clinically relevant aspects of this study is that GA interferes with the induction of HIF-1alpha that has been linked with glioma cell migration and angiogenesis. Given the fact that GA is a small lipophilic molecule capable of penetrating the blood brain barrier together with the data presented here provide a strong rationale for its use or its analogues in the treatment of highly invasive GBMs.
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PMID:Geldanamycin inhibits migration of glioma cells in vitro: a potential role for hypoxia-inducible factor (HIF-1alpha) in glioma cell invasion. 1281 34

An international meeting on 'New Drugs in Cancer Therapy' was held at the National Tumor Institute of Naples, on 17-18 June 2004. The first session of the meeting focused on analogs of conventional anti-cancer drugs, such as taxanes, platinum compounds, anthracyclines and topoisomerase I inhibitors. The data of a phase II trial of BMS-247550, an epothilone B analog, in patients with renal cell carcinoma were reported. Data were also presented on BBR-3464, a trinucleate platinum analog which was developed on the grounds of greater potency, a more rapid rate of DNA binding and the ability to induce apoptosis regardless of the p53 status of the cell. Pegylated-coated liposomal formulation doxorubicin (Caelyx) has shown efficacy in metastatic breast cancer and in advanced ovarian cancer; sabarubicin is a third-generation anthracycline with equal or superior potency to doxorubicin or idarubicin in a variety of human tumor cell lines of different histotypes. The main mechanisms of resistance to topoisomerase I inhibitors were discussed; data on diflomotecan were reported, showing a narrow therapeutic index of the drug. The second session of the meeting focused on the ErbB family as a target for anti-cancer therapy. Recent evidence of a correlation between epidermal growth factor receptor (EGFR) mutations at exons 18-21 and clinical response of advanced non-small cell lung cancer to gefitinib therapy was commented on. The issue of the association between ErbB2 expression and gefitinib activity was addressed, while clinical data of a phase II study of gefitinib in advanced breast cancer were presented. Monoclonal antibodies targeting EGFR represent another worthwhile way to interfere with EGFR-driven signal transduction. Cetuximab is reaching market registration in advanced colorectal cancer; in particular, due to the results of the BOND study. The recently presented results of the Bonner study strongly support the activity of this drug in head and neck cancer. A step forward in the research on anti-EGFR monoclonal antibodies may be represented by humanized monoclonal antibodies, such as EMD 72000 and ABX-EGF. Imatinib mesylate is probably the most outstanding example of an effective targeted therapy--its activity in gastrointestinal stromal tumors was so exciting that the drug reached the market without undergoing phase III evaluation. The third session of the meeting was on angiogenesis inhibitors. Drugs may interfere with the angiogenic process via different mechanisms and there is a sound rationale for combining anti-angiogenic agents with chemotherapy or multiple anti-angiogenic strategies. Clinical results obtained with direct anti-angiogenic agents have been negative up to now, but some exciting results have been seen with bevacizumab, a monoclonal antibody targeting vascular endothelial growth factor (VEGF). A few VEGF-tyrosine kinase inhibiting small molecules, such as ZD6474, AZD2171 and PTK/ZK, are undergoing clinical trials. The fourth session of the meeting was on interference with intracellular signal transduction. Farnesyl transferase inhibitors exert their action by interfering with either pro-Ras or RhoB farnesylation. Several clinical studies of different phases with compounds belonging to this class have been carried out, either alone or in combination with chemotherapy; unfortunately, all of them have turned out to be negative. Cell cycle inhibitors, such as CYC-202 and BMS-387032, represent a class of interesting compounds which are in the early phase of development and whose clinical results are eagerly awaited. Another strategy to achieve cell cycle inhibition is to target heat shock protein 90, a molecular chaperone required for protein folding. Clinical data on depsipeptide, a histone deacetylase (HDAC) inhibitor with activity in T cell lymphoma, were presented. Suberoylanilide hydroxamic acid is another small molecular weight inhibitor of HDAC activity. Phase I/II clinical trials have shown low toxicity and evidence of anti-tumor activity; on the other hand, this compound has potential for synergism with radiotherapy, chemotherapy and biologicals.
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PMID:New drugs in cancer therapy, National Tumor Institute, Naples, 17-18 June 2004. 1565 20

Anti-tumor antibodies have potential as cancer biomarkers. There is relatively limited identification of anti-tumor antibodies in response to ovarian cancer, compared with studies for other cancers. There is also very limited information on the prevalence of anti-tumor antibodies among ovarian cancer patients. Although most anti-tumor antibodies react with antigens common to both tumor and normal tissue, the anti-tumor response tends to be confined to individuals with ovarian cancer, similar to other cancers. Antibodies to HOXA7, a differentiation antigen, have the highest reported prevalence in ovarian cancer (67%). Antibodies to other ubiquitous antigens including NY-ESO-1, Ep-CAM (epithelial cell adhesion molecule), HSP-90 (heat shock protein 90), and mutated p53 have been identified in ovarian cancer. Anti-tumor antibody specificity reflects the heterogeneity of antigen expression in tumors. Tests based on panels of a combination of anti-tumor antibodies may be more predictive for ovarian cancer, as no single specificity accounts for ovarian tumors. In addition to characterization of anti-tumor antibodies as diagnostic markers, study of anti-tumor antibodies is likely to provide insights into mechanisms of tumor development. There is evidence of antibodies to tumor antigens and of activated T cells, suggesting immune recognition of tumor antigens occurred. Nonetheless, as tumors are not 'rejected', it is likely that there are alterations in the immune system. The basis for tumor growth in the face of immune activity remains to be determined.
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PMID:Anti-tumor antibodies in ovarian cancer. 1610 96

Inhibition of heat shock protein 90 (Hsp90) has emerged as a novel intervention for the treatment of solid tumors and leukemias. Here, we report that F(1)F(0)-ATP synthase, the enzyme responsible for the mitochondrial production of ATP, is a co-chaperone of Hsp90. F(1)F(0)-ATP synthase co-immunoprecipitates with Hsp90 and Hsp90-client proteins in cell lysates of MCF-7, T47D, MDA-MB-453, and HT-29 cancer cells. Inhibition of F(1)F(0)-ATP synthase by efrapeptins results in the disruption of the Hsp90 complexing with its substrate proteins and, in most cases, in the degradation of the latter. Hsp90-client proteins affected by the inhibition of F(1)F(0)-ATP synthase included ERalpha, mutated p53 (m.p53), Hsp70, Hsp27, and caspase-3 but not Raf-1. This is the first report identifying caspase-3 as a substrate protein of Hsp90. Unlike typical Hsp90 inhibitors, efrapeptin treatment triggers Hsp70 downregulation in parallel with depletion of Hsp90. This suggests that suppression of Hsp90 chaperone function through inhibition of F(1)F(0)-ATP synthase does not result in activation of transcription factor HSF-1, a generally unfavorable consequence of anti-cancer treatments based on Hsp90 inhibition.
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PMID:F1F0-ATP synthase functions as a co-chaperone of Hsp90-substrate protein complexes. 1668 2

Development of new molecular target therapeutic agents is expected to improve clinical outcome, ideally with efficacy in both single and combined treatment modalities. Because of the potential for affecting multiple signaling pathways, inhibition of the molecular chaperone heat shock protein 90 (Hsp90) may provide a strategy for enhancing tumor cell radiation sensitivity. Therefore, we have investigated the effects of Hsp90 inhibitor 17-Allylamino-17-demethoxygeldanamycin (17-AAG) on radiation sensitivity of human tumor cells in vitro. We evaluated the effects of 17-AAG using oral squamous cell carcinoma (OSCC) cell lines (HSC2, HSC3 and HSC4), including two types of SAS cells with a wild-type (SAS/neo), or a mutated p53 status (SAS/Trp248). Apoptosis and clonogenic survival were examined after exposure of the cells to radiation. For mechanistic insight, we analyzed cell cycle, several signaling factors and molecular markers including Akt, Raf-1, p38 MAPK, Cdc25B, Cdc25C, Cdk2 and p21. Treatment of OSCC cell lines with 17-AAG resulted in cytotoxicity and, when combined with radiation, enhanced the radiation response. However, the responses depended on p53 status. 17-AAG enhanced the radiation sensitivity significantly and induced apoptosis in the SAS/neo cell which has a wild-type p53. But the radiation sensitizing effect of 17-AAG was limited in the SAS/Trp248 cell which has a mutated p53. We also measured the total levels of several prosurvival and cell cycle signaling proteins. Akt, Raf-1 and Cdc25C expression were down-regulated in 17-AAG-treated cells. These data indicate that 17-AAG inhibits the proliferation and enhances the radiation sensitivity of human OSCC cells in various levels. However, enhancement of radiation sensitivity by the Hsp90 inhibitor depended on p53 status. Therefore, Hsp90 therapy combined with radiation might synergize with conventional therapies in patients with wild-type p53.
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PMID:P53-dependent radiosensitizing effects of Hsp90 inhibitor 17-allylamino-17-demethoxygeldanamycin on human oral squamous cell carcinoma cell lines. 1701 41

Acetylation of the epsilon-amino group of lysine residues (N(epsilon)-acetylation) is a reversible post-translational modification with the potential to rival phosphorylation. In addition to histones and many transcription factors such as p53, regulators of DNA repair, replication and recombination are subject to N(epsilon)-acetylation. This modification is also important for governing the activities of various enzymes, including histone acetyltransferases, histone deacetylases, bacterial and mammalian acetyl-CoA synthases, kinases, phosphatases, the ubiquitin ligase murine double minute 2 and the chaperonin heat shock protein 90. Furthermore, lysine acetylation occurs in cellular structure proteins such as alpha-tubulin, actin, cortactin and p120 catenin. Strikingly, the Yersinia outer protein YopJ promotes O-acetylation of crucial serine and threonine residues that are required for activation of the MAPK/ERK kinase and IkappaB kinase families, which precludes their phosphorylation and blocks signal transduction. Thus, N(epsilon)- and O-acetylation are becoming recognized as two prominent mechanisms for regulating protein functions in diverse organisms.
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PMID:Metabolism, cytoskeleton and cellular signalling in the grip of protein Nepsilon - and O-acetylation. 1754 96

Resistance to imatinib can occur in patients with chronic myelogenous leukemia (CML). In this study, we report mechanisms of action of histone deacetylase (HDAC) inhibitor, depsipeptide (FK228) in BCR/ABL-expressing cell lines and its effectiveness in imatinib-resistant cells from patients with blast crisis of CML. FK228 potently induced apoptosis of TF-1 BCR/ABL, K562, and H7 BCR/ABL cells. We found that histone H4, BCR/ABL, heat shock protein 90 (HSP-90), p53, focal adhesion kinase (FAK), paxillin, and retinoblastoma protein (Rb) were acetylated in the treated cells. Cells were also blocked in G(2)/M phase of the cell cycle and activity of mitogen-activated protein kinase (MAPK) was blocked, but p38MAPK (p38) was activated. Inhibitor of apoptosis proteins (IAPs) were suppressed, and common results of apoptotic induction were observed, such as caspase-3, caspase-9, and poly(ADP-ribose) polymerase (PARP) activation. Although p38 was phosphorylated after FK228 treatment, histone H4 acetylation, caspase-3 activation, and apoptosis were not inhibited by treatment with the p38 inhibitor SB203580. We also found that human telomerase reverse transcriptase (hTERT) ShRNA-transfected cells demonstrated decreased FK228-induced apoptosis. Of clinical relevance, FK228-induced apoptosis of imatinib-resistant primary cells from patients with CML, who had progressed to blast crisis (BC) while receiving therapy with imatinib. In conclusion, FK228 potently induces apoptosis of CML cells by acetylation and degradation of BCR/ABL protein. Our study suggests how FK228 may mediate its effects on imatinib-resistant CML cells.
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PMID:Depsipeptide (FK228) preferentially induces apoptosis in BCR/ABL-expressing cell lines and cells from patients with chronic myelogenous leukemia in blast crisis. 1761 Mar 80

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