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)

Cervical cancers evolve from lesions generated by genital human papillomaviruses (HPV). "Low-risk" genital HPVs cause benign proliferations whereas "high-risk" types have the potential to progress into cancer. High-risk HPV E6 oncoproteins interact with the ubiquitin ligase E6AP and target several cellular proteins, including p53 and proteins of the MAGI family, towards ubiquitin-mediated degradation. E6AP, like other E6 binding proteins such as E6BP, IRF-3 and paxillin, interacts with E6 via a consensus leucine-charged motif. Here we have investigated the kinetics of the interactions of a 15-mer peptide containing the LxxvarphiLsh motif of E6AP with E6. For this we have developed a Biacore assay based on antibody-capture on the sensor surface of GST- and/or MBP-E6AP peptide constructs followed by E6 protein injection. Our experiments show that E6 oncoproteins from four major high-risk (16, 18, 33 and 58) HPV types bind to E6AP with equilibrium dissociation constants in the low micromolar range. The kinetic dissociation parameters of these interactions are remarkably similar. On the other hand, low-risk HPV 11 E6 does not interact with E6AP even at relatively high concentrations. We also show that the two zinc-binding domains of E6 are required for E6AP recognition. Finally, we have analysed the binding properties of site-directed mutants of the E6AP-derived peptide. We demonstrate the importance for binding of conserved aliphatic side-chains and the moderate role of the global negative charge of the peptide. This work provides the first quantitative data on an HPV E6-mediated interaction, which support the current models of E6AP-mediated degradation.
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PMID:Kinetic analysis of the interactions of human papillomavirus E6 oncoproteins with the ubiquitin ligase E6AP using surface plasmon resonance. 1589 Feb 4

Adenovirus early region 1B-associated protein 5, E1B-AP5, a member of the heterogeneous nuclear ribonucleoprotein (hnRNP) family, was originally isolated on the basis of its ability to bind to the adenovirus 5 early region1B55K protein. Here, it has been demonstrated that E1B-AP5 interacts with mutant and wild-type p53 from human cells in pull-down assays using GST-E1B-AP5. This interaction has been confirmed by co-immunoprecipitation studies and pull-down experiments with in vitro translated E1B-AP5 and GST-p53. The binding site for E1B-AP5 has been mapped to the C-terminal region of p53. In reciprocal experiments, it has been shown that several regions of E1B-AP5 bound to p53 although it is probable that a major site of interaction is located between amino acids 395 and 732 of E1B-AP5. In reporter assays, E1B-AP5 inhibited p53 transcriptional activity although not as efficiently as the Ad5E1B55K protein. Transfection of E1B-AP5 into human tumour cells affected the cellular response to UV radiation, such that, although p53 expression was induced, little change in the level of p53-inducible genes could be observed.
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PMID:The interaction of the hnRNP family member E1B-AP5 with p53. 1590 77

Basic research and clinical chemoprevention trials support the protective role of selenium in cancer prevention but the mechanisms based on the molecular level remain to be fully defined. This mini-review focuses only on the elucidation of the molecular mechanisms of cancer prevention by selenium using the genomics approach; target organs discussed here are breast, prostate, colon and lung. The results described here support the utility of microarray technology in delineating the molecular mechanisms of cancer prevention by selenium. These results are based on studies employing human and rodent cell lines and tissues from animal models ranging from normal to frank cancer. The dose and the form of selenium are determining factors in cancer chemoprevention. The results of the microarray analysis reviewed here indicate that selenium, independent of its form and the target organ examined, alters several genes in a manner that can account for cancer prevention. Selenium can up regulate genes related to phase II detoxification enzymes, certain selenium-binding proteins and select apoptotic genes, while down regulating those related to phase I activating enzymes and cell proliferation. Independent of tissue type, selenium arrests cells in G1 phase of cell cycle, inhibits CYCLIN A, CYCLIN D1, CDC25A, CDK4, PCNA and E2F gene expressions while induces the expressions of P19, P21, P53, GST, SOD, NQO1, GADD153 and certain CASPASES. In addition to those described above, genes such as OPN, which is mainly involved in metastasis and recently reported to be down regulated by selenium, should be considered as potential molecular marker in clinical chemoprevention trials. Collectively, literature data indicate that some of these genes that were altered by selenium are also involved in the development of human cancers described in this review. It appears that androgen receptor status may influence the effect of selenium on gene expression profile in prostate cancer; whether estrogen receptor may influence the effect of selenium on gene expression in breast cancer requires further studies. Knowledge from gene array data in combination with proteomics approaches, using homogenous population of cell types with the aid of laser capture microdissection, may provide an individualized dimension of information on cancer risk and potential targets for its prevention. The molecular (genetic) biomarkers presented in this review will provide the foundation for future studies of the chemopreventive properties of structurally varied selenium compounds.
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PMID:Molecular chemoprevention by selenium: a genomic approach. 1609 79

Checkpoint kinase 2 (Chk2) is known to mediate diverse cellular responses to genotoxic stress. The fundamental role of Chk2 is to regulate the network of genome-surveillance pathways that coordinate cell-cycle progression with DNA repair and cell survival or death. Defects in Chk2 contribute to the development of both hereditary and sporadic human cancers. We now present evidence that the human T-cell leukemia virus type-1 (HTLV-1) Tax protein directly interacts with Chk2 and the kinase activity of Chk2 is inhibited by Tax. The physical interaction of Chk2 and Tax was observed by co-immunoprecipitation assays in HTLV-1-infected T cells (C81) as well as GST pull-down assays using purified proteins. Binding and kinase activity inhibition studies with Tax deletion mutants indicated that at least two domains of Tax mediate the interaction with Chk2. We have analysed the functional consequence of de novo expression of Tax upon the cellular DNA-damage-induced apoptosis, which is mediated by Chk2. Using transient transfection and TUNEL assay, we found that gamma-irradiation-induced apoptosis was decreased in 293T and HCT-116 (p53(-/-)) cells expressing HTLV-1 Tax. Our studies demonstrate an important potential target of Tax in cellular transformation.
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PMID:Human T-cell leukemia virus type 1 Tax attenuates gamma-irradiation-induced apoptosis through physical interaction with Chk2. 1615 50

To understand the molecular mechanism underlying HIPK2 regulation of the transcriptional activation by p53, we sought to identify the protein that interacts with HIPK2. From our yeast two-hybrid screen, we found that four and a half LIM domains 2 (FHL2) could bind to the C-terminal half of HIPK2. Further assays in yeast mapped the minimal interaction domain to amino acids 812-907 in HIPK2. The interaction was confirmed using a GST pull-down assay in vitro, and an immunoprecipitation (IP) assay and fluorescence microscopy in vivo. FHL2 alone spread throughout both the cytoplasm and nucleus but was redistributed to dot-like structures in the nucleus when HIPK2 was coexpressed in HEK293 cells. When tethered to the Gal4-responsive promoter through the Gal4 DBD fusion, FHL2 showed autonomous transcriptional activity that was enhanced by wild-type HIPK2, but not by the kinase-defective mutant. In addition, FHL2 increased the p53-dependent transcriptional activation and had an additive effect on the activation when coexpressed with HIPK2, which was again not observed with the kinase-defective mutant of HIPK2. Finally, we found a ternary complex of p53, HIPK2, and FHL2 using IP, and their recruitment to the p53-responsive p21Waf1 promoter in chromatin IP assays. Overall, our findings indicate that FHL2 can also regulate p53 via a direct association with HIPK2.
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PMID:FHL2 mediates p53-induced transcriptional activation through a direct association with HIPK2. 1634 38

The two BRCT domains (BRCT1 and BRCT2) of XRCC1 mediate a network of protein-protein interactions with several key factors of the DNA single-strand breaks (SSBs) and base damage repair pathways. BRCT1 is required for the immediate poly(ADP-ribose)-dependent recruitment of XRCC1 to DNA breaks and is essential for survival after DNA damage. To better understand the biological role of XRCC1 in the processing of DNA ends, a search for the BRCT1 domain-associated proteins was performed by mass spectrometry of GST-BRCT1 pulled-down proteins from HeLa cell extracts. Here, we report that the double-strand break (DSB) repair heterotrimeric complex DNA-PK interacts with the BRCT1 domain of XRCC1 and phosphorylates this domain at serine 371 after ionizing irradiation. This caused XRCC1 dimer dissociation. The XRCC1 R399Q variant allele did not affect this phosphorylation. We also show that XRCC1 strongly stimulates the phosphorylation of p53-Ser15 by DNA-PK. The pseudo phosphorylated S371D mutant was a much weaker stimulator of DNA-PK activity whereas the non-phosphorylable mutant S371L endowed with a DNA-PK stimulating capacity failed to fully rescue the DSB repair defect of XRCC1-deficient EM9 rodent cells. The functional association between XRCC1 and DNA-PK in response to IR provides the first evidence for their involvement in a common DSB repair pathway.
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PMID:XRCC1 is phosphorylated by DNA-dependent protein kinase in response to DNA damage. 1639 95

Using 2-DE of total cell protein extracts, we compared soluble proteins from murine melanoma lines Tm1 and Tm5 with proteins from the nontumoral cell melan-a from which they were derived. Seventy-one of the 452 spots (average) detected with CBB were differentially accumulated, i.e., increased or decreased twofold. Forty-four spots were identified by PMF/MALDI-TOF, 15 with increased and 29 with decreased protein levels. SAGE showed that 17/34 (50%) of the differentially accumulated proteins, pI range 4-7, presented similar differences at the mRNA level. Major reductions in protein were observed in tumor cells of proteins that degrade reactive oxygen species (ROS). Decreases of > or = twofold in GST, superoxide dismutase, aldehyde dehydrogenase, thioredoxin, peroxiredoxin 2, and peroxiredoxin 6 protein were observed. SAGE indicated the reduction of other proteins involved in ROS degradation. As expected, the accumulation of exogenous peroxides was significantly higher in the tumor cells while the levels of glutathionylation were two times lower in the tumor cells compared to melan-a. The differential accumulation of proteins involved in oncogene/tumor suppressor pathways was observed. Melanoma cells can favor survival pathways activated by ROS by inhibiting p53 pathways and activation of Ras and c-myc pathways.
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PMID:Proteomic and SAGE profiling of murine melanoma progression indicates the reduction of proteins responsible for ROS degradation. 1642 58

We have developed a surface plasmon resonance (SPR)-based protein microarray to study protein-protein interactions in a high-throughput mode. As a model system, triple protein interactions have been explored with human papillomaviral E6 protein, tumor suppressor p53, and ubiquitin ligase E6AP. Human papillomavirus (HPV) is known to be a causative agent of cervical cancer. Upon infection, the viral E6 protein forms a heterotrimeric protein complex with p53 and E6AP. The formation of the complex eventually results in the degradation of p53. In the present study, a GST-fused E6AP protein was layered onto a glutathione (GSH)-modified gold chip surface. The specific binding of GST-E6AP protein onto the gold chip surface was facilitated through the affinity of GST to its specific ligand GSH. The interacting proteins (E6 and/or p53) were then spotted. Detection of the interaction was performed using a SPR imaging (SPRI) technique. The resulting SPRI intensity data showed that the protein-protein interactions of E6AP, E6, and p53 were detected in a concentration-dependent manner, suggesting that the SPRI-based microarray system can be an effective tool to study protein-protein interactions where multiple proteins are involved.
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PMID:Surface plasmon resonance imaging protein arrays for analysis of triple protein interactions of HPV, E6, E6AP, and p53. 1649 10

Mdm2 negatively regulates p53 by inhibiting its transcriptional activity and promoting its degradation by functioning as an E3 ubiquitin ligase. The primary p53 binding site on mdm2 is located in its N-terminal domain. Through binding to p53 at its N-terminal transactivation domain, mdm2 directly blocks the transcriptional activation function of p53. We discovered that truncated mdm2 protein constructs without the N-terminal p53 binding domain are at least as active as full-length mdm2 in catalyzing p53 ubiquitination. Furthermore, the deletion of the central acidic domain significantly reduces the E3 ligase activity of mdm2 toward p53. We have also performed GST pull-down experiments to probe the direct binding of various mdm2 domain constructs toward full length p53 and found that mdm2 constructs without the N-terminal p53 binding domain retain the ability to bind to p53. Our kinetic and binding data localize the second p53 binding site between amino acids 211 and 361, including the acidic domain and the zinc finger region. Our work, consistent with other reports, suggests that the p53 tetramer interacts with at least two sites on mdm2. Although the interaction between the N-termini of mdm2 and p53 blocks the transactivation activity of p53, the interaction between the central domain of mdm2 and the core domain of p53 is critical for the ubiquitination and degradation of p53. This second mdm2-p53 interaction site represents an alternative target for small molecule modulators of the mdm2-p53 pathway.
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PMID:A second p53 binding site in the central domain of Mdm2 is essential for p53 ubiquitination. 1686 70

The p16 protein is a cyclin-dependent kinase (CDK) inhibitor, which plays an important role in the regulation of the cell cycle by inactivating the cyclin-dependent kinase (CDK) that phosphorylates the retinoblastoma (Rb) protein. Overexpression of p16 protein has been found in many types of human malignancy. Autoantibody response to p16 in cancer has not been reported. This study determined the extent and frequency of autoantibodies to p16 in diverse malignancies. p16 recombinant protein was expressed in E. Coli BL21 (DE3) cells, and purified using GST fusion protein purification system. In further studies, p16 recombinant proteins were used as antigens in enzyme-linked immunoassay (ELISA) and Western blotting. Sera from 479 cancer patients and 82 normal individuals were analyzed. Autoantibodies to p16 were found in 11.7% in cancer, with significant difference from the normal individuals (p<0.05). The results in this study also showed that the frequency of antibodies to p16 is relatively higher in nasopharyngeal cancer (28.6%), breast cancer (17.1%) and hepatocellular carcinoma (HCC, 21.4%). Of the 56 ELISA positive sera with the anti-p16 antibodies, 85.7% (48/56) had positive reactions in Western blotting. The antigen-antibody absorption experiment was also performed to confirm the specificity of the anti-p16 antibody. In order to increase the frequency of antibody detection in cancer, a combination of three tumor-associated antigens (TAAs) p16, p53 and c-myc were used. Increased frequencies at p<0.01 were found for antibodies to p16 in breast, esophageal, and nasopharyngeal cancer as well as HCC. For antibodies to c-myc, increased frequencies at p<0.01 were found in breast, cervical, colorectal and lung cancer. For antibodies to p53, increased frequencies at p<0.01 were only found in breast cancer. With the successive addition of three TAAs, there was a stepwise increase of positive anti-body reaction up to 44% in breast cancer and 43% in nasopharyngeal cancer. In summary, the results in this study suggest that the combination of antibodies might acquire higher sensitivity for early cancer diagnosis. It is conceivable that auto-antibody profiles involving different panels or arrays of TAAs might be developed in the future and the results could be useful for cancer diagnosis.
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PMID:Humoral immune response to p16, a cyclin-dependent kinase inhibitor in human malignancies. 1701


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