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 histone acetyl transferase Tip60 (HTATIP) shares many properties with the tumor suppressor p53 (TP53). Both proteins are involved in the cellular response to DNA damage, are subjected to proteasomal digestion following Mdm2-mediated ubiquitination, and accumulate after UV irradiation. We found here that knock-down of Tip60 affects the p53-dependent response following actinomycin D treatment, most likely because it inhibits p21 (CDKN1A) accumulation. Moreover, Tip60 is required for p53 to activate the endogenous p21 promoter, suggesting that it functions as a p53 co-activator. However, we also found that knock-down of Tip60 increases the turnover rate of p53 under normal growth conditions. Tip60 interferes with Mdm2-mediated degradation of p53, probably because it affects its subcellular localization. Taken together, our results suggest that Tip60 plays a double role in the p53 pathway: under normal growth conditions, Tip60 contributes to maintain a basal pool of p53 by interfering with its degradation; following DNA damage, Tip60 functions as p53 co-activator. That these two distinct roles are linked during the p53-dependent response is an attractive hypothesis.
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PMID:Role of the histone acetyl transferase Tip60 in the p53 pathway. 1531 Jul 56

p73, a p53 homologue important for growth suppression, differentiation and induction of apoptosis, utilizes different promoters and undergoes alternative splicing to produce several isoforms differing in their ability to overlap p53 functions. Using reverse transcriptase-polymerase chain reaction (RT-PCR) to assess the mRNA levels of p53, p73 (total and isoforms specific for exons 2 and 13), MDM2, CDKN1A and beta2-microglobulin as internal control, we analyzed 35 prostate carcinomas and 44 benign prostate hyperplasias (BPH) compared to 14 normal prostates. Shift of p73 isoform mRNA levels from exon 13 lacking to exon 13 containing copies was observed in 80% of prostate cancer cases and in 52.3% of BPH specimens, and from exon 2 containing to exon 2 lacking (p73Deltaexon2) transcripts in 45.7% of cancer cases, but only in 9.1% of BPH samples. From these findings we deduce that p73 isoform balance is disrupted in prostate cancer and BPH, suggesting that this disequilibrium could play an important role in both prostate hyperplasia and malignancy.
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PMID:Deregulation of p73 isoform equilibrium in benign prostate hyperplasia and prostate cancer. 1549 5

Genetically engineered mouse mammary cancer models have been used over the years as systems to study human breast cancer. However, much controversy exists on the utility of such models as valid equivalents to the human cancer condition. To perform an interspecies gene expression comparative study in breast cancer we used a mouse model that most closely resembles human breast carcinogenesis. This system relies on the transplant of p53 null mouse mammary epithelial cells into the cleared mammary fat pads of syngeneic hosts. Serial analysis of gene expression (SAGE) was used to obtain gene expression profiles of normal and tumor samples from this mouse mammary cancer model (>300,000 mouse mammary-specific tags). The resulting mouse data were compared with 25 of our human breast cancer SAGE libraries (>2.5 million human breast-specific tags). We observed significant similarities in the deregulation of specific genes and gene families when comparing mouse with human breast cancer SAGE data. A total of 72 transcripts were identified as commonly deregulated in both species. We observed a systematic and significant down-regulation in all of the tumors from both species of various cytokines, including CXCL1 (GRO1), LIF, interleukin 6, and CCL2. All of the mouse and most human mammary tumors also displayed decreased expression of genes known to inhibit cell proliferation, including NFKBIA (IKBalpha), GADD45B, and CDKN1A (p21); transcription-related genes such as CEBP, JUN, JUNB, and ELF1; and apoptosis-related transcripts such as IER3 and GADD34/PPP1R15A. Examples of overexpressed transcripts in tumors from both species include proliferation-related genes such as CCND1, CKS1B, and STMN1 (oncoprotein 18); and genes related to other functions such as SEPW1, SDFR1, DNCI2, and SP110. Importantly, abnormal expression of several of these genes has not been associated previously with breast cancer. The consistency of these observations was validated in independent mouse and human mammary cancer sets. This is the first interspecies comparison of mammary cancer gene expression profiles. The comparative analysis of mouse and human SAGE mammary cancer data validates this p53 null mouse tumor model as a useful system closely resembling human breast cancer development and progression. More importantly, these studies are allowing us to identify relevant biomarkers of potential use in human studies while leading to a better understanding of specific mechanisms of human breast carcinogenesis.
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PMID:From mice to humans: identification of commonly deregulated genes in mammary cancer via comparative SAGE studies. 1552 Jan 79

The BCCIP protein is a BRCA2 and CDKN1A (p21(Waf1/Cip1)) Interacting Protein, which binds to a highly conserved domain of BRCA2, and a C-terminal domain of the CDK-inhibitor p21. We have previously reported that overexpression of BCCIP increases p21 mRNA and protein levels, and inhibits G(1) to S progression. In this report, we show that a partial shutdown of BCCIP expression by RNA interference reduces p21 levels and impairs G(1)/S checkpoint activation in response to ionizing radiation in HT1080 cells. We further show that the regulation of p21 expression by BCCIP is dependent on p53, and BCCIP regulates p53 transcription activity. These data provide a new mechanism by which BCCIP regulates p21 functions.
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PMID:BCCIP functions through p53 to regulate the expression of p21Waf1/Cip1. 1553 44

Recent studies have demonstrated that p21WAF1 (now known as CDKN1A)-dependent and -independent accelerated senescence responses are a major determinant of the sensitivity of cancer cells to chemotherapeutic agents. The objective of the present study was to determine whether human solid tumor-derived cell lines that express wild-type TP53 can exhibit levels of CDKN1A induction after exposure to ionizing radiation that are sufficient to activate the accelerated senescence program. Exposure to 60Co gamma radiation (< or =8 Gy) triggered accelerated senescence in all five TP53 wild-type tumor cell lines examined, albeit to differing degrees. Three of the TP53 wild-type tumor cell lines, HCT116, A172 and SKNSH, activated the TP53 signaling pathway similarly to normal human fibroblasts, as judged by the nuclear accumulation of TP53, magnitude and duration of induction of CDKN1A mRNA and CDKN1A protein, and propensity to undergo accelerated senescence after radiation exposure. In the clonogenic survival assay, the degree of radiosensitivity of these three tumor cell lines was also in the range displayed by normal human fibroblasts. On the other hand, two other TP53 wild-type tumor cell lines, A498 and A375, did not maintain high levels of CDKN1A mRNA and CDKN1A protein at late times postirradiation and exhibited only low levels of accelerated senescence after radiation exposure. Studies with a CDKN1A knockout cell line (HCT116CDKN1A-/-) confirmed that the radiation-triggered accelerated senescence is dependent on CDKN1A function. We conclude that (1) clinically achievable doses of ionizing radiation can trigger CDKN1A-dependent accelerated senescence in some human tumor cell lines that express wild-type TP53; and (2) as previously documented for normal human fibroblasts, some TP53 wild-type tumor cell lines (e.g. HCT116, A172 and SKNSH) may lose their clonogenic potential in response to radiation-inflicted injury primarily through undergoing accelerated senescence.
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PMID:Induction of accelerated senescence by gamma radiation in human solid tumor-derived cell lines expressing wild-type TP53. 1560 7

The human malignant B-lymphocyte cell lines Reh and U698 show arrest in G2 phase after ionizing radiation (IR), but only Reh cells arrest in G1 phase and die by apoptosis. We have used cDNA microarrays to measure changes in gene expression at 2, 4 and 6 hr after irradiation of Reh and U698 cells with 0.5 and 4 Gy in order to begin exploring the molecular mechanisms underlying the phenotypic changes. We also investigated whether gene expression changes could be caused by possible aberrations of genes, as measured by comparative genomic hybridization. Reh cells showed upregulation of CDKN1A that likely mediated the G1 arrest. In contrast, U698 cells have impaired function of TP53 protein and no activation of CDKN1A, suppressing the arrest in G1. The G2 arrest in both cell lines was likely due to repression of PLK1 and/or CCNF. IR-induced apoptosis in Reh cells was probably mediated by TP53 and CDKN1A, whereas a high expression level of MCL1, caused by gene amplification, and activation of the NFKB pathway may have suppressed the apoptotic response in U698 cells. Genes suggested to be involved in apoptosis were activated long before this phenotype was detectable and showed the same temporal expression profiles as genes involved in cell cycle arrest. Our results suggest that differences in functionality and/or copy number of several genes involved in IR-regulated pathways contributed to the phenotypic differences between Reh and U698 cells after IR, and that multiple molecular factors control the radiation response of malignant B lymphocytes.
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PMID:Response of malignant B lymphocytes to ionizing radiation: gene expression and genotype. 1572 54

Here, we examined phytoestrogens, isoflavones (genistein, daidzein, glycitein, biochanin A and ipriflavone), flavones (chrysin, luteolin and apigenin), flavonols (kaempferol and quercetin), and a coumestan, a flavanone and a chalcone (coumestrol, naringenin and phloretin, respectively) by means of a DNA microarray assay. A total of 172 estrogen responsive genes were monitored with a customized DNA microarray and their expression profiles for the above phytoestrogens were compared with that for 17beta-estradiol (E2) using correlation coefficients, or R values, after a correlation analysis by linear regression. While R values indicate the similarity of the response by the genes, we also examined the genes by cluster analysis and by their specificity to phytoestrogens (specific to genistein, daidzein or glycitein) or gene functions. Several genes were selected from p53-related genes (CDKN1A, TP53I11 and CDC14), Akt2-related genes (PRKCD, BRCA1, TRIB3 and APPL), mitogen-activated protein kinase-related genes (RSK and SH3BP5), Ras superfamily genes (RAP1GA1, RHOC and ARHGDIA) and AP-1 family and related genes (RIP140, FOS, ATF3, JUN and FRA2). We further examined the extracts from two local crops of soy beans (Kuro-daizu or Mochi-daizu) by comparing the gene expression profiles with those of E2 or phytoestrogens as a first step in utilizing the expression profiles for various applications.
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PMID:Expression profiling of the estrogen responsive genes in response to phytoestrogens using a customized DNA microarray. 1575 68

Ecteinascidin 743 (ET-743; Yondelis, Trabectedin) is a marine anticancer agent that induces long-lasting objective remissions and tumor control in a subset of patients with pretreated/resistant soft-tissue sarcoma. Drug-induced tumor control is achievable in 22% of such patients, but there is no clear indication of the molecular features correlated with clinical sensitivity/resistance to ET-743. Nine low-passage, soft-tissue sarcoma cell lines, explanted from chemo-naive patients with different patterns of sensitivity, have been profiled with a cDNA microarray containing 6,700 cancer-related genes. The molecular signature of these cell lines was analyzed at baseline and at four different times after ET-743 exposure. The association of levels of TP53 mutation and TP73 expression with ET-743 sensitivity and cell cycle kinetics after treatment was also analyzed. Gene expression profile analysis revealed up-regulation of 86 genes and down-regulation of 244 genes in response to ET-743. The ET-743 gene expression signature identified a group of genes related with cell cycle control, stress, and DNA-damage response (JUNB, ATF3, CS-1, SAT, GADD45B, and ID2) that were up-regulated in all the cell lines studied. The transcriptional signature 72 hours after ET-743 administration, associated with ET-743 sensitivity, showed a more efficient induction of genes involved in DNA-damage response and apoptosis, such as RAD17, BRCA1, PAR4, CDKN1A, and P53DINP1, in the sensitive cell line group. The transcriptional signature described here may lead to the identification of ET-743 downstream mediators and transcription regulators and the proposal of strategies by which ET-743-sensitive tumors may be identified.
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PMID:Transcriptional signature of Ecteinascidin 743 (Yondelis, Trabectedin) in human sarcoma cells explanted from chemo-naive patients. 1589 46

DNA damage results in transcriptional induction of p53 target genes, including the cyclin-dependent kinase (CDK) inhibitor p21(Cip1) (CDKN1A) and the proapoptotic Bcl-2 family member p53 up-regulated modulator of apoptosis (PUMA). Depending on the cellular context, p21(Cip1) and PUMA mediate cell cycle arrest and apoptosis, respectively. By imposing cell cycle arrest at the expense of apoptosis, p21(Cip1) can sharply reduce the effectiveness of DNA-damaging anticancer agents in colorectal cancer cells. We investigated the link between cell cycle progression and the onset of apoptosis in DNA-damaged cells by analyzing the activation of the apoptotic cascade in p21(Cip1)-deficient HCT116 colorectal cancer cells. DNA damage induced a similar level of p53 activation and PUMA induction in p21(Cip1)-deficient cells compared with wild-type isogenic counterparts. p21(Cip1) did not act as a direct blocker of PUMA. However, only p21(Cip1)-deficient cells showed extensive cytochrome c release, mitochondrial membrane depolarization, and caspase activation. An increase in caspase activation occurred as these cells reached M-phase and incurred polyploidy. When ectopically expressed in p21(Cip1)-deficient HCT116 cells, p21(Cip1), its family member p27(Kip1), and the structurally unrelated CDK inhibitor p16(Ink4a) were similarly effective at causing cell cycle arrest and inhibiting DNA damage-induced apoptotic events such as cytochrome c release, mitochondrial membrane depolarization, and activation of the caspase cascade. These observations suggest that by blocking dysregulated cell cycle progression, CDK inhibitors can influence the sensitivity of the mitochondria to proapoptotic signals in DNA damage-induced cancer cells.
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PMID:Cyclin-dependent kinase inhibitors uncouple cell cycle progression from mitochondrial apoptotic functions in DNA-damaged cancer cells. 1600 6

The BCL6 proto-oncogene encodes a transcriptional repressor that is required for germinal center formation and has been linked to lymphomagenesis. BCL6 functions by directly binding to specific DNA sequences and suppressing the transcription of target genes. Here we report an alternative mechanism by which BCL6 controls the transcription of genes lacking a BCL6 binding site and show that this mechanism was required for the prevention of tumor suppressor p53-independent cell cycle arrest in germinal center B cells. BCL6 interacted with the transcriptional activator Miz-1 and, via Miz-1, bound to the promoter and suppressed transcription of the cell cycle arrest gene CDKN1A. Through this mechanism, BCL6 may facilitate the proliferative expansion of germinal centers during the normal immune response and, when deregulated, the pathological expansion of B cell lymphomas.
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PMID:BCL6 interacts with the transcription factor Miz-1 to suppress the cyclin-dependent kinase inhibitor p21 and cell cycle arrest in germinal center B cells. 1617 1


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