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)

Genetic alterations of Ki-ras gene, p53 gene, and DCC gene were analyzed in human colon cancer cell lines (HCCLs). On the basis of these analyses, a HCCL (HCT116)-human chromosome 18 hybrids, and targeted cell lines that were disrupted at the activated Ki-ras gene in HCCLs (HCT116 and DLD-1), were established. Tumorigenicity and expression of c-myc gene were investigated in these cell lines, respectively. 1. Point mutations of Ki-ras gene, p53 gene, and insertion mutations of DCC gene were detected in 10 out of 18 HCCLs, 8 out of 15 HCCLs, and 3 out of 16 HCCLs, respectively. 2. HCT116-chromosome 18 hybrids were morphologically similar to the parental line, and were not suppressed for tumorigenicity in vitro, but they produced slowly growing tumors in nude mice compared with the growth of the parental line. 3. The targeted cell lines that were disrupted at the activated Ki-ras gene were morphologically altered and lost neoplastic phenotypes, including tumorigenicity in nude mice and anchorage-independent growth. Furthermore, expression of c-myc gene in these clones was much reduced compared with findings in the parental line, regardless of their growth rates.
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PMID:[Analysis of molecular mechanism in colorectal tumorigenesis]. 845 95

We examined the relationship between the expression of mutant p53 proteins and tumor cell growth using a p53 antisense oligonucleotide (5'-CCCTGCTCCCCCCTGGCTCC-3'). The oligonucleotide inhibited the growth of three human colon tumor cell lines (DLD-a, SW620 and WiDr), which produce only mutant p53 proteins with different mutation sites. Treatment of DLD-1 cells with the p53 antisense oligonucleotide caused a decrease in the level of p53 mutant protein. Synthesis of DNA in DLD-1 and SW620 cells was inhibited more potently than that of RNA or protein after antisense treatment. Furthermore, these cells were accumulated in the S phase when DNA synthesis was inhibited. Meanwhile, the antisense oligonucleotide also inhibited the growth of three human normal cell lines (WI-38, TIG-1 and Intestine 407). While treatment of WI-38 and TIG-1 cells with the antisense oligonucleotide inhibited synthesis of DNA more potently than that of RNA or protein, these normal cells were accumulated in the G0/G1 phase. These results suggest that p53 proteins, either with or without mutation, play a pivotal role in the growth of tumor and normal cells, but that mutant and wild-type p53 proteins may function differently in cell growth.
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PMID:p53 antisense oligonucleotide inhibits growth of human colon tumor and normal cell lines. 869 24

The tumor suppressor p53 protein induces apoptosis in response to various kinds of DNA damage in normal cells, but it is still unclear whether or not apoptosis induced by DNA damage correlates with the p53 status in tumor cells. We determined the status of p53 by functional analysis of separated alleles in yeast in five human colon cancer cell lines, SW-480, SW-620, DLD-1, COLO320 and LS174T and investigated whether p53 is necessary for apoptosis and cell cycle arrest after treatment of the cells with a DNA-damaging agent, etoposide (VP-16), or gamma-irradiation. Of these cell lines, only LS174T expresses a functional p53. Apoptosis was detected in SW-480 and COLO320 cell lines, but not in the other cell lines, including LS174T cell line with a normal p53 function. Furthermore, cell cycle analysis revealed accumulation in the G2M phase preceding induction of apoptosis in SW-480 and COLO320 cells, but not in the other cells. These results suggest that apoptotic induction by DNA damage is not necessarily related to p53 status and that induction of p53-independent apoptosis following DNA damage may correlate with G2M arrest in the cell cycle, at least in the colon cancer cell lines used in this study.
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PMID:Induction of p53-independent apoptosis associated with G2M arrest following DNA damage in human colon cancer cell lines. 904 94

The p21WAF1/CIP1 gene, which encodes a cyclin-dependent kinase inhibitor, may be critical for tumor suppressor gene p53-induced cell cycle arrest. The p53 gene is known to regulate G1 checkpoint, which can either induce G1 arrest or initiate apoptosis. To directly examine the role of p21WAF1/CIP1 in the control of p53 function, we have introduced human p21WAF1/CIP1 gene into a p53-deficient human non-small cell lung cancer cell line H1299 using a p21WAF1/CIP1-expressing adenoviral vector (AdCMVp21). Infection with AdCMVp21 resulted in high levels of p21WAF1/CIP1 expression and significantly suppressed the growth of H1299 cells through the G1 arrest of the cell cycle. In contrast, transient expression of the wild-type p53 gene by a recombinant adenoviral vector (AdCMVp53) in H1299 cells induced apoptotic cell death and resulted in a rapid loss of cell viability. We then examined the effects of combined infection with AdCMVp21 and AdCMVp53 on H1299 cells to explore the dominant function of these molecules. Interestingly, introduction of exogenous p53 overcame p21WAF1/CIP1-mediated cell cycle arrest at G1 and induced apoptosis, although viral-transduced p21WAF1/CIP1 expression level was unaffected. These observations suggest that p53 expression converts a p21WAF1/CIP1-mediated growth arrest into apoptosis. The result was repeated with two additional human colon adenocarcinoma cell lines with the different p53 status, mutant p53-expressing DLD-1 and wild-type p53-expressing LoVo, suggesting that this phemonenon is a general event among human cancer cells. Thus, p53-mediated apoptotic pathway is dominant over the growth arrest pathway, indicating that p53 may be an essential upstream mediator of p21WAF1/CIP1 in the regulation of a cell process leading either to growth arrest or to apoptotic suicide.
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PMID:p53 expression overcomes p21WAF1/CIP1-mediated G1 arrest and induces apoptosis in human cancer cells. 936 36

Recent advances in molecular biology have demonstrated that multistep genetic alterations are involved in the carcinogenesis of human colorectal cancer and that alteration of the p53 gene by mutation, deletion, or rearrangement is a major factor in this process. Human gene therapy has become a reality with the development of effective techniques for delivering the gene to the target cells. The efficacy of gene therapy for various types of genetic disease now being evaluated in clinical trials. These findings led us to develop a novel gene therapeutic strategy for human colorectal cancer that could replace the abnormal p53 gene using a recombinant, replication-defective adenoviral vector (termed Adp53). Infection with Adp53 induced rapid apoptotic cell death in DLD-1 and LoVo human colorectal cancer cell lines differing in their p53 status. Treatment with cisplatin following infection with Adp53 significantly suppressed the growth of WiDr colorectal cancer cells compared to single treatments alone. Thus restoration of wild-type p53 function exhibited an antitumor effect by inducing apoptosis as well as by markedly enhancing the effect of common chemotherapeutic agents in human colorectal cancer cells. In addition, Adp53 infection was antiangiogenic in SW620 human colorectal cancer cells. The application of this technology to human cancer therapy is now in progress. The article reviews recent highlights in this rapidly evolving field.
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PMID:[Molecular surgery for human colorectal cancer with tumor suppressor p53 gene transfer]. 974 29

The cyclin-dependent kinase (CDK) inhibitor p21(Cip1/Waf1) plays an essential role in the control of cell proliferation by modulating the activity of cyclin/CDK complexes in response to various intracellular or extracellular signals. Small variations in p21 expression levels may determine whether it acts as an inhibitor or an assembly factor for cyclin/CDK complexes. It is therefore critical to better characterize the mechanisms regulating p21 abundance. Here, we show, using a tetracycline-regulated system in p53-deficient DLD-1 human colon cancer cells, that p21 protein levels and stability are regulated by the proteasome-dependent degradation pathway and by association with its partners, CDKs and PCNA. A p21 mutant deficient for interaction with CDKs, p21CDK-, displayed an enhanced stability and greatly reduced sensitivity to proteasome-mediated proteolysis, indicating that association with cyclin/CDK complexes may trigger p21 degradation. In contrast, a p21 mutant impaired in the interaction with PCNA, p21PCNA-, exhibited a decreased stability, suggesting that association with PCNA protects p21 from proteasome-dependent degradation. Furthermore, the abundance of p21 itself, in addition to protein-protein interactions, may also modulate p21 stability since we found that high levels of p21 expression overcome proteasome-dependent regulation of p21 accumulation.
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PMID:Interaction with cyclin-dependent kinases and PCNA modulates proteasome-dependent degradation of p21. 982 54

The CD95 (Fas/APO-1) system regulates a number of physiological and pathological processes of cell death. The ligand for CD95 induces apoptosis in sensitive target cells by interacting with a transmembrane cell surface CD95 receptor. We previously reported that the recombinant adenovirus-mediated transfer of the wild-type p53 gene caused apoptotic cell death in a variety of human cancer cells. To better understand the mechanism responsible for this cell death signaling, we have investigated the potential involvement of the CD95 receptor/ligand system in p53-mediated apoptosis. The transient expression of the wild-type p53 gene upregulated the CD95 ligand mRNA as well as protein expression in H1299 human lung cancer cells deficient for p53 and in DLD-1 and SW620 human colon cancer cells with mutated p53, all of which constitutively expressed CD95 receptor as shown by a flow cytometric analysis, and induced rapid apoptotic cell death as early as 24 h after gene transfer. However, the sensitivity to the cytolytic effect of agonistic anti-CD95 antibody (CH11) varied among these cell lines: CH11 induced apoptosis in H1299 cells, but not in DLD-1 and SW620 cells despite their abundant CD95 receptor expression, suggesting that the CD95 receptors on DLD-1 and SW620 cells might be inactivated. In addition, an antagonistic anti-CD95 ligand antibody (4H9) that interfered with the CD95-receptor-ligand interaction partially reduced the apoptosis induced by the wild-type p53 gene transfer in H1299 cells, whereas apoptosis of DLD-1 and SW620 cells occurred in the presence of 4H9. Taken together, these findings led us to conclude that the CD95 receptor/ligand system is differentially involved in p53-mediated apoptosis, suggesting that the restoration of the wild-type p53 function may mediate apoptosis through CD95 receptor/ligand interactions as well as an alternative pathway.
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PMID:Differential involvement of the CD95 (Fas/APO-1) receptor/ligand system on apoptosis induced by the wild-type p53 gene transfer in human cancer cells. 1032 65

Okadaic acid (OA), a toxin from the black sponge Halicondria okadai, is a specific inhibitor of serine/threonine protein phosphatases 1 (PP1) and 2A (PP2A). OA is a tumor promoter but also induces apoptosis in some tumor cell lines. In this study, we determined whether ras mutation and/or p53 status are characteristics associated with the cell's sensitivity to the induction of apoptosis by OA. Several cell lines that differed in ras and p53 mutations were treated with OA (10-100 nM). At 24 to 48 h after treatment, the percentage of cells undergoing apoptosis was quantitated. The cell lines with mutations in either H-ras (human bladder carcinoma cell line T24 and mouse keratinocyte cell line 308), or K-ras (human colon carcinoma cell lines DLD-1 and HCT116; human prostate cancer cell lines LNCaP and PC-3; human lung cancer cell lines Calu-6 and SKLU-1; and human pancreatic cancer cell line MIAPaCa2) were more sensitive to OA-induced apoptosis (3- to 10-fold) than the cell lines that lacked the ras mutation (mouse epidermal cell lines C50 and JB6; murine fibroblast cell line NIH3T3; human colon cancer cell line HT29; human kidney epithelial cell line Hs715.K; and human pancreatic cancer cell line Bx-PC3). Similarly, using isogenic cell lines we found that overexpression of mutated H-ras in NIH3T3 and in SV40 immortalized human uroepithelial cells (SVHUC) enhanced their sensitivity to undergo apoptosis in response to OA treatment. The T24, DLD-1, SKLU-1, Calu-6, and MIAPaCa2 cell lines express mutated p53. The SVHUC as well as their ras-transfected counterparts have inactive p53 due to complex formation between large "T" antigen and p53. Taken together, these results imply that OA-induced apoptosis may involve a p53-independent pathway. The transfectants (NIH3T3-ras and SVHUC-ras), which express mutated H-ras, have up-regulated PP2A activity. OA treatment inhibited in vivo the levels of PP1 and PP2A activity, and induced apoptosis in SVHUC-ras and other cell lines. We conclude that OA-induced cell death pathway in ras-activated cell lines may involve a cross talk between PP1 and PP2A and ras signaling pathways. In light of the present results, the current theory that OA promotes mouse skin tumor formation by selective expansion of initiated cells that harbor ras mutations needs reevaluation.
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PMID:Ras mutation, irrespective of cell type and p53 status, determines a cell's destiny to undergo apoptosis by okadaic acid, an inhibitor of protein phosphatase 1 and 2A. 1046 39

The enzyme, thymidine phosphorylase (dThdPase) is identical to platelet-derived endothelial cell growth factor (PD-ECGF), which acts as a potent angiogenic factor. The present study immunohistochemically examined the expression of dThdPase in human colorectal mucosa, adenomas and carcinomas, as well as six cultured colorectal carcinoma cell lines, in terms of intratumoral microvessel density (IMVD) and P53 expression. Thymidine phosphorylase was observed in lymphocytes, fibroblasts and macrophages, as well as smooth muscle cells and Schwann cells in the peripheral nerve fibers. The dThdPase-positive stromal cells apparently outnumbered the normal epithelial cells, adenoma and carcinoma cells with dThdPase. Weak but obvious cytoplasmic immunoreactivity was noted in a few normal colonic epithelia, predominantly the upper surface area, while a few adenoma cells showed weak nuclear immunostaining for dThdPase in six (24%) of the 25 colonic adenomas. Expression of dThdPase was noted in 33 (73.3%) of the 45 Dukes A and B, 14 (51.9%) of the 27 Dukes C and 14 (56.0%) of the 25 Dukes D carcinomas. The mean IMVD was 84.0 +/- 26.2 in the 36 dThdPase-negative carcinomas and 97.9 +/- 31.6 in the 61 dThdPase-positive carcinomas, the value being significantly higher in the latter group (P < 0.05). The frequency of dThdPase expression was significantly lower in the P53-negative carcinomas than in the positive carcinomas (P < 0.05). Western blot analysis showed the highest expression of dThdPase in LoVo carrying the wild-type p53 gene, followed by Colo201, Colo320, DLD-11 and WiDr carrying the mutated gene. These results indicate that: (i) the main source of dThdPase is stromal cells, including lymphocytes and macrophages in both colorectal normal and carcinoma tissues; (ii) dThdPase may take part in the induction of intratumoral microvessels, regardless of tumor stage; and (iii) expression might be modulated by not only P53 but also other molecules.
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PMID:Thymidine phosphorylase expression in human colorectal mucosa, adenoma and carcinoma: role of p53 expression. 1046 91

We examined cDNAs of the catalytic subunit of DNA polymerase alpha (185 kDa), the 70 kDa subunit of replication protein A (single-stranded DNA-binding protein) and the 140 kDa subunit of replication factor C for mutations. Surgical specimens from 12 patients with sporadic colon cancer and normal mucosae from the same patients were investigated. In addition, we analyzed 3 human colon cancer cell lines that exhibited defects in mismatch repair (DLD-1, HCT116, SW48) and 3 colon cancer cell lines without such a defect (HT29, SW480 and SW620). For detection of mutations, we used reverse transcription of mRNA, amplification of cDNAs by PCR, analysis of single-strand conformation polymorphism and DNA sequencing. Eleven colon cancers and 6 colon cancer cell lines were analyzed for DNA polymerase alpha. Only 2 silent point mutations were detected, in 1 colon carcinoma and in cell line HCT116. Two sequence alterations of the 70 kDa subunit of replication factor A were identified in 15 specimens (9 colon carcinomas and 6 cell lines). Colon carcinomas from 2 patients (CC5MA and CC25HN) exhibited an ACA-->GCA transition in codon 351, which caused a Thr-->Ala exchange. In carcinomas CC5MA and CC8MA, a TCC-->TCT (Ser-->Ser) transition in codon 352 was observed. The deviations in codons 351 and 352 occurred in both cancer tissues and normal mucosae, suggesting a genetic polymorphism. No mutation was found in the 140 kDa subunit of replication factor C from 16 specimens (10 tumors and 6 cell lines). Point mutations were identified in the p53 tumor-suppressor gene in 4 of the 6 colon cancer cell lines and 3 of the 8 carcinoma specimens. We did not find tumor-associated DNA sequence alterations that resulted in amino acid changes in the DNA replication genes analyzed. We infer that the scarcity of mutations found is due to stringent selection, eliminating functionally impaired replication proteins.
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PMID:Mutation analysis of replicative genes encoding the large subunits of DNA polymerase alpha and replication factors A and C in human sporadic colorectal cancers. 1076 Aug 17


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