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)

To evaluate significant postoperative prognostic factors for esophageal carcinoma, clinicopathological findings and several markers for biological malignant potential were studied, including cell nuclear DNA contents, EGF receptor, p53 protein, MMP-2, Ki-67 positive cell rate, and tumors infiltrating Leu 7 cells. The subjects of this study were 96 patients with thoracic esophageal carcinoma, who underwent radical surgery with extended lymphadenectomy. In the pathological findings, the postoperative survival rate significantly correlated with depth of invasion (pT1(-2) vs. pT3, p = 0.003), lymph node involvement (pNo vs. pN1, p = 0.0002), vascular invasion (-vs. +, p = 0.0003), stage (pSt. 1-2A vs. 3, p = 0.0018), and the number of node involvements (1-3 vs. more than 4, p = 0.025). Analyzing the markers for the malignancy, a significant difference in postoperative mortality due to the relapse was recognized with p value of 0.0009 between Ki-67 positive (under 1%) and Ki-67 negative (over 1%) tumor. Ki-67 positive tumor significantly correlated with the mortality in both cases with pNo (p = 0.024) and pN1 (p = 0.020). Low-grade tumor infiltrating Leu 7 cells significantly correlated with the mortality (Grade 1+ vs. 2+, p = 0.013; Grade 1+ vs. 3+, p = 0.008). These results suggest that Ki-67 study is a useful prognostic factor after radical surgery for thoracic esophageal carcinoma.
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PMID:[Postoperative prognostic factors for carcinoma of the thoracic esophagus]. 788 53

There has been an explosive increase in information relevant to the pathways that determine growth signal transduction, regulation of the cell cycle, mechanism of action of oncogenes and tumor suppressors, and mechanisms of programmed cell death (apoptosis). Additional information is needed to determine the targets for anticancer therapy that are most likely to lead to cancer cell death and/or growth cessation. Current experimental clinical approaches are directed toward killing cells with unique cancer-related phenotypes, such as cell surface antigens or growth factor receptors, or altering the host immune system to attack cancer cells. The following major therapeutic targets were identified during the course of this conference: 1) Reduce activity of gene products associated with stimulation of cell growth and increase activity of gene products that inhibit growth. The major principle here is that genes known to be sufficient for malignant transformation (such as Ras, Raf, and Bcr-Abl) and genes whose expression is necessary, but not sufficient, for malignant transformation (such as some cyclins) both may be important targets for anticancer drugs. The reason genes necessary but not sufficient for cell growth are targets is that progression through the cell cycle is based on a series of "on-off" switches whose activation depends on critical levels of specific kinases and phosphatases. Subtle differences in concentration or activity of these regulators, as may be found in cancer cells, could profoundly influence the position of the switch. There are many ways to affect activity of gene products, including use of anti-sense or ribozyme targeting of mRNAs; manipulation of regulatory controls (i.e., state of phosphorylation of Raf and p53; effect of SOS and GAP on Ras, etc.); alteration of essential covalent modifications (i.e., farnesylation of Ras which is essential for its association with the plasma membrane); and various forms of gene therapy to introduce genes (i.e., addition of wild-type p53) or to reduce activity of genes essential for growth (i.e., dominant negative receptor mutants). 2) Interfere with protein-protein or DNA-protein interactions that are needed for the activity of oncogenes and/or growth factors or the transcription factors essential for cell growth. This approach has been demonstrated to work in vitro to interfere with SH2-tyrosine phosphate interactions (i.e., Grb-2 and EGF receptor) and Ras-Raf interactions using specific peptides (J. Downward), but to be useful therapeutically it must be possible to introduce stable low-molecular-weight drugs into cells to affect these interactions.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Report of a meeting: molecular basis of cancer therapy. 791 37

We recently described culture conditions that allow proliferation of metastatic human breast cancer cells from biopsy specimens of certain patient samples. These conditions resulted in the development of an immortalized cell strain designated SUM-44PE. These same culture conditions were used to isolate a human breast cancer cell strain from a metastatic lymph node of a separate breast cancer patient. The SUM-16LN human breast cancer cells isolated from this specimen were cultured either in serum-free medium or serum-containing medium supplemented with insulin and hydrocortisone. Unlike the SUM-44PE cells that have proliferated in culture continuously for over two years, SUM-16LN cells proliferated in culture for approximately 200 days and underwent 15 to 20 population doublings before undergoing cell senescence. No cells of this strain proliferated beyond passage 8. SUM-16LN cells were keratin-19 positive and had an aneuploid karyotype. These cells overexpressed p53 protein and had an amplified epidermal growth factor (EGF) receptor gene that resulted in high level expression of tyrosine phosphorylated EGF receptor protein. Despite the presence of high levels of tyrosine phosphorylated EGF receptor in these cells, they proliferated in serum-free, EGF-free medium and did not secrete detectable levels of EGF-like mitogenic growth factor. In addition, these cells were potently growth inhibited by all concentrations of exogenous EGF tested and by the neutralizing EGF receptor antibody Mab 425. These results suggest that the high level of tyrosine phosphorylated EGF receptor present in these cells is the direct result of receptor overexpression and not the result of the presence of a stimulatory ligand. Thus, SUM-16LN represents a human breast cancer cell strain that exhibited genetic and cellular characteristics of advanced human breast cancer cells. Nevertheless, these cells exhibited a finite proliferative lifespan in culture, suggesting that cellular immortalization is not a phenotype expressed by all human breast cancer cells.
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PMID:Finite proliferative lifespan in vitro of a human breast cancer cell strain isolated from a metastatic lymph node. 801 55

Many of the genetic alterations related to carcinogenesis and progression such as gene amplification, deletion, mutation and overexpression can be analyzed on paraffin-embedded clinical materials. Genetic abnormalities of tumor suppressor gene such as p53 and APC (adenomatous polyposis coli) are good markers for differential diagnosis of gastrointestinal cancers. Gene amplification and overexpression of oncogenes and growth factors/receptors such as c-met, K-sam, c-erbB2, EGF and EGF receptor are biological marker of biological malignancy. Molecular diagnosis has been done in Hiroshima Medical Association Laboratory to make an objective diagnosis for border line lesions and to obtain information on the biological behavior of gastrointestinal cancers based on genetic alterations. Molecular analysis is a powerful tool to complement histological diagnosis of gastrointestinal lesions.
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PMID:[Molecular diagnosis on gastrointestinal cancers]. 817 44

Human squamous carcinoma A431 cells express a high level of epidermal growth factor (EGF) receptor. The cells carry only a mutated form of the p53 gene, the G-->A mutation at codon 273 which results in an arginine to histidine substitution (mp53). The temporal changes of EGF receptor, c-Raf-1, mp53, and cell cycle distribution in A431 cells after 1-h exposure to doxorubicin (DOX) are examined. EGF receptor in A431 cells is inactivated at 5 min; subsequently, the receptor level increases and reaches its maximum 4-8 h after DOX treatment. Dephosphorylation of c-Raf-1 is detected at 30 min and the decay of the protein is demonstrated at 8 h in cells after exposure to DOX. The level of mp53 in A431 cells remains unchanged for 8 h after DOX treatment but increases by about 20-fold at 24 h. There is no significant change in cell cycle distribution in A431 cells for up to 8 h after DOX exposure, whereas cells are accumulated in S and G2-M phases by 24 h. It is postulated that DOX inactivates EGF signal transduction and induces mp53. The increase in mp53 is coincident with DOX-induced G2-M block in cells.
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PMID:Up-regulation of a mutant form of p53 by doxorubicin in human squamous carcinoma cells. 818 62

Multiparameter flow cytometry studies were performed on the cells of an aggressive human breast cancer at the time of diagnosis and at relapse. The aneuploid cells that overexpressed large amounts of both HER-2/neu and ras survived intensive chemotherapy and were responsible for tumor relapse. At relapse, these cells were shown to overexpress simultaneously at least five oncogenes: HER-2/neu, ras, EGF receptor, p53 and c-myc. A partial reconstruction of the genetic evolutionary sequence in this tumor indicated that HER-2/neu overexpression was an early step in the sequence. Subsequent HER-2/neu overexpression, EGF receptor overexpression and p53 protein overexpression were each associated with ras overexpression. The data suggest that ploidy and oncogene overexpression cannot be used as independent clinical prognostic factors. The ability to characterize tumors according to the degree of advancement in the genetic evolutionary might serve as a basis for genetic staging for adjuvant therapy.
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PMID:Preferred genetic evolutionary sequences in human breast cancer: a case study. 887 61

Neoplastic transformation occurs in all glial cell types of the human nervous system, producing a wide variety of clinico-pathological entities and morphological variants. Astrocytomas are most common and span an unusually wide spectrum, ranging from the slowly growing juvenile pilocytic astrocytoma to the highly malignant glioblastoma multiforme. Diffusely infiltrating astrocytomas of the cerebral hemispheres show an inherent tendency for progression towards a more malignant phenotype. This change is morphologically categorized in histologic grading schemes (e.g., WHO Grade II to IV) and is associated with the sequential acquisition of genetic alterations, including mutations in the p53 and homozygous deletions of the p16 tumour suppressor genes. Loss of heterozygosity on chromosomes 10 and 19q as well as amplification of the EGF receptor are largely restricted to malignant gliomas and thus considered late events in astrocytoma progression. Gliomas often show phenotypic expression of different glial cell lineages (e.g., oligoastrocytoma). Recent studies suggest that the occurrence of mixed gliomas is not indicative of a polyclonal origin but rather reflects altered gene expression, leading to a change in the balance of growth factors influencing glioma differentiation.
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PMID:Histopathology, classification, and grading of gliomas. 858 58

The past few years have seen remarkable progress in understanding the molecular genetic basis of glioma formation. Affected oncogenes and tumor suppressor genes have been identified and putative tumor suppressor loci have been mapped. These studies have illustrated distinct molecular pathways for different glial neoplasms. We summarize the findings of an ongoing study initiated to characterize human gliomas on a molecular basis. The data are compiled from 150 astrocytic, oligodendroglial, and mixed gliomas that were assessed for genomic alterations characteristic of these neoplasms, i.e., loss of portions of chromosomes 1p, 9p, 10, 17p, 17q, and 19q, mutations of the p53 tumor suppressor gene, and amplification of the EGF receptor (EGFR) gene. Our findings support the hypothesis that distinct genetic pathways result in the formation of astrocytic and oligodendroglial neoplasms of different malignancy grades, and that glioblastoma multiforme may be subdivided into genetically distinct subsets. Such findings may not only lead to a better understanding of neoplastic transformation in glial cells, but may also have a major impact on clinical neuro-oncology.
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PMID:Molecular pathways in the formation of gliomas. 858 67

Malignant insulinoma is an rare form of cancer with poor prognosis and a reported 5-year survival of 35%. Relatively little is known about the etiology of this disease or of the oncogenes and tumor suppressor genes that participate in its genesis and progression. To address this issue, several protooncogenes, including K-ras, N-ras, erbB-2, erbB-3,c-myc, c-fos, c-jun were examined. Also analyzed was the expression of the growth factors TGF-alpha, EGF, and insulin as well as the EGF receptor (EGF-R), p53 and the putative anti-metastasis gene nm23-H1. These were examined in malignant insulinomas, benign insulinomas, pancreatic B cell hyperplasias and in normal endocrine pancreas. Normal endocrine pancreas showed moderate immunoreaction for c-myc and a strong reaction for insulin. All other parameters were negative. Benign pancreatic B cell hyperplasias were slightly or moderately positive for N-ras and TGF-alpha, and were weakly positive for EGF-R. They were strongly positive for c-myc and insulin. In malignant insulinomas there was strong immunoreaction for c-myc, TGF-alpha, N-ras, K-ras and p53. Insulin reaction was moderate or strong. Molecular genetic studies have been performed for the presence of activating point mutations in codon 12 of the c-K-ras oncogene. Mutations were detected using primer-mediated, mutant-enriched, polymerase chain reaction-restriction fragment length polymorphism analysis and were further characterized by allele-specific oligonucleotide hybridization. Four out of six patients with malignant insulinoma and two out of eight patients with benign insulinoma harbored K-ras point mutations at codon 12. All patients with mutated K-ras oncogene also had elevated levels of p53 protein as well as c-myc and TGF-alpha. In one extremely malignant case we found concomitant mutation at codon 12 of K-ras and codon 61 of the N-ras gene. Our data are consistent with the idea that malignant progression is accompanied by the progressive accumulation of multiple genetic lesions and suggest that activation of myc, TGF-alpha and ras genes may be early events in the development of insulinoma.
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PMID:Molecular genetics of malignant insulinoma. 871 89

Molecular alterations play a key role in the pathogenesis of gastrointestinal cancers. In the present paper we describe relevant molecular alterations in human pancreatic adenocarcinomas. Overexpression of growth factor receptors (EGF receptor, c-erbB2, c-erbB3, TGF beta receptor I-III), growth factors (EGF, TGF alpha, TGF beta-1-3, aFGF, bFGF), adhesion molecules (ICAM-1, ELAM-1) and gene mutations (p53, K-ras, DCC, APC) are present in a significant number of these tumors. These changes stimulate tumor growth and enhance the metastatic behavior of pancreatic cancer cells and thereby may contribute to shorter postoperative survival following tumor resection.
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PMID:Pancreatic cancer: the potential clinical relevance of alterations in growth factors and their receptors. 883 68

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