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)

The distribution of PECAM-1/CD31 molecule was investigated in 133 breast carcinomas using monoclonal antibody and frozen sections. Anti-CD31 labels endothelial cells and reflects stromal angiogenesis. The CD31 immunoreactivity was evaluated by computer-assisted analysis of digitized microscopic images. The automatic screening of the whole preparation and the measurements of the mean CD31 immunostained surface was performed in each case. A similar procedure was achieved for p53, cathepsin D, P-gp, pHER-2/neu, Ki67, pS2 estrogen and progesterone antigenic sites immunodetection. The image analysis of positive CD31 surface was variable, ranging from 4% to 33% (mean 14.7%, SD = 5.43). The CD31 positive surface correlated (P < .01) with the Nottingham prognostic index, but not with the tumor size, the node status, the tumor grade, nor with the patient age. Also the CD31 immunoreactivity was independent of the pHER-2/neu, Ki67 antigen, p53, ER, PR and pS2 immunodetectable expression in tumors, but correlates with that of cathepsin D (P = .024) and P-gp (P = .028), which reflects the multi-drug resistance capacity of tumor cells. In conclusion, CD31 positive vessels assessed on frozen sections by image analysis constitute an excellent method of evaluating tumor stromal angiogenesis, and can be further used for clinical purposes. The results also suggest that the CD31/PECAM molecule may be involved in the spread of tumor by interacting with extracellular matrix lysis that results from the tumor cell proteasic activity and with multidrug resistance.
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PMID:CD31 quantitative immunocytochemical assays in breast carcinomas. Correlation with current prognostic factors. 772 41

The molecular genetic characterization of breast cancer has implicated or identified the involvement of at least 10 distinct gene alterations in the genesis or progression of this disease. The genes involved fall into three distinct classes, possibly reflecting their particular function in the tumorigenic process. First, there is a class of genes that is being amplified to various levels in clinically manifest breast cancer, most conspicuously c-neu, c-myc, and cyclin D1. Second, an as-yet unknown number of genes are targets for loss of heterozygosity or allelic imbalance events on a number of different chromosomes. Presumably, this reflects the presence of tumor suppressor genes located on chromosomes 3p, 6q, 16q, 17, and possibly a few additional chromosomes. Finally, at least three genes are implicated to confer heritable predisposition to breast cancer. These include the p53 oncogene on 17p, an as yet unknown gene on 17q, and at least one locus outside these regions. While a number of presently unknown genes will soon be identified and cloned, it is becoming evident from genetic mapping studies that the complexity of gene involvement in breast cancer has not yet seen its very limits. A comprehensive multidisciplinary molecular profiling of a large series of tumors of various histological subtypes may aid in understanding how the different genes may cooperate to cause breast cancer.
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PMID:Recent developments in the molecular genetic understanding of breast cancer. 784 87

The observation that oncogenes are frequently activated in human tumours raises the question of whether these genes are involved in chemical carcinogenesis. H-ras activation is probably an initiating event in mouse skin and rat mammary gland systems. The H-ras oncogene is also important in mouse liver tumours; in mouse lung the K-ras gene is commonly activated. In both, the mutations observed are usually those predicted from the adduct-forming properties of the carcinogen. Among non-ras oncogenes, only raf and neu have been detected in experimental tumours. Tumour suppressor genes are frequently inactivated in human tumours. Searches for such phenomena in animal tumours have generally had disappointing results. p53 and Rb gene alterations are rarely observed in chemically-induced tumours. The reason may be that unknown tumour suppressor genes are involved in animal tumour development. Several novel genes have been identified using animal tumour susceptibility models. Thus, ras genes are important in chemical carcinogenesis, but as the methodology for studying other genes improves, their roles will be seen in perspective.
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PMID:Molecular aspects of chemical carcinogenesis: the roles of oncogenes and tumour suppressor genes. 790 Jan 59

An immortal cell line was established by transfecting a myc oncogene into rat embryo cells (REC:myc). This cell line was diploid, contact inhibited and grew well in culture. Exposure to a single 200 cGy dose of 6 MeV alpha-particles transformed these cells with a frequency of focus formation of approximately 3.6 x 10(-4) compared with a transformation frequency of < 7.8 x 10(-6) for primary cultures of REC. Isolates of alpha-particle-induced REC:myc (REC:myc:alpha) foci displayed anchorage-independent growth in soft agar and were tumourigenic in nude mice. Molecular studies demonstrated no alteration of gene structure or expression of the transfected or of the endogenous c-myc genes. Similarly, there was no alteration of the structure of Ha-ras, Ki-ras, or N-ras. The expression of Ha-ras, Ki-ras, N-ras and raf was not altered significantly. Assay for dominant oncogenes via DNA-mediated gene transfer into NIH3T3 cells was positive for nine of 13 REC:myc:alpha transformants. All NIH3T3 isolates contained bands hybridizing to rat repetitive DNA. NIH3T3 transformants from a tertiary round of transfection were analysed by Southern blot analysis for the presence of Ki-ras, N-ras, raf, trk, abl, fms, src, mos, fos, sis, fps, erbA, erbB or neu oncogenes of REC origin, and none were detected. Tertiary NIH3T3 transformants from three REC:myc:alpha transformants contained bands corresponding to Ha-ras but no point mutations were identified at the known hotspots of exons 1 or 2 of the donor REC:myc:alpha transformants. The inactivation of the tumour suppressor genes Rb, and p53, and the anti-metastasis gene, nm23, was evaluated by Southern and Northern hybridization analysis. Southern blots demonstrated that at least one allele of Rb, p53 and nm23 was present and no large scale structural changes were detected. No expression of Rb or p53 was detected in REC:myc or the alpha-particle-induced REC:myc transformants. The expression of nm23 was not altered in the transformed cell lines. While the analysis of the role of tumour suppressor gene inactivation in radiation-induced cell transformation is only in the initial stages, the results of DNA-mediated gene transfer into NIH3T3 cells suggest that unidentified dominant oncogenes are associated with alpha-particle-induced transformation in vitro.
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PMID:Molecular analysis of rat embryo cell transformants induced by alpha-particles. 790 39

The development of human adenocarcinoma of the lung involves multiple genetic changes including activation of oncogenes and loss of tumor suppressor genes. Patients whose lung tumors contain K-ras oncogene mutation, accumulation of the protein product of the tumor suppressor gene p53, or erbB-2/neu oncoprotein overexpression have been shown to have a worse prognosis. We examined these three genetic indicators in 29 lung adenocarcinomas to determine whether these markers are present in the same tumors or if they represent molecular changes that define different subsets of patients. P53 nuclear protein accumulation and erbB-2/neu protein overexpression were determined by immunohistochemical analysis of cryostat sections of tumor specimens and corresponding normal lung tissue. K-ras mutations were detected by radiolabeled oligonucleotide probes, specific for the various twelfth codon mutations, hybridized to exon 1 of K-ras, which was amplified by the polymerase chain reaction. Increased nuclear accumulation of p53 protein was found in 11 adenocarcinomas (38%). All of the p53 positive tumors were found to show high level staining and homogeneous expression of erbB-2/neu protein. K-ras mutations were detected in seven tumors (24%), all of which overexpressed erbB-2/neu. The presence of a K-ras mutation did not correlate with p53 accumulation. In total, 93% of the tumors were found to overexpress erbB-2/neu, the highest being in one tumor with erbB-2/neu gene amplification. The presence of K-ras twelfth codon mutation was associated with increased cigarette smoking. In conclusion, erbB-2/neu overexpression is a common event in lung adenocarcinomas. Furthermore, the presence of K-ras mutation and p53 protein accumulation define separate groups of patients. The mechanisms by which these genetic alterations interact or adversely affect prognosis is unknown.
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PMID:Alterations of K-ras, p53, and erbB-2/neu in human lung adenocarcinomas. 790 43

The ENU1564 tumor line originated from a rat mammary tumor induced by N-ethyl-N-nitrosourea (ENU), an alkylating chemical carcinogen which induces genetic point mutations. The oncogene abnormalities in rat mammary tumors induced by ENU have not been characterized. In this study, two highly metastatic clones (Br7-C5 and FP2-All) derived from the adenocarcinoma cell line ENU1564, were evaluated for the presence of mutational activation involving the c-Ha-ras, c-neu, and p53 oncogenes. These oncogenes were chosen for investigation based upon their involvement in other ENU-induced rat tumors (c-neu in malignant schwannomas and p53 in nephro-blastomas) or in methylnitrosourea (MNU)-induced rat mammary tumors (c-Ha-ras). Polymerase chain reaction-restriction fragment length polymorphism (PCR-RFLP) and sequence-specific oligonucleotide hybridization analyses indicated that no c-Ha-ras codon 12 mutation was present in these tumor cells. PCR-RFLP and single-stranded conformational polymorphism (PCR-SSCP) analyses showed that no sequence changes were present over a 138 base-pair gene fragment spanning codon 664 of the c-neu protooncogene (the site of point mutation in ENU-induced rat nerve tumors). Immunoprecipitation and Western immunoblotting indicated that the p53 protein is neither over-expressed nor mutated in the tumor cells. The results failed to identify specific oncogene alterations in the ENU1564 rat mammary tumor line but ruled out mutational activation of c-Ha-ras (codon 12), c-neu (codon 664), and the p53 genes.
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PMID:Evaluation of potential oncogene alterations in the ENU1564 rat mammary tumor model. 791 94

The evaluation of molecular markers in breast carcinomas can be routinely assessed by (i) histochemistry for ploidy measurement (Feulgen stain) and for AgNORs counts, and by (ii) immunocytochemistry (Ki67, cathepsin D, pHER-2/neu, EGFR, ER, PR, pS2, p53). Immunocytochemical assays are correlated to biochemical assays and are particularly relevant in small tumors in which only small amount of tissue is available. Immunocytochemical assays provide for data additional to current histological methods, useful for prognostic evaluation and for the selection of node negative patients who may benefit from adjuvant therapy. Nevertheless, immunocytochemical assays can be used for clinical purposes only if they are standardized (frozen sections, image analysis).
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PMID:[Molecular markers in breast cancer: practical aspects and morphologic evaluation]. 807 88

Some of the genetic abnormalities that give rise to human breast cancer have been identified. This article reviews the biology of the oncogenes c-myc and neu and the antioncogene p53. Data supporting the role of these genes in the pathogenesis of human breast cancer are reviewed. Potential diagnostic and therapeutic applications that have developed out of our understanding of the molecular genetics of breast cancer are also discussed.
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PMID:The genetics of breast cancer. 815 Jul 76

Lung cancer arises after a series of morphological changes, which take several years to progress from normal epithelium to invasive cancer. The morphological changes progress from hyperplasia, to metaplasia, to dysplasia, to carcinoma in situ, to invasive cancer and finally to metastatic cancer. Multiple molecular changes have been documented in lung cancers, both small cell (SCLC) and non-small cell (NSCLC) types. The number of changes has been estimated to be in double digits. How can so many changes develop in one cell? One possible explanation is the "field cancerization" theory, that states that all or much of the aerodigestive tract epithelium has been mutagenized, perhaps as the result of exposure to tobacco products or other carcinogens. The molecular changes include activation of dominant oncogenes (myc family, K-ras and HER/2/neu genes), as well as loss of recessive growth regulatory genes or anti-oncogenes (p53, and rb as well as unidentified gene or genes on chromosome 3). However, cytogenetic and molecular genetic studies indicate that multiple other specific sites of actual or potential DNA loss may be present in lung cancers. Many of the well characterized molecular changes may function as negative prognostic factors for survival in subsets of lung cancers. Other changes may include development of drug resistance, and production of growth factors and their receptors. It is tempting to associate specific molecular changes with specific morphological changes, as has been attempted in the colon. However, because of the difficulties in serially sampling the respiratory tract, only a modest amount of data has been collected to date. It appears that deletions of chromosome 3p, hyperproliferation and aneuploidy are early changes, while p53 mutations appear later in the preneoplastic cascade. Documentation of intermediate markers for lung cancer and prospective studies of their prognostic effects will be necessary for the design of rational chemoprevention trials.
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PMID:The molecular and cellular basis of human lung cancer. 816 65

Recent studies have begun to elucidate the molecular events involved in the development of ovarian cancer. First, it has been shown that epithelial ovarian cells both produce and have receptors for many peptide growth factors. It is possible that these growth factors may participate in autocrine and paracrine growth-regulatory pathways in these cells. Increased activity of stimulatory factors, eg, transforming growth factor-alpha, or decreased activity of inhibitor factors, eg, transforming growth factor-beta, may facilitate malignant transformation. In addition, it has been shown that ovarian cancer cells often have acquired the ability to degrade extracellular matrix and invade the underlying tissues. Finally, alterations in several oncogenes and tumor-suppressor genes, including HER2/neu, c-myc, and p53, have been found in ovarian cancers. Although exciting insights into the molecular pathology of ovarian cancer have been gained, we remain far from a comprehensive understanding of the biology of this highly lethal disease.
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PMID:The biology of ovarian cancer. 821 3

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