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)

Inactivation of two tumor suppressor genes, RB and p53, is associated with tumor formation. To elucidate the molecular basis of the tumorigenesis of human osteosarcoma, structural and expressional alterations of these two genes were examined in five human osteosarcoma cell lines, two of which were from Japanese patients. In addition, I analyzed two adenovirus E1A-binding proteins, p107 and p300, putative "tumor suppressor gene products", which share similar properties with the RB protein in binding to the E1A oncoprotein. Detailed analyses of DNA, mRNA, and protein showed that (1) 3 lines including both Japanese lines lost the expression of the RB protein due to either the absence or the alteration of mRNA caused by DNA rearrangement, (2) abnormality of p53 gene was detected in all cell lines : 4 lines lost p53 expression due to either gene loss or the absence of mRNA, and one line expressed an abnormal form of the protein without detectable DNA and mRNA alterations and (3) no significant alteration of p107 or p300 was detected in all cell lines. These results further confirm that inactivating mutations of p53 and RB genes are deeply involved in the carcinogenesis of human osteosarcoma and suggest that p107 and p300 may not play a role in the tumorigenesis.
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PMID:[Roles of tumor suppressor genes in human osteosarcoma cells]. 182 50

A new rat model of prostatic carcinomas has been developed using F344 rats and 3,2'-dimethyl-4-aminobiphenyl (DMAB). Immunohistochemical and biochemical investigation using polyclonal antibodies against DMAB-modified DNA showed DMAB-DNA adducts to be formed in all parts of the prostate including the seminal vesicles. DMAB normally induces in situ carcinomas limited to the ventral prostate. However, when it is given together with and followed by testosterone propionate (TP), invasive adenocarcinomas, some of which demonstrated metastatic growth in other organs, arose from the dorsolateral and anterior prostate and seminal vesicles, indicating that exogenous testosterone can exert strong enhancing effects on chemically induced carcinogenesis in these lobes of the rat prostate. Sequential observation has indicated that atypical hyperplasias are premalignant lesions and that testosterone plays a key role in the promotion and progression stages of prostate tumor development. By analogy, it is suggested that testosterone may exert equivalent influence on progression of prostate neoplasia in man. In the present studies low incidences of mutations were detected in p53 or K-ras genes in noninvasive and invasive rat prostate carcinomas induced by DMAB.
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PMID:Mechanistic analysis of multistage carcinogenesis in the rat prostate. 184 36

Approximately 4% of cytosine residues in human DNA are modified post-synthetically into 5-methylcytosine (5mC) which is the only modified base present in vertebrate DNA. The function of 5mC is not fully understood, but methylation of promoter regions is often associated with transcriptional inactivity and may be part of a gene silencing mechanism. While undermethylation of promoter regions is correlated with expression, the same does not seem to be true for the remainder of genes since many genes are expressed while containing 5mC in their coding regions. This is significant because 5mC is known to be inherently mutagenic and it has been suggested that it is responsible for 30-40% of all human germline point mutations. We have used direct genomic sequencing to examine the methylation status of CpG sequences which serve as potential methylation sites in the human p53 gene. These sites, which are known to be hotspots for mutations in several human cancers, were found to be methylated in the target human tissues examined. The results suggest that 5mC may play a substantial role as an endogenous mutagen in the p53 gene and that the generation of these mutations does not require the direct interaction of a carcinogen with DNA. We have also compared the spectrum of p53 mutations reported in the literature for various human tumors. The patterns of mutations seen in different tumor types vary considerably and 5mC contributes to 63% of point mutations in colorectal cancer but only 13% in lung cancer. Mutations in lung cancer are therefore caused by a different mechanism than colorectal cancer and this presumably requires the direct interaction of carcinogens with DNA. Assessment of the proportion of 5mC induced mutations in the p53 gene therefore allows for an estimate of the relative importance of endogenous and exogenous mechanisms of carcinogenesis.
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PMID:5-Methylcytosine as an endogenous mutagen in the p53 tumor suppressor gene. 184 42

Revealing the molecular basis of human disease including cancer will be viewed as one of the triumphs of biomedical research in the 20th Century. One successful strategy has been to analyze abnormalities in cancer-related genes occurring in preneoplastic and neoplastic lesions in humans and animal models. These gene abnormalities, e.g., mutations, can be specifically linked in some cases to environmental carcinogens in molecular epidemiological studies of human populations and in more controlled experimental conditions using animal or in vitro models of carcinogenesis. A second successful strategy has been to capitalize on advances from basic research such as defining signal transduction pathways in mammalian cells and the genetic control of the cell cycle in yeast. Mutations in yeast cell division control genes can lead to genomic instability and aneuploidy which are hallmarks of cancer. Therefore, the role of these genes in human carcinogenesis is being intensely investigated. The involvement of the p53 gene in the majority of human cancers has focused attention on the molecular and biochemical mechanisms of this tumor suppressor gene. The analysis of the p53 mutational spectrum in human cancers has provided evidence that both exogenous and endogenous causes of mutation contribute to human carcinogenesis. The increased understanding of the molecular basis of carcinogenesis has important implications in the prevention, diagnosis and treatment of human cancer.
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PMID:Molecular basis of multistage carcinogenesis. 184 48

Studies of multistage carcinogenesis in mouse skin have provided many of the early concepts of tumour initiation, promotion and progression. Genetic approaches have led to the identification of a number of mutational alterations in proto-oncogenes and tumour suppressor genes which take place at specific stages of carcinogenesis in this particular system. Initiation involves, at least in a proportion of tumours, mutational activation of the cellular H-ras proto-oncogene. Trisomy of chromosome 7, which develops during the premalignant clonal expansion phase, possibly as a consequence of tumour promoter treatment, is followed by further alterations on chromosome 7 which lead to a relative increase in the expression of mutant ras alleles. The p53 tumour suppressor gene undergoes mutational alteration and loss of heterozygosity in a proportion of squamous carcinomas but this particular gene does not appear to be involved in the further transition of squamous carcinomas to highly undifferentiated spindle cell tumours. The latter transition appears to be a recessive event which can be complemented by fusion with cells at earlier stages of malignancy. Mouse skin carcinogenesis therefore continues to provide invaluable information on the nature of the genetic and biological transitions which occur during the step-wise progression of normal cells to malignancy.
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PMID:Functional loss of tumour suppressor genes in multistage chemical carcinogenesis. 184 54

A spontaneously immortalized clonal granulosa cell line (SIGC) derived from primary rat ovarian granulosa cell cultures was developed as a model system to explore the process of transformation using an epithelial cell type. SIGC has an epithelial morphology and grows in culture without undergoing luteinization. The cell line is thought to represent an intermediate step in carcinogenesis because it seems to grow indefinitely in culture but does not form clones in soft agar or tumors in nude mice. Indirect immunofluorescence and Western blot analysis verified the constitutive expression of the recessive oncogene product p53 in the cell line, thereby suggesting a possible mechanism of immortalization. Ultrastructural studies indicated that SIGC cells are characterized by an undifferentiated phenotype with prominent intermediate filaments, desmosomes, and gap junctions. The identification of cytokeratin by indirect immunofluorescence and Western blot analysis suggests that SIGC functions as an epithelial cell type. Functional studies of cell-cell communication by a dye transfer technique (fluorescence recovery after photobleaching) showed reduced communication compared to normal primary granulosa cells in culture. SIGC cells were transfected with early region genes of SV40 virus in an attempt to generate fully transformed cell lines. The resulting cell line SV-SIGC expressed T-antigen, was anchorage independent, formed tumors in nude mice, and had reduced intercellular communication as compared to SIGC cells. Explants from the tumors in nude mice were used to generate another cell line (T-SV-SIGC), which exhibited further reduction in both the incidence and the rate of communication. These results clearly demonstrated a progressive loss of functional communication during multistep transformation of an ovarian cell type. These data demonstrate that this assay system based on an epithelioid cell type can be used to study the relationship between intercellular communication and the multistep process of carcinogenesis.
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PMID:Rat ovarian granulosa cell culture: a model system for the study of cell-cell communication during multistep transformation. 184 58

Human hepatocellular carcinomas (HCC) from patients in Qidong, an area of high incidence in China, in which both hepatitis B virus and aflatoxin B1 are risk factors, were analysed for mutations in p53, a putative tumour-suppressor gene. Eight of the 16 HCC had a point mutation at the third base position of codon 249. The G----T transversion in seven HCC DNA samples and the G----C transversion in the other HCC are consistent with mutations caused by aflatoxin B1 in mutagenesis experiments. No mutations were found in exons 5,6,8 or the remainder of exon 7. These results contrast with p53 mutations previously reported in carcinomas and sarcomas of human lung, colon, oesophagus and breast; these are primarily scattered over four of the five evolutionarily conserved domains, which include codon 249 (refs 4-9). We suggest that the mutant p53 protein may be responsible for a selective clonal expansion of hepatocytes during carcinogenesis.
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PMID:Mutational hotspot in the p53 gene in human hepatocellular carcinomas. 201 Nov 86

This report reviewed recent remarkable progresses on the cytomolecular mechanisms in colorectal carcinogenesis. Colorectal carcinoma is a good model for the study of multi-step progression, because we can obtain adenomatous polyps which are considered as a precancerous form. Furthermore, a familial syndrome, which is characterized by numerous adenomas of the colon, is available for linkage analysis. Recently, the p53 and DCC genes have been identified as candidate tumor suppressor genes on chromosome 17p and 18q respectively. In this paper, we present the multiple genetic alterations in colorectal carcinoma, including activation of K-ras gene and inactivation of tumor suppressor gene such as p53 and DCC genes as well as loss of heterozygosity and approach to the gene responsible for adenomatous polyposis coli by reverse genetics.
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PMID:[Cytomolecular aspects of colorectal carcinoma]. 184 88

The p53 tumor suppressor gene is frequently mutated and the K-ras oncogene is occasionally mutated in primary specimens of human lung carcinomas. These mutated genes also cooperate in the immortalization and neoplastic transformation of rodent cells. To determine whether these mutations are necessary for maintenance of the immortalized and/or neoplastically transformed states of human bronchial epithelial cells, the p53 gene and regions of the ras (K-, H-, and N-) genes were sequenced in nine human lung carcinoma cell lines. Detection of p53 mutations by polymerase chain amplification and direct DNA sequencing was corroborated by p53 immunocytochemistry and coimmunoprecipitation of p53 with heat shock protein 70. p53 and ras genes were frequently, but not always, mutated in the carcinoma cell lines. These data are consistent with the hypothesis that multiple genetic changes involving both protooncogenes and tumor suppressor genes occur during lung carcinogenesis.
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PMID:p53 mutations, ras mutations, and p53-heat shock 70 protein complexes in human lung carcinoma cell lines. 185 24

Carcinogenesis is a multistage process driven by carcinogen-induced genetic and epigenetic damage in susceptible cells that gain a selective growth advantage and undergo clonal expansion as the result of activation of protooncogenes and/or inactivation of tumor suppressor genes. Therefore, the mutational spectra of chemical and physical carcinogens in these critical genes are of interest to define endogenous and exogenous mutational mechanisms. The p53 tumor suppressor gene is ideally suited for analysis of the mutational spectrum. Such an analysis has revealed evidence for both exogenous and endogenous molecular mechanisms of carcinogenesis. For example, an informative p53 mutational spectrum of frequent G----T transversions in codon 249 is found in hepatocellular carcinomas from either Qidong, People's Republic of China, or southern Africa. This observation links exposure to aflatoxin B1, a known cancer risk factor in these geographic regions, with a specific mutation in a cancer-related gene. Other studies indicate that abnormalities in genes controlling the cell cycle may cause genomic instability and increase the probability of neoplastic transformation. Finally, mechanistic understanding of carcinogenesis is leading to improved cancer risk assessment and to the identification of individuals at high cancer risk.
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PMID:Chemical and physical carcinogenesis: advances and perspectives for the 1990s. 188 79


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