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:P43146 (tumour suppressor)
5,935 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The main role of tumour suppressor genes is the inhibition of cell proliferation. Somatic mutations in these genes are found frequently in sporadic tumors. Germ line mutations in tumour suppressor genes are responsible for hereditary cancer syndromes. In a carrier of such a germ line mutation, a somatic mutation or loss of the remaining functional copy of the gene is sufficient for the complete loss of function of the tumour suppressor. Therefore the carriers of germ line mutations have a high risk of developing malignancies. Many tumour suppressor genes have been cloned and characterized recently and many others are intensively searched for. Protein products of these genes serve different cellular functions and many of them directly participate in the cell cycle control. The characterization of tumour suppressor genes is important both for the understanding of processes of carcinogenesis and for practical use in the diagnostics, prognostics and therapy of tumours.
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PMID:[Tumor suppressor genes]. 914 46

There has long been a clinical need for improved molecular pathology in melanoma, particularly in the histopathology laboratory where the differentiation of melanoma from its benign counterparts is commonly difficult. The need for improved molecular pathology has recently increased as immunotherapeutic options for the treatment of the tumour evolve. It seems likely that in the relatively near future tumour typing before and during immunotherapy will be needed. The identification of the tumour suppressor gene coding for the protein p16 as an important gene in the pathogenesis of melanoma is of great interest but the identification of oncogenes having a significant role in melanoma carcinogenesis has been slow.
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PMID:Molecular pathology of melanoma. 915 84

The tumour suppressor gene p53 is expressed in response to DNA-damage; its protein product blocks cells in the G1-phase of the cell cycle. This gives cells additional time to repair their DNA-damage. However, it may trigger apoptosis if damage is too high. Loss of p53 function appears to be an important step in carcinogenesis because 50% of human tumours have lost functional p53. In order to study the role of p53 in experimental hepatocarcinogenesis, we determined the expression of p53 in rat liver in response to various hepatocarcinogenic and hepatotoxic compounds. Administration of hepatocarcinogenic compounds increased p53 protein levels in the liver as detected by immunoprecipitation followed by SDS-PAGE and Western blotting with ECL-detection. The hepatocarcinogens included N-hydroxy-2-acetylaminofluorene, aflatoxin B1, and diethylnitrosamine. Their structural analogues N-hydroxy-4-acetylaminobiphenyl and ethyl methane-sulphonate which are not hepatocarcinogenic, did not induce p53. Also, two hepatotoxic compounds (carbon tetrachloride, D-galactosamine) did not induce p53. Other compounds that induced p53 in the rat liver were 2-aminofluorene (administered by drinking water for two weeks) and tris-(2,3-dibromopropyl)phosphate. Benzo[a]pyrene did not induce p53. N-Hydroxy-2-acetylaminofluorene, aflatoxin B1, and diethylnitrosamine are potent hepatic tumour promoters. At the same time, they induce p53 protein expression and inhibit proliferation of normal hepatocytes. Because this is not observed with non-hepatocarcinogenic analogues, it suggests an involvement of p53 expression in hepatic tumour promotion. A possible mechanism is discussed.
Carcinogenesis 1997 May
PMID:p53 protein expression by hepatocarcinogens in the rat liver and its potential role in mitoinhibition of normal hepatocytes as a mechanism of hepatic tumour promotion. 916 91

One of the major goals of cancer research is to identify and understand the causes of cellular proliferation. The role of cell death, or lack thereof, in carcinogenesis, tumour growth, metastatic spread and response to treatment has been largely overlooked even though the morphology of apoptosis (programmed cell death) was clearly described over 20 years ago, and its importance in cancer speculated on at that time. Over the last 5 years, however, an explosion of research has focused on delineating the molecular components of the apoptotic pathways and examining the role of apoptosis in a tumour's growth and response to treatment. This review highlights the aspects of apoptosis most relevant to radiation oncologists and radiobiologists. The apoptotic pathways will be described, with attention to the stimuli that initiate apoptosis, the oncogenes and tumour suppressor genes that mediate apoptosis, and the effector enzymes (proteases and endonucleases) responsible for the execution of apoptosis. In addition, we review the effect of classically described radiobiology cell survival parameters-cell cycle stage, dose rate, linear energy transfer, oxygen, total dose, and fractionation-on radiation induced apoptosis.
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PMID:The molecular regulation of apoptosis and implications for radiation oncology. 919 90

Mutations in the p53 tumour suppressor gene and amplification of the cyclin D1 (CCND1) oncogene have been commonly reported in various malignancies. In the present study of 39 squamous cell carcinomas of the head and neck, p53 mutations were manifest in 11 (28%) of the cases, whereas CCND1 amplification was seen in 6 (16%) of 37 analysed tumours. The 10 mutations occurring in coding sequences of p53 were found in exon 5 (4 cases), exon 6 (3 cases),f and exon 8 (3 cases). No mutation was found in exon 7. Eight of the 10 exon nucleotide substitutions were missense mutations and two were nonsense mutations. All six tumours with CCND1 amplification also had p53 mutations, while an additional five tumours manifested p53 mutations in the absence of CCND1 amplification. There was a statistically significant positive correlation between these two gene alterations. This raises the possibility that mutation of p53 precedes CCND1 amplification in carcinogenesis.
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PMID:Correlation between p53 mutation and cyclin D1 amplification in had and neck squamous cell carcinoma. 919 52

Breast cancer emerges by a multistep process which can be broadly equated to transformation of normal cells via the steps of hyperplasia, premalignant change and in situ carcinoma. The elucidation of molecular interdependencies, which lead to development of primary breast cancer, its progression, and its formation of metastases is the main focus for new strategies targetted at prevention and treatment. Cytogenetic and molecular genetic analysis of breast cancer samples demonstrates that tumour development involves the accumulation of various genetic alterations including amplification of oncogenes and mutation or loss of tumour suppressor genes. Amplification of certain oncogenes with concomitant overexpression of the oncoprotein seems to be specific for certain histological types. Loss of normal tumour suppressor protein function can occur through sequential gene mutation events (somatic alteration) or through a single mutational event of a remaining normal copy, when a germline mutation is present. The second event is usually chromosome loss, mitotic recombination, or partial chromosome deletion. Chromosome loci 16q and 17p harbour tumour suppressor genes, which seem to be pathognomonic for the development or progression of a specific histological subtype. There are an overwhelming number of abnormalities that have been identified at the molecular level which fit the model of multistep carcinogenesis of breast cancer. When the functions of all of these genes are known and how they participate in malignant progression, we will have the tools for a more rational approach to diagnosis, prevention and treatment. This review deals only with the factors that are involved in the conversion of a normal breast cell into a malignant cell rather than those required for invasion and metastases. A key critical long-term step in the molecular analysis of breast cancer will be to link the specific molecular damage with the effects of environmental carcinogens.
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PMID:Multistep carcinogenesis of breast cancer and tumour heterogeneity. 923 83

Cytogenetic techniques for the analysis of genetic changes common in head and neck squamous cell carcinogenesis show complex patterns of chromosomal deletions, translocations, and amplifications. Powerful molecular biologic techniques have recently made possible the investigation of these abnormalities at the DNA level. Tumour suppressor gene loss and oncogene activation can now be recognized in tumours. Multiple genetic loci are implicated in the carcinogenesis process, while much evidence points to the existence of yet to be recognized tumour suppressor genes. An overview of the genetic changes commonly seen in head and neck squamous cell carcinogenesis and the possible implications of these are presented.
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PMID:Biologic implications of genetic changes in head and neck squamous cell carcinogenesis. 923 4

Mutation analysis of the tumour suppressor gene p53 in tumours induced in the peritoneal cavity of rats revealed differences in the mutational pattern with regard to the carcinogenic substances applied. In tumours induced by benzo[a]pyrene a considerable amount of p53 mutations resulting in an altered protein structure could be detected. For the development of these tumours an escape from the p53 mediated cell cycle control can be assumed. However, in tumours of the same tumour type induced by crocidolite asbestos no mutations could be observed. Since there were even no spontaneous p53 mutations detectable in this tumour group, it is obvious that in these tumours the escape from cell cycle control does not take place via inactivation of p53. Therefore, it is concluded that the molecular mechanisms of carcinogenesis and tumour development in this tumour type depend on the type of carcinogen applied.
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PMID:P53 mutations in tumours induced by intraperitoneal injection of crocidolite asbestos and benzo[a]pyrene in rats. 931 51

In a variety of human malignancies, alteration of the p53 tumour suppressor gene is known as a significant indicator of late progression events including invasion and metastasis, with a possible close relationship to genetic instability. Mutational analysis of the p53 and H-ras genes was performed for 10 pairs of N-butyl-N-(4-hydroxybutyl)nitrosamine-induced invasive mouse urinary bladder carcinomas and metastatic foci. p53 Mutations were found in nine of 10 (90%) primary carcinomas and seven of 10 (70%) metastatic foci. A total of eight p53 mutations in primary carcinomas were common in metastatic foci in six pairs. Additional p53 or H-ras mutations which were not identified in the primary carcinomas were found in three metastatic foci. Evaluation of the allelic distribution of the p53 mutations using RT-PCR, PCR and subcloning, further indicated possible intra-tumour genomic heterogeneity or excess copy numbers of the p53 gene due to genetic instability. Overall, p53 alterations were frequent in mouse urinary bladder carcinomas demonstrating progression. The results suggest that genetic instability might underlie generation of additional genetic alterations in this animal model.
Carcinogenesis 1997 Oct
PMID:Genetic instability and p53 mutations in metastatic foci of mouse urinary bladder carcinomas induced by N-butyl-N-(4-hydroxybutyl)nitrosamine. 936 94

Extracts prepared from tissue specimens of normal, non-tumourous human buccal mucosa, and cultured buccal epithelial cells and fibroblasts, exhibited O6-methylguanine-DNA methyltransferase (MGMT) activity by catalysing the repair of the premutagenic O6-methylguanine lesion in isolated DNA with rates of 0.2 to 0.3 pmol/mg protein. An SV40 T antigen-immortalized buccal epithelial cell line termed SVpgC2a and a buccal squamous carcinoma line termed SqCC/Y1, both of which lack normal tumour suppressor gene p53 function, exhibited about 50 and 10% of the MGMT activity of normal cells, respectively. The normal, experimentally transformed and tumourous buccal cell types showed MGMT mRNA levels which correlated with their respective levels of MGMT activity. Exposure of buccal cell cultures to various organic or water-based extracts of products related to the use of tobacco and betel quid, decreased both cell survival (measured by reduction of tetrazolium dye) and MGMT activity (measured subsequently to the exposures in cellular extracts). Organic extracts of bidi smoke condensate and betel leaf showed higher potency than those of tobacco and snuff. An aqueous snuff extract also decreased both parameters, whereas an aqueous areca nut extract was without effect. The well-established sulph-hydryl-reactive agent Hg2+, a corrosion product of dental amalgam, served as a positive control and decreased MGMT activity following treatment of cells within a range of 1-10 microM. Taken together, significant MGMT activities were demonstrated in buccal tissue specimens and in the major buccal mucosal cell types in vitro. Lower than normal MGMT activity in two transformed buccal epithelial cell lines correlated with decreased MGMT mRNA and lack of functional p53. Finally, in vitro experiments suggested the potential inhibition of buccal mucosal MGMT activity by complex mixtures present in the saliva of tobacco and betel nut chewers.
Carcinogenesis 1997 Oct
PMID:O6-methylguanine-DNA methyltransferase activity in human buccal mucosal tissue and cell cultures. Complex mixtures related to habitual use of tobacco and betel quid inhibit the activity in vitro. 936 96


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