UNIPROT:P43146 - FACTA Search

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Query: UNIPROT:P43146 (tumour suppressor)
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Mutations in the p53 gene are the commonest specific genetic change in human cancer. In normal tissues, p53 protein is present in such low quantities that it is not readily detectable by immunochemical techniques. However, in many tumour cells large amounts of p53 protein accumulate and can be seen by simple immunohistochemical staining; this is generally attributed to the accumulation of stabilised, mutant protein. We have found a mother and daughter, who both have a history of breast cancer, who show strong immunohistochemical staining of p53 in most of their normal epithelial and mesenchymal cells. Their family has a history of multiple cancers developing at an early age. Detailed protein analysis and gene sequencing of material obtained from cultured cells, grown from a skin biopsy taken from the daughter, suggest that her cells contained large quantities of normal (unmutated) p53. We suggest that this phenotype defines a new inherited cancer susceptibility syndrome that is distinct from the germ-line mutations in p53 found in some Li-Fraumeni families. This new syndrome affects p53 tumour suppressor function through an indirect mechanism that stabilises normal p53. It remains to be established whether this mechanism also contributes to the accumulation of p53 in sporadic cancers.
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PMID:Abnormal expression of wild type p53 protein in normal cells of a cancer family patient. 135 90

The breast and ovarian cancer susceptibility gene, BRCA1, has been cloned and shown to encode a zinc-finger protein of unknown function. Mutations in BRCA1 account for at least 80% of families with both breast and ovarian cancer, as well as some non-familial sporadic ovarian cancers. The loss of wild-type BRCA1 in tumours of individuals carrying one nonfunctional BRCA1 allele suggests that BRCA1 encodes a tumour suppressor that may inhibit the proliferation of mammary epithelial cells. To examine the role of BRCA1 in normal tissue growth and differentiation, and to generate a potential model for the cancer susceptibility associated with loss of BRCA1 function, we have created a mouse line carrying a mutation in one Brca1 allele. Analysis of mice homozygous for the mutant allele indicate that Brca1 is critical for normal development, as these mice died in utero between 10 and 13 days of gestation (E10-E13). Abnormalities in Brca1-deficient embryos were most evident in the neural tube, with 40% of the embryos presenting with varying degrees of spina bifida and anencephaly. In addition, the neuroepithelium in Brca1-deficient embryos appeared disorganized, with signs of both rapid proliferation and excessive cell death.
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PMID:Brca1 deficiency results in early embryonic lethality characterized by neuroepithelial abnormalities. 856 59

A number of distinct strategies have been used over the past two decades to uncover the genes involved in tumorigenesis. Their use raises the questions of whether we will require novel approaches in order to continue the progress of cancer genetics. Retrovirus mediated transduction of proto-oncogenes and transfection of tumour associated oncogenes are both inefficient ways of uncovering oncogenes, each being encumbered by technical obstacles that limit their utility. Improvements in the gene transfer strategy may yield a host of new oncogenes. New cloning techniques may have a role here as well as in revealing the existence of genes that are amplified in tumour cell genomes. The major technique for uncovering novel tumour suppressor genes--detection of loss of heterozygosity--is also limited in its sensitivity to detecting genes that are lost in large numbers of tumours. The techniques for uncovering these genes through analysis of pedigrees in which mutant versions of these genes are passed through the germline are encumbered by issues of penetrance and the complexities associated with the inheritance of polygenic traits. In both instances, improvements in data acquisition and analysis will reveal tumour suppressor genes that have proved elusive until now. Over the next decade, we will learn much about how the defects in another apparatus--that responsible for the maintenance of genomic integrity--contribute to cancer susceptibility. Beyond these genes lie yet others about which we seem to know little at present--those that induce the last stages of cancer including invasiveness and metastasis. These will represent an entirely new cohort of genes to be uncovered over the next decade.
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PMID:Prospects for cancer genetics. 871 10

Many human cancer susceptibility genes have been successfully mapped by genetic linkage studies. One that has so far eluded researchers is that for Peutz-Jeghers (P-J) syndrome, a condition characterized by intestinal hamartomatous polyposis and melanin spots of the lips, buccal mucosa and digits. A dramatically elevated risk of malignancy has also been documented. Gastrointestinal tumours as well as cancers of the breast, ovary, testis and uterine cervix appear to be overrepresented in families with this syndrome. The nature of hamartomatous polyps is equivicol. Hamartomas are usually considered histologically benign, but in the case of Peutz-Jeghers patients, there are reports of adenomatous and malignant changes in the polyps, and the possibility of a hamartoma-carcinoma sequence has been discussed. A search for a putative tumour suppressor locus was made using comparative genomic hybridization (CGH) of Peutz-Jeghers polyps, combined with loss of heterozygosity (LOH) study. Genetic linkage analysis in 12 families using markers from a deletion site demonstrated the presence of a high-penetrance locus in distal 19p with a multipoint lod score of 7.00 at marker D19S886 without evidence of genetic heterogeneity. The study demonstrates the power of CGH combined with LOH analysis in identifying putative tumour suppressor loci, and provides molecular evidence of malignant potential in hamartomas.
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PMID:Localization of a susceptibility locus for Peutz-Jeghers syndrome to 19p using comparative genomic hybridization and targeted linkage analysis. 898 57

During the past two decades an overwhelming amount of knowledge has been acquired on the molecular genetics of human cancer. It is now evident that cancer is essentially a genetic disease, arising from inherited and/or somatically acquired mutations at different genetic loci, and that tumourigenesis is a multistep process. Gene mapping studies of inherited cancer syndromes have resulted in the identification of many genes implicated in the initiation of tumours. Importantly, alterations of the same genes were also found to play a role in the development of common, non-familial tumours. The genes involved belong to distinct functional classes, and include proto-oncogenes and tumour suppressor genes, which are regulators of cellular growth and proliferation, cell adhesion and programmed cell death. Another class of cancer susceptibility genes consists of DNA repair genes, which are involved in maintaining genomic stability. In unravelling the genetic basis of cancer, the localization and identification of genes involved in tumourigenesis can be considered as the 'easy' part; determination of the normal physiological function of these genes and their precise role in tumourigenesis has proved to be much more difficult. In this review, we highlight some of the major breakthroughs in the field of cancer genetics, and discuss recent insights in the putative role of proto-oncogenes, tumour suppressor genes and DNA repair genes in the initiation and progression of cancer. Also, we point to some of the challenges to be faced in the coming years.
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PMID:The genetic analysis of cancer. 968 37

The p53 tumour suppressor gene is at the crossroads of a network of cellular pathways including cell cycle checkpoints, DNA repair, chromosomal segregation, and apoptosis. These pathways have evolved to maintain the stability of the genome during cellular stress from DNA damage, hypoxia, and activated oncogenes. The high frequency of p53 mutations in human cancer is a reflection of the importance of p53 involvement in this network of pathways during human carcinogenesis. An electronic database containing p53 mutations from more than 9000 cancers (http:/(/)www.iarc.fr/p53/homepage.html) can be used to generate hypotheses for further clinical, epidemiological, and laboratory investigations. For example, one can hypothesize that (a) p53 mutations vary in their pathobiological significance; (b) cellular content influences the selection of p53 mutations in clonally derived cancers; (c) the location and type of mutation within the p53 gene provide clues to functional domains in the gene product; and (d) the p53 mutation spectrum can be a molecular link between aetiological agents and human cancer. This review will focus on the role of p53 and cancer susceptibility genes in the molecular pathogenesis and epidemiology of human lung cancer.
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PMID:Molecular epidemiology of human cancer risk: gene-environment interactions and p53 mutation spectrum in human lung cancer. 1034 2

Women heterozygous for mutations in the breast-cancer susceptibility genes BRCA1 and BRCA2 have a highly elevated risk of developing breast cancer [1]. BRCA1 and BRCA2 encode large proteins with no sequence similarity to one another. Although involvement in DNA repair and transcription has been suggested, it is still not understood how loss of function of these genes leads to breast cancer [2]. Embryonic fibroblasts (MEFs) derived from mice homozygous for a hypomorphic mutation (Brca2(Tr2014)) within the 3' region of exon 11 in Brca2 [3], or a similar mutation (Brca2(Tr)) [4], proliferate poorly in culture and overexpress the tumour suppressor p53 and the cyclin-dependent kinase inhibitor p21(Waf1/Cip1). These MEFs have intact p53-dependent DNA damage G(1)-S [3] [4] and G(2)-M checkpoints [4], but are impaired in DNA double-strand break repair [3] and develop chromosome aberrations [4]. Here, we report that Brca2(Tr2014/Tr2014) MEFs frequently develop micronuclei. These abnormal DNA-containing bodies were formed through both loss of acentric chromosome fragments and by chromosome missegregation, which resulted in aneuploidy. Absence of Brca2 also led to centrosome amplification, which we found associated with the formation of micronuclei. These data suggest a potential mechanism whereby loss of BRCA2 may, within subclones, drive the loss of cell-cycle regulation genes, enabling proliferation and tumourigenesis.
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PMID:Absence of Brca2 causes genome instability by chromosome breakage and loss associated with centrosome amplification. 1053 Oct 7

The study of inherited cancer syndromes has led to the identification of over 25 genes directly involved in tumorigenesis. These genes have functions as diverse as signal transduction, cell cycle control, cell-to-cell adhesion, control of apoptosis, DNA repair and the maintenance of genome stability. Most cancer syndromes have a dominant pattern of inheritance, due to germline loss-of-function mutation of a tumour suppressor gene. All the recessively inherited genes have been implicated in the maintenance of genome stability. This review summarises our current understanding of the functions of the major cancer susceptibility genes.
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PMID:The inherited susceptibility to cancer. 1113 Apr 59

There is increasing evidence that predisposition to some cancers has a genetic component. There is a high incidence of loss of heterozygosity on chromosome 9, in the region of tumour suppressor gene, CDKN2A (also known as p16), in sporadic squamous cell cancer of the head and neck (SCCHN). To investigate the possibility that CDKN2A may be involved in the inherited susceptibility to SCCHN, the 3 coding exons of CDKN2A were sequenced in 40 patients who had developed a second primary cancer after an index squamous cell cancer of the head and neck. No mutations were found and we conclude that CDKN2A mutations do not play a major role in cancer susceptibility in this group.
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PMID:No germline mutations in CDKN2A (p16) in patients with squamous cell cancer of the head and neck and second primary tumours. 1172 Apr 78

Ovarian cancer is caused by genetic alterations that disrupt proliferation, apoptosis, senescence and DNA repair. Approximately 10% of ovarian cancers arise in women who have inherited mutations in cancer susceptibility genes (BRCA1 or BRCA2). The ability to perform genetic testing allows identification of women at increased risk who can be offered prophylactic oophorectomy or other interventions aimed at preventing ovarian cancer. The vast majority of ovarian cancers are sporadic, resulting from the accumulation of genetic damage over a lifetime. Several specific genes involved in ovarian carcinogenesis have been identified, including the p53 tumour suppressor gene and HER2/ neu andPIC3KA oncogenes. The recent availability of expression microarrays has facilitated the simultaneous examination of thousands of genes, and this promises to extend further our understanding of the molecular events involved in the development of ovarian cancers. Hopefully, this knowledge can be translated into effective screening, treatment, surveillance, and prevention strategies in the future.
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PMID:Molecular aspects of ovarian cancer. 1241 30

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