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)

Cancer is now considered to be a multi-hit process which involves a number of aberrant genetic events culminating in malignant transformation. In squamous cell carcinoma (SCC) of the head and neck the action of both oncogenes and tumour-suppressor genes has been identified during the course of the disease. Cytogenetic analysis of these carcinomas has demonstrated chromosomal breakpoints, particularly in the regions of 1p22 and 11q13 together with frequent amplification of the proto-oncogenes in the 11q13 amplicon; int-2, hst-1 and bcl-1. Ras mutations have been infrequently identified in the Western World whereas ras over-expression has been a common finding and may be associated with the early development of head and neck cancer. C-myc over-expression appears to correlate with a poor prognosis for these patients. The tumour-suppressor gene p53 is also thought to be involved in the development of SCC in head and neck tumours and its aberrant expression is associated with a history of heavy smoking and heavy drinking. E-cadherin, a putative tumour-suppressor gene is down-regulated in poorly differentiated head and neck SCC and maybe important in nodal metastasis. A recent study has indicated that the Human Papilloma Virus (HPV 16 and 33) has a role in the aetiology of tonsillar carcinomas and HPV has been shown to produce transforming proteins which bind to and inactivate the p53 tumour suppressor gene. This evidence suggests that the possibility of a viral mechanism for the development of SCC in the head and neck should be considered. This paper proposes a series of genetic events to explain the development of SCC of the head and neck.
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PMID:Oncogenes and tumour-suppressor genes in squamous cell carcinoma of the head and neck. 133 Jan 49

The loss of epithelial differentiation in carcinomas, which is accompanied by higher mobility and invasiveness of the tumour cells, is often a consequence of reduced intercellular adhesion. The primary cause of the "scattering" of cells in invasive carcinomas appears to be a disturbance of the integrity of intercellular junctions, often involving the cell adhesion molecule E-cadherin. Permanent and transient molecular mechanisms can lead to the impairment of junction integrity of epithelial cells and thus to the progression of carcinomas towards a more invasive state. These include downregulation of E-cadherin expression and interaction between the adherens junction protein beta-catenin and the tumour suppressor gene product APC.
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PMID:Adherens junction proteins in tumour progression. 755 58

A number of genetic changes have been documented in prostate cancer, ranging from allelic loss to point mutations and changes in DNA methylation patterns (summarized in Fig. 1). The most consistent changes seen are those of allelic loss events, with the majority of tumours examined showing loss of alleles from at least one chromosomal arm. The short arm of chromosome 8, followed by the long arm of chromosome 16, seem to be the most frequent regions of loss, suggesting the presence of novel tumour suppressor genes. Deletions of one copy of the RB and TP53 genes are less frequent as are mutations of the TP53 gene, and accumulating evidence suggests the presence of an additional tumour suppressor gene on chromosome 17p, which is frequently inactivated in prostate cancer. Alterations in the E-cadherin/alpha catenin mediated cell-cell adhesion mechanism appear to be present in almost half of all prostate cancers and may be critical to the acquisition of metastatic potential of aggressive prostate cancers. Finally, altered DNA methylation patterns have been found in the majority of prostate cancers examined, suggesting widespread alterations in methylation modulated gene expression. The presence of multiple changes in these tumours is consistent with the multistep nature of the transformation process. Finally, efforts to identify prostate cancer susceptibility loci are under way, which may elucidate critical early events in prostatic carcinogenesis.
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PMID:Molecular biology of prostate cancer progression. 762 57

Expression of the E-cadherin cell adhesion molecule is reduced in several types of human carcinomas, and the protein serves as an invasion suppressor in vitro. To determine if mutations of the E-cadherin gene (on chromosome 16q22) contribute to epithelial tumorigenesis, 135 carcinomas of the endometrium and ovary were examined for alterations in the E-cadherin coding region. Four mutations were identified: one somatic nonsense and one somatic missense mutation, both with retention of the wild-type alleles, and two missense mutations with somatic loss of heterozygosity in the tumour tissue. These data support the classification of E-cadherin as a human tumour suppressor gene.
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PMID:Mutations of the E-cadherin gene in human gynecologic cancers. 807 49

Compelling experimental evidence exists for a potent invasion suppressor role of the cell-cell adhesion molecule E-cadherin. In addition, a tumour suppressor effect has been suggested for E-cadherin. In human cancers, partial or complete loss of E-cadherin expression correlates with malignancy. To investigate the molecular basis for this altered expression we developed a comprehensive PCR/SSCP mutation screen for the human E-cadherin gene. For 49 breast cancer patients the occurrence of tumour-specific mutations in the E-cadherin gene was examined. No relevant DNA changes were encountered in any of 42 infiltrative ductal or medullary breast carcinoma samples. In contrast, four out of seven infiltrative lobular breast carcinomas harboured protein truncation mutations (three nonsense and one frameshift) in the extracellular part of the E-cadherin protein. Each of the four lobular carcinomas with E-cadherin mutations showed tumour-specific loss of heterozygosity of chromosomal region 16q22.1 containing the E-cadherin locus. In compliance with this, no E-cadherin expression was detectable by immunohistochemistry in these four tumours. These findings offer a molecular explanation for the typical scattered tumour cell growth in infiltrative lobular breast cancer.
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PMID:E-cadherin is a tumour/invasion suppressor gene mutated in human lobular breast cancers. 855 30

We have analysed a series of 49 human breast cancers for mutations in the entire coding region plus flanking intron sequences of the E-cadherin gene. The tumours included 41 infiltrating lobular carcinomas, two infiltrating ducto-lobular carcinomas and six infiltrative ductal carcinomas. In the lobular carcinomas 23 different somatic mutations were detected, of which seven were insertions, 11 deletions, two nonsense mutations and three splice site mutations. The other tumours showed no detectable E-cadherin mutations. All the frameshift and nonsense mutations are expected to generate a secreted E-cadherin fragment instead of a transmembrane protein with cell adhesion activity. The majority of the mutations (21 of 23) were found in combination with loss of heterozygosity of the wild type E-cadherin locus (16q22.1), a hallmark of classical tumour suppressor genes. The mutations were scattered over the whole coding region and no hot spots could be identified. All mutations described here were previously unreported. In conclusion, we have identified up to now E-cadherin mutations in 27 of 48 (56%) infiltrating lobular breast carcinomas and in 0 of 50 breast cancers of other histopathological subtypes. These data provide strong evidence that frequent E-cadherin mutations are involved in the particular etiology of sporadic lobular breast cancers.
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PMID:E-cadherin is inactivated in a majority of invasive human lobular breast cancers by truncation mutations throughout its extracellular domain. 893 38

Breast cancer is a major cause of morbidity and mortality in women in many parts of the world. Breast carcinomas are heterogenous in their biological and clinical behaviour and a greater understanding of how they develop and progress could lead to more directed forms of screening and therapy. It is important to determine the molecular mechanisms underlying the natural history of breast cancer. Developments in the techniques for molecular analysis have meant that they can now be applied to a large range of clinical material such as cytological preparations and fixed, embedded material, so increasing the potential for relating any molecular alterations to clinical behaviour and response to therapy. In this review we consider recent developments in three areas of importance to breast cancer; genetic analysis-oncogenes, tumour suppressor genes, loss of heterozygosity, microsatellite instability, familial breast cancer; steroid receptors, oestrogen regulated proteins, epidermal growth factor receptor, growth factors particularly transforming growth factor beta; and cell adhesion, invasion and metastasis-E-cadherin, integrins, proteases. These are discussed in relation to potential for screening, prognosis and treatment.
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PMID:Molecular pathology of breast cancer and its application to clinical management. 915 78

The incidence of colon cancer has increased during the last 30 years in Norway and is now the second most common newly diagnosed type of cancer in women and the third in men. Familial adenomatous polyposis, hereditary colorectal cancer, is caused primarily by inactivation of the tumour suppressor gene adenomatous polyposis coli (APC). The protein coded for by this gene has a possible role in cell-cell signalling or adhesion by binding to catenins which bind to the cell adhesion molecule E-cadherin, or in anchoring the cytoskeleton. Both germ-line and somatic APC gene mutations result in a truncated protein, due to introduction of a stop codon. The positions of the germ-line mutations seem to correlate with the seriousness of polyposis. The food mutagen PhIP causes specific mutations in the Apc gene in rats, and is a possible environmental mutagen also in humans. The Min mouse with mutated Apc-gene is a good model for studies of both induction and prevention of inherited and sporadic intestinal cancer.
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PMID:[Genetic and environmental factors in colorectal cancer. Mutations in the familial adenomatous polyposis gene]. 923 86

We have synthesized and studied the ability of a series of seven novel 1 alpha,25(OH)2 vitamin D3 analogues to inhibit clonal growth of prostate cancer cells (LNCaP, PC-3 and DU-145). Addition of double and triple bonds to the C/D ring (C-16) and side chain (C-22 and C-23) as well as lengthening of the side chain were important for enhanced activity against LNCaP and PC-3. Reorientation of the side chain in the 20-epi configuration resulted in analogues that were extremely potent only against LNCaP (ED50 approximately 5 x 10(-11) M). Compounds with six fluorines on the end of the side chain were very active against both PC-3 and LNCaP (ED50 approximately 2 x 10(-8) M). DU-145 cells were relatively resistant to compounds with all of these modifications, but removal of C-19 (e.g. 1,25(OH)2-16-ene-23-yne-26,27-F6-19-nor-D3) resulted in an analogue that was inhibitory against all three prostate cell lines. Further analysis showed that pulse exposure (3 days, 10(-7) M) to this analogue was enough to inhibit clonal growth of PC-3 cells by 50%. The same exposure also induced cell cycle arrest of all three cell lines, accompanied by upregulated protein expression of the cyclin-dependent kinase inhibitor (CDKI) known as p21waf1 in all three cell lines, and the CDKI known as p27kip1 in LNCaP cells. Associated with upregulation of these CDKIs, partial differentiation occurred as measured by increased expression of both prostate-specific antigen by LNCaP cells and E-cadherin, a cell adhesion protein that may act as a putative tumour suppressor (LNCaP and PC-3 cells). In summary, this is the first report of a potent series of 19-nor-vitamin D3 analogues with the ability to inhibit proliferation of LNCaP, PC-3 and DU-145 prostate cancer cell lines. These compounds may mediate their potent anti-proliferative activities through a cell cycle arrest pathway.
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PMID:Inhibition of proliferation of prostate cancer cells by a 19-nor-hexafluoride vitamin D3 analogue involves the induction of p21waf1, p27kip1 and E-cadherin. 927 57

Inactivation of tumour suppressor gene function is a critical step in the development of human neoplasia. The Rb and CDKN2 tumour suppressor genes are inactivated in many tumour types, including the late stages of prostate cancer, and appear to function in the same suppressor pathway. p53, another major tumour suppressor is also mutated in a subset of advanced-stage prostate carcinomas. E-cadherin and other cell adhesion genes, which have been characterized as suppressors of the metastatic phenotype, are inactivated or downregulated during progression to advanced prostate cancer and have been associated with poor clinical outcome. The early genetic events involved a prostatic neoplasia are poorly understood, but loss of as yet undiscovered tumour suppressor genes may play a role in the initiation of this disease.
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PMID:Tumour suppressor genes in prostate cancer. 929 77


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