UNIPROT:P43146 - FACTA Search

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

Wilms' tumour is a paediatric kidney cancer which, in a substantial number of cases, has been associated with a genetic predisposition. Susceptibility to Wilms' tumour can be manifested by the presence of bilateral tumours, and in rare cases by a family history of this tumour or by associated congenital malformations. Like retinoblastoma, Wilms' tumour has been postulated to result from the inactivation of a tumour suppressor gene, although genetic studies implicate more than a single genetic locus. The recent isolation of the WT1 gene, which maps to chromosome 11, band p13, has provided the first molecular clue to Wilms' tumorigenesis. WT1 is specifically inactivated in a number of Wilms' tumours, and mutations have been found in the germline of susceptible individuals. This gene appears to encode a transcription factor with complex alternative splices, whose expression is strictly regulated in the developing kidney. Functional studies will be required to elucidate the role of WT1 in normal kidney development and in tumorigenesis.
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PMID:Role of the WT1 gene in Wilms' tumour. 132 41

We report a clinical case of a double primitive tumour (right kidney clear cell carcinoma and gastric carcinoma) in two brothers. There is no history of cancer in the parents. Both patients were previously affected by gastric ulcer. No report of association between the two neoplasms was found in literature. The age of the patients (61 and 70 years) and the singleness of the kidney tumour seem to exclude the case of a familial kidney cancer. The neoplastic transformation of the gastric ulcer is instead a quite frequent report with an incidence of about 1%. Alterations of oncogenes or tumour suppressor genes shared from both neoplasm are at present still unknown. Nevertheless molecular analysis of patients' neoplastic genome could point out typical chromosome translocations/deletions or gene mutations.
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PMID:[Appearance in 2 brothers of double primary neoplasms: right renal carcinoma and gastric adenocarcinoma]. 757 Feb 61

In this study we investigated 56 renal cell carcinomas immunohistochemically for the expression of proliferating cell nuclear antigen (PCNA) and tumour suppressor protein p53. We also analyzed for the presence of human papilloma virus (HPV) DNA subtypes 6, 11, 16, 18, 31 and 33 by in situ hybridization. In carcinomas which showed more than 10% of PCNA positive nuclei there were significantly more cases with invasion (P = 0.032) or metastatic disease (P = 0.047). Nine out of 22 grade III-IV tumours (40.9%) but only six out of 30 grade I-II tumours (20%) showed more than 10% of PCNA positive cells (P = 0.097). Patients with 10% or more PCNA positive cells in kidney tumours had more advanced disease at the time of diagnosis than those showing less PCNA positive cells (P = 0.05). Six p53 positive cases were found among 56 tumours (11%), but only one case had more than 10% positive cell nuclei. The presence of HPV DNA was found in 29 out of 56 cases (52%). Multiple subtypes were found in 19 cases (34%). The most commonly occurring subtypes were 18 and 33. There was no association between PCNA, p53 and the presence of HPV DNA subtypes. Because of the association of PCNA with invasion and metastatic disease, it would be worth while to study PCNA further as a possible marker for aggressiveness of renal carcinomas. Both this study and those concentrated on mutational analysis suggest that p53 is generally not important for the development of renal cell carcinoma. On the other hand, the presence of HPV DNA in these tumours implicates HPV viral infection in the aetiology of renal cancer.
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PMID:Proliferating cell nuclear antigen but not p53 or human papillomavirus DNA correlates with advanced clinical stage in renal cell carcinoma. 783 39

The tumour suppressor gene WT1 encodes a transcription factor expressed in tissues of the genito-urinary system. Inactivation of this gene is associated with the development of Wilms tumour a pediatric kidney cancer. We show that WT1 is also expressed at high levels in many supportive structures of mesodermal origin in the mouse. We also describe a case of adult human mesothelioma, a tumour derived from the peritoneal lining, that contains a homozygous point mutation within WT1. This mutation, within the putative transactivation domain, converts the protein from a transcriptional repressor of its target sequence to a transcriptional activator. The role of WT1 in normal development thus extends to diverse structures derived from embryonic mesoderm and disruption of WT1 function contributes to the onset of adult, as well as pediatric, tumours.
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PMID:The Wilms tumour gene WT1 is expressed in murine mesoderm-derived tissues and mutated in a human mesothelioma. 840 92

The Wilms' tumour suppressor gene 1 (WT1) (1,2) encodes four C2H2 zinc finger-containing proteins (3) critical for normal mammalian urogenital development (4). Mutations in this gene are observed in the childhood kidney cancer, Wilms' tumour (WT) (5). WT1 can bind specific DNA targets within the promoters of many genes (6-9) and both transcriptional repression and activation domains have been identified (10). On this basis, it has been assumed that regulation of transcription is the basis of WT1 tumour suppressor activity. However, subnuclear localization studies have revealed an association between WT1 proteins and 'speckled bodies' within the nucleus. Degradation of nuclear RNA in cells expressing WT1 abolishes this speckled localization and WT1 co-immunoprecipitates with a number of spliceosomal proteins, suggesting that it may also bind to RNA (11). Using structural rather than sequence comparison, we have now identified an evolutionarily conserved N-terminal RNA recognition motif (RRM) in all known WT1 isoforms similar to that in the constitutive splicing factor U1A. Given the association between WT1 mutations and Wilms' tumours, this study, together with other recent findings, may suggest a novel tumour suppression mechanism.
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PMID:An RNA recognition motif in Wilms' tumour protein (WT1) revealed by structural modelling. 858 29

Germline mutations in the BRCA1 tumour suppressor gene on chromosome 17q21 are responsible for approximately half of the cases of hereditary breast cancer, including the majority of familial breast/ovarian cancers. To increase our knowledge of the spectrum of BRCA1 mutations, we have extended our analysis to include patients with varied family histories of cancer of the breast, ovary, and at multiple other sites. We have analysed 23 unrelated familial cases using direct sequencing or a combination of dideoxy fingerprinting and sequencing procedures. Twenty one of these families contained three or more cases of breast or ovarian cancer and two families had one case of breast cancer diagnosed before the age of 40 and one case of ovarian cancer. The common frameshift mutation 5382insC was detected in two patients, and the 185delAG mutation was found in a family of Ashkenazi Jewish descent. The novel frameshift mutation 3450del4 (CAAG) was detected in a patient who developed breast cancer at the age of 28 and ovarian cancer at the age of 34. Three other women in this family were diagnosed with breast cancer at the ages of 26, 29, and 40. The novel framshift mutation 2953del3+C was found in a French Canadian woman who had developed two primary cancers of the breast at the age of 37 and 38 and renal cancer at the age of 38.
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PMID:Mutation analysis of the BRCA1 gene in 23 families with cases of cancer of the breast, ovary, and multiple other sites. 893 32

The tumour suppressor gene PTEN , which maps to 10q23.3 and encodes a 403 amino acid dual specificity phosphatase (protein tyrosine phosphatase; PTPase), was shown recently to play a broad role in human malignancy. Somatic PTEN deletions and mutations were observed in sporadic breast, brain, prostate and kidney cancer cell lines and in several primary tumours such as endometrial carcinomas, malignant melanoma and thyroid tumours. In addition, PTEN was identified as the susceptibility gene for two hamartoma syndromes: Cowden disease (CD; MIM 158350) and Bannayan-Zonana (BZS) or Ruvalcaba-Riley-Smith syndrome (MIM 153480). Constitutive DNA from 37 CD families and seven BZS families was screened for germline PTEN mutations. PTEN mutations were identified in 30 of 37 (81%) CD families, including missense and nonsense point mutations, deletions, insertions, a deletion/insertion and splice site mutations. These mutations were scattered over the entire length of PTEN , with the exception of the first, fourth and last exons. A 'hot spot' for PTEN mutation in CD was identified in exon 5 that contains the PTPase core motif, with 13 of 30 (43%) CD mutations identified in this exon. Seven of 30 (23%) were within the core motif, the majority (five of seven) of which were missense mutations, possibly pointing to the functional significance of this region. Germline PTEN mutations were identified in four of seven (57%) BZS families studied. Interestingly, none of these mutations was observed in the PTPase core motif. It is also worthy of note that a single nonsense point mutation, R233X, was observed in the germline DNA from two unrelated CD families and one BZS family. Genotype-phenotype studies were not performed on this small group of BZS families. However, genotype-phenotype analysis inthe group of CD families revealed two possible associations worthy of follow-up in independent analyses. The first was an association noted in the group of CD families with breast disease. A correlation was observed between the presence/absence of a PTEN mutation and the type of breast involvement (unaffected versus benign versus malignant). Specifically and more directly, an association was also observed between the presence of a PTEN mutation and malignant breast disease. Secondly, there appeared to be an interdependent association between mutations upstream and within the PTPase core motif, the core motif containing the majority of missense mutations, and the involvement of all major organ systems (central nervous system, thyroid, breast, skin and gastrointestinal tract). However, these observations would need to be confirmed by studying a larger number of CD families.
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PMID:Mutation spectrum and genotype-phenotype analyses in Cowden disease and Bannayan-Zonana syndrome, two hamartoma syndromes with germline PTEN mutation. 946 11

Von Hippel-Lindau (VHL) disease is a genetic disease predisposing to the development of various tumours (haemangioblastomas of the neuraxis and retina, tumours of the membranous labyrinth, renal clear cell carcinomas or cysts, phaeochromocytomas, pancreatic cysts or tumours, epididymal cystadenomas), affecting one in 36,000 people. Renal cancer constitutes one of the main causes of death. The VHL gene, situated at 3p25-26, is a tumour suppressor gene which plays a major role in regulation of VEGF transcription and expression. The germ cell mutation can be identified in 70% of patients. Somatic mutations of the VHL gene are also responsible for sporadic clear cell carcinomas. In the urological setting, any patient presenting with "sporadic" bilateral clear cell renal cancer or detected at an early age, or bilateral epididymal cystadenomas, should be investigated for the presence of VHL disease.
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PMID:[Von Hippel-Lindau disease and renal cancer: 10 years of genetic progress. GEFVHL (French-Speaking Study Group on von Hippel-Lindau disease)]. 968 63

Matching oxygen consumption and supply represents a fundamental challenge to multicellular organisms. HIF-1 is a transcription complex which is emerging as a key mediator of oxygen homeostasis. HIF-1 controls the expression of many genes, including erythropoietin, angiogenic growth factors, glucose transporters and glycolytic enzymes. The HIF-1 complex, which contains an alpha and beta subunit (both basic helix-loop-helix proteins of the PAS family) is formed in hypoxia and modulates gene expression through hypoxia response elements. Regulation involves ubiquitin-mediated oxygen-dependent destruction of the alpha subunit. Oxygen-regulated destruction of HIF-alpha requires the von Hippel Lindau tumour suppressor protein (pVHL). pVHL acts as the recognition component of a ubiquitin E3 ligase complex which binds HIF-alpha. Loss of pVHL function, which results in constitutive activation of the hypoxic response, is important in the development of clear cell renal cancer, where both copies of the gene are usually inactivated. The importance of the VHL-HIF system in multicellular organisms is supported by conservation in the nematode C. elegans. Understanding the events resulting in HIF activation should provide novel therapeutic targets. This would be useful in preventing angiogenesis in cancers and promoting adaptive changes in hypoxic/ischaemic tissue.
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PMID:The pVHL-hIF-1 system. A key mediator of oxygen homeostasis. 1195 Jan 50

Inactivation of the von Hippel-Lindau (VHL) tumour suppressor gene product pVHL is the cause of inherited VHL disease and is associated with sporadic kidney cancer. pVHL is found in a multiprotein complex with elongins B/C, Cul2, and Rbx1 forming an E3 ubiquitin ligase complex called VEC. This modular enzyme targets the alpha subunits of hypoxia-inducible factor (HIF) for ubiquitin-mediated destruction. Consequently, tumour cells lacking functional pVHL overproduce the products of HIF-target genes such as vascular endothelial growth factor (VEGF), which promotes angiogenesis. This likely accounts for the hypervascular nature of VHL-associated neoplasms. Although pVHL has been linked to the cell-cycle, differentiation, and the regulation of extracellular matrix assembly, microenvironment pH, and tissue invasiveness, this review will focus on the recent insights into the molecular mechanisms governing the E3 ubiquitin ligase function of VEC.
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PMID:Playing Tag with HIF: The VHL Story. 1248 77

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