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)

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

Wilms' tumour (WT), aniridia, genitourinary abnormalities and mental retardation form a symptom group (WAGR syndrome) associated with hemizygous deletions of DNA in chromosome band 11p13 (refs 1,2). However, it has not been clear whether hemizygosity at a single locus contributes to more than one phenotype. The tumour suppressor gene for Wilms' tumour, WT1, has been characterized: it is expressed at high levels in the glomeruli of the kidney, as well as the gonadal ridge of the developing gonad, the Sertoli cells of the testis and the epithelial and granulosa cells of the ovary, suggesting a developmental role in the genital system in addition to the kidney. We now report constitutional mutations within the WT1 genes of two individuals with a combination of WT and genital abnormalities as evidence of a role for a recessive oncogene in mammalian development.
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PMID:WT1 mutations contribute to abnormal genital system development and hereditary Wilms' tumour. 165 25

Major isoforms of WT1--products of the tumour suppressor gene WT1, implicated in predisposition to Wilms' tumour--may preferentially interact with splicing factors, suggesting a role for WT1 in RNA processing.
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PMID:RNA processing. Wilms' tumour--the splicing connection? 758 42

WT1 is a tumour suppressor gene expressed in a specific temporal and spatial pattern in the developing kidney. Up to 15% of Wilms tumours have point mutations in the WT1 gene coding sequence. We have now investigated whether mutations in the WT1 promoter could be associated with loss of control WT1 expression and subsequent Wilms tumour formation. Using single-strand conformational polymorphism (SSCP) analysis we analysed 39 sporadic Wilms tumours for WT1 promoter mutations. We found six linked common sequence polymorphisms and two unlinked less frequent polymorphisms which allowed us to identify four tumours with loss of heterozygosity but none with point mutations, small deletions, insertions or rearrangements. We therefore conclude that WT1 promoter mutations are unlikely to play an important role in Wilms tumorigenesis.
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PMID:Exclusion of the Wilms tumour gene (WT1) promoter as a site of frequent mutation in Wilms tumour. 773 25

Wilms' tumour is a paediatric kidney malignancy that arises through aberrant differentiation of nephric stem cells. We are studying the role of one Wilms' tumour predisposition gene, WT1. This is a tumour suppressor gene whose function is required for normal development of the genitourinary system. WT1 encodes a putative transcriptional repressor of the zinc finger family. Here we discuss how one of the normal functions of WT1 may be to suppress myogenesis during kidney development. Furthermore, we describe how we are proposing to use YAC (yeast artificial chromosome) transgenesis to analyse WT1 regulation and function in mice. We also discuss the evolution of the WT1 gene amongst different vertebrate classes and how this may provide insights into genitourinary evolution.
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PMID:Wilms' tumour--a case of disrupted development. 788 83

The genetics of Wilms' tumour (WT), a paediatric malignancy of the kidney, is complex. Inactivation of the tumour suppressor gene, WT1, is associated with tumour aetiology in approximately 10-15% of WTs. Chromosome 17p changes have been noted in cytogenetic studies of WTs, prompting us to screen 140 WTs for p53 mutations. When histopathology reports were available, p53 mutations were present in eight of eleven anaplastic WTs, a tumour subtype associated with poor prognosis. Amplification of MDM2, a gene whose product binds and sequesters p53, was excluded. Our results indicate that p53 alterations provide a molecular marker for anaplastic WTs.
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PMID:Anaplastic Wilms' tumour, a subtype displaying poor prognosis, harbours p53 gene mutations. 807 48

Although the occurrence of bladder cancer is common, the molecular events underlying the pathogenesis of this cancer remain ill-defined. A loss of heterozygosity (LOH) at specific chromosomal loci may predispose individuals to the development of bladder cancer but this has not been examined in detail. Furthermore, the role that deletion or inactivation of putative tumour suppressor genes might play in the genesis of bladder cancer has not been established. In this study, allelic deletion analysis on the short arm of chromosome 17 of patients with primary bladder tumours failed to show deletion at 17p13 (0/7), a region known to contain the p53 tumour suppressor gene. Chromosome 11p15 showed allelic deletion at the IGF2 locus (2/7: 29%) and the PTH locus (1/11: 9%). However, no deletion was observed at the CALCA locus (0/6). LOH at 11p13, a region containing the Wilm's tumour suppressor gene (WT1), was also studied. Analysis of LOH at 11p13 showed deletion at the CAT locus (13/18: 72%), the delta J/D11S414 locus (5/15: 33%), the WT1 locus (7/14: 50%) and the FSHB locus (6/16: 38%). The significance of these findings is discussed.
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PMID:Loss of heterozygosity on chromosome 11p13 in primary bladder carcinoma. 810 Feb 10

Denys-Drash syndrome (DDS) is characterized by early onset nephropathy, pseudohermaphroditism in males and a high risk for developing Wilm's tumour (WT). The exact cause of DDS is unknown but germline mutations in the Wilm's tumour suppressor gene (WT1) have recently been described in the majority of DDS patients studied. These mutations occur de novo and are clustered around the zinc finger (ZF) coding exons of the WT1 gene. Analysis of exons 2-10 of the WT1 gene in constitutional DNA from five patients with DDS was carried out using the polymerase chain reaction (PCR) and direct DNA sequencing. In four out of the five patients, heterozygous germline mutations were found: a novel point mutation in exon 8 (ZF2) at codon 377 altering the wild-type histidine to arginine, and three previously described point mutations in exon 9 (ZF3) in the codons corresponding to amino acids 394Arg and 396Asp. In one patient, no mutations could be demonstrated. In three patients where parental DNA was available, the mutations were shown to have occurred de novo. Furthermore, since tumour DNA in two of these cases had lost the wild-type allele, polymorphic markers from the short arm of chromosome 11 were used to determine the parental origin of the mutant chromosome. In both cases, the mutant chromosome was shown to be of paternal origin. Since the majority of published WT1 mutations in DDS patients alter a RsrII restriction site in exon 9, we were able to perform PCR-based diagnosis in a female patient with early renal insufficiency and normal external genitalia.
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PMID:WT1 mutations in patients with Denys-Drash syndrome: a novel mutation in exon 8 and paternal allele origin. 811 32

Aberrations in the WT1 tumour suppressor gene have been documented in a fraction of Wilms' tumours (WTs). Encoding a protein with four zinc fingers, the WT1 gene is expressed in the developing kidney, gonads, uterus, spleen, mesothelium and brain. Using polymerase chain reaction (PCR), single strand conformation polymorphism (SSCP) analysis and direct DNA sequencing, we analysed 156 diverse tumours for abnormalities of zinc finger 3 (ZF3), a mutational hotspot in WT1. Only one sample (WT) exhibited PCR-SSCP mobility shift. A CGA to TGA nonsense mutation at codon 390 with arginine being substituted with a stop codon was detected and predicted to encode a faulty WT1 protein in this WT, out of 8 WTs studied. Our results are consistent with the presence of WT1 ZF3 mutations in a subset of WTs, but not in other tumours of urogenital nor of WT1-related origin.
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PMID:The third zinc finger of the WT1 gene is mutated in Wilms' tumour but not in a broad range of other urogenital tumours. 823 37

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


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