UNIPROT:P04637 - FACTA Search

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Query: UNIPROT:P04637 (p53)
77,613 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The development of Wilms' tumor, a pediatric kidney cancer, has been linked to the inactivation of a tumor suppressor gene both by epidemiologic studies and by genetic analyses. Like retinoblastoma, Wilms' tumors can occur bilaterally in individuals with apparent genetic susceptibility to this disease. This led Knudson and Strong to propose in 1972 that two genetic events were rate limiting in tumor development and that predisposed individuals had already inherited one mutation in the germline. The observation of karyotype abnormalities in predisposed children and studies of the molecular genetics of Wilms' tumor specimens enabled the identification of chromosome band 11p13 as one genetic locus inactivated in Wilms' tumor. The recent isolation of the WT1 gene, which is the specific target within that locus, offers new insight into the etiology of Wilms' tumor. This gene has properties distinct from those of other known tumor suppressor genes. WT1 encodes a zinc finger transcription factor that is alternatively spliced and has high sequence homology to the early growth response genes (EGR). Unlike the retinoblastoma (RB1) and p53 genes that are expressed ubiquitously, WT1 is expressed in specific cells of the kidney and only during a short period in development. Thus, disruption of a gene that is active during a critical period in the development of a specific organ can lead to neoplastic growth in that organ. Future studies are aimed at exploring the link between the role of the WT1 gene in normal development and in tumorigenesis of the kidney.
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PMID:WT1: a novel tumor suppressor gene inactivated in Wilms' tumor. 131 85

A predisposition to the development of certain specific and familial cancers is associated with the inheritance of a single mutated gene. In the best-characterized cases, this primary mutation is a loss of function mutation consistent with viability but resulting in neoplastic change consequent to the acquisition of a second somatic mutation at the same locus. Such genes are referred to as tumor-suppressor genes. Classical examples are the Rb-1 gene associated with the development of retinoblastoma and the p53 gene, which is associated with a wider range of neoplasms, including breast cancer. Other tumor-suppressor genes have been isolated which are associated with Wilms' tumor, neurofibromatosis, and inherited and sporadic forms of colorectal cancer. Some of these genes appear to act as negative regulators of mitotic cycle genes, and others may have different properties. The nature of these genes is discussed, as is the evidence for the involvement of tumor-suppressor genes in other inherited, and sporadic, forms of cancer. Some recent data on the Wilms' tumor gene, WT1, and on the involvement of the p53 gene in breast cancer are presented, and the importance of genomic imprinting in contributing to the excess of suppressor gene mutations in chromosomes of paternal origin is considered.
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PMID:Tumor-suppressor genes: cardinal factors in inherited predisposition to human cancers. 133 26

This article reviews the present understanding of chromosomal aberrations and specific genetic mutations in renal, bladder, and prostate cancers. In kidney tumors, specific emphasis is given to chromosome 3 deletions in renal cell carcinoma and the characterization of the WT1 gene in Wilms' tumor. In all three urological tumors, the presence of mutations in the RAS, P53, and RB genes (all of which often occur in other tumors) is analyzed. The expression and properties of the androgen receptor in prostate cancer are also summarized.
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PMID:The molecular biology of urological tumors. 157 58

The Wilms' tumor suppressor gene WT1 encodes a zinc finger transcription factor, whose expression inhibits the growth of the RM1 Wilms' tumor cell line. Transient transfection of WT1 constructs into 3T3 or 293 cells results in transcriptional repression of a number of cotransfected promoters containing the early growth response gene 1 consensus sequence. We now show that WT1 has properties of a transcriptional activator in RM1 cells, an effect that may be associated with the presence of a mutated p53 gene in these cells. Stable transfection of wild-type WT1 into RM1 cells results in induction of endogenous insulin-like growth factor 2 (IGF2) but not of other previously postulated WT1-target genes. The induction of IGF2 is dramatically enhanced by WT1 mutants encoding an altered transactivation domain. We conclude that IGF2 is a potentially physiological target gene for WT1 and that its induction may contribute to the growth-stimulating effects of WT1 variants.
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PMID:WT1 induces expression of insulin-like growth factor 2 in Wilms' tumor cells. 755 24

The Wilms tumor suppressor gene WT1 encodes a developmentally regulated transcription factor that is mutated in a subset of embryonal tumors. To test its functional properties, we developed osteosarcoma cell lines expressing WT1 under an inducible tetracycline-regulated promoter. Induction of WT1 resulted in programmed cell death. This effect, which was differentially mediated by the alternative splicing variants of WT1, was independent of p53. WT1-mediated apoptosis was associated with reduced synthesis of the epidermal growth factor receptor (EGFR), but not of other postulated WT1-target genes, and it was abrogated by constitutive expression of EGFR. WT1 repressed transcription from the EGFR promoter, binding to two TC-rich repeat sequences. In the developing kidney, EGFR expression in renal precursor cells declined with the onset of WT1 expression. Repression of EGFR and induction of apoptosis by mechanism that may contribute to its critical role in normal kidney development and to the immortalization of tumor cells with inactivated WT1 alleles.
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PMID:WT1 suppresses synthesis of the epidermal growth factor receptor and induces apoptosis. 758 96

The Wilms' tumor-suppressor gene product WT1 coimmunoprecipitates with p53 from baby rat kidney (BRK) cells and Wilms' tumor specimens, and expression of WT1 in BRK cells is associated with increased levels of endogenous wild-type p53 protein. To study the effect of WT1 on p53 function, we cotransfected expression constructs into Saos-2 cells, an osteosarcoma cell line without endogenous expression of either gene. Expression of WT1 resulted in increased steady-state levels of p53, attributable to a prolongation in protein half-life, and associated with protection against papillomavirus E6-mediated degradation of p53. This effect mapped to zinc fingers 1 and 2 of WT1 and was not observed with the closely related EGR1 protein. The stabilized p53 demonstrated enhanced binding to its target DNA sequence and increased trans-activation of a promoter containing this RGC site, but reduced transcriptional repression of a TATA-containing promoter lacking this site. Expression of WT1 inhibited p53-mediated apoptosis triggered by UV irradiation or by expression of temperature-sensitive p53 in the wild-type conformation, but did not affect p53-mediated cell cycle arrest. We conclude that WT1 protein can stabilize p53, modulate its trans-activational properties, and inhibit its ability to induce apoptosis. This effect may contribute to the elevated levels of wild-type p53 protein that are observed in Wilms' tumors.
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PMID:The WT1 gene product stabilizes p53 and inhibits p53-mediated apoptosis. 765 66

Carcinoid tumor of the kidney is a rare neoplasm of uncertain histogenesis. Attempts to elucidate its cell of origin have been made, but there is a lack of experimental proof. We present a case of primary renal carcinoid tumor with a characteristic molecular abnormality and discuss its histogenetic implications. Histologic, immunohistochemical, and electron microscopic analyses revealed features typical of carcinoid tumor, and DNA flow cytometric analysis showed diploid pattern. Molecular genetic studies of informative WT1, p53, and 3p21 loci revealed loss of heterozygosity only at the D3F15S2 locus (3p21 telomeric). The similarity between the molecular abnormality in the present case and that in most renal cell carcinomas suggests a possible common genetic event in the genesis of these neoplasms.
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PMID:Primary renal carcinoid tumor with molecular abnormality characteristic of conventional renal cell neoplasms. 773 56

The cases of two young male siblings independently developing unilateral Wilms' tumors and brain tumors are reported. The renal tumors were resected; the first child was treated with chemotherapy and the second child was given additional radiotherapy. Five years after treatment, both children developed a second primary neuroectodermal tumor. All four tumors showed a high proliferative activity, and rapidly progressing disease led to the death of the first child. Histopathological and molecular studies were carried out on all four neoplasms. No functionally relevant mutation was found in selected exons of the p53, K-ras and WT1 gene loci of tumor and germ line DNA. Since additional family members had developed brain tumors and carcinomas, this peculiar association of neoplasms may be due to germ line mutation of a hitherto unidentified oncogene acting in a recessive or weakly dominant fashion.
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PMID:Association of Wilms' tumor with primary brain tumor in siblings. 787 89

The frequent allelic deletions observed on the short arm of chromosome 11 in ovarian tumors suggest that the WT1 gene, a proposed tumor-suppressor gene located on chromosome 11p13 and expressed in the human fetal genitourinary system, may contribute to the development of ovarian neoplasms. Structural and sequence analysis of the entire coding portions of the WT1 gene did not reveal any abnormalities in the 20 ovarian tumor specimens (13 of which showed 11p13 allelic deletions) and 5 cell lines which we analyzed. These findings invalidate the hypothesis that the WT1 gene functions as a classical tumor-suppressor gene in ovarian tumorigenesis and suggest that a different recessive oncogene may be "exposed" by the observed 11p13 allelic deletions. Expression analysis showed that the WT1 gene was transcriptionally active in all the tumors tested, but considerable variations in the mRNA levels were found. This apparent variability, which should be confirmed at the cellular level in the tumor specimens, was also observed in the ovarian tumor-cell lines. Finally, WT1 expression data were evaluated in conjunction with immunohistochemical data on p53. The possible functional effects of altered WT1 mRNA expression in ovarian tumors are discussed, taking into account the potential WT1/p53 protein interaction.
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PMID:Molecular mechanisms possibly affecting WT1 function in human ovarian tumors. 791 Jan 52

Although it is widely accepted that tumor suppressor genes play an important role in the genesis and progression of human cancer, little is known about genetic events that accumulate during multistage lung carcinogenesis. Thus, to determine a subset of tumor suppressor genes that are involved in the genesis and progression of non-small cell lung carcinoma (NSCLC), 22 brain metastases and 23 stage I primary lung tumors were examined for allelic losses at 40 loci on 10 chromosomes including the loci of 5 tumor suppressor genes, APC, WT1, RB, p53, and DCC. The incidence of allelic losses on chromosomes 3p, 13q, and 17p was high (> 60%) in both primary tumors and brain metastases. In brain metastases, a high incidence of allelic losses (> 60%) was also observed at loci on chromosomes 2q, 18q, and 22q, and the incidence of allelic losses on these chromosomes in brain metastases was significantly higher than that in primary tumors (P < 0.05). In two cases of brain metastases with corresponding primary lung tumors, sequential accumulation of allelic losses during progression of primary lung tumors was observed on several chromosomes including chromosomes 2q and 18q. These results indicate that, besides loss of heterozygosity for chromosomes 3p, 13q, and 17p, loss of heterozygosity for chromosomes 2q, 18q, and 22q also occurs frequently in advanced NSCLCS. Thus, it is possible that loss of heterozygosity on chromosomes 2q, 18q, and 22q occurs late in the progression of NSCLC and/or causes phenotypic alterations of NSCLC cells into more aggressive ones.
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PMID:Frequent allelic losses on chromosomes 2q, 18q, and 22q in advanced non-small cell lung carcinoma. 792 10

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