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)

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

The development of cancer is a multistep process involving accumulation of genetic changes which progressively transform normal cells to neoplastic cells. During the last few years, our understanding and knowledge of the genetic changes involved in ovarian carcinogenesis have increased dramatically. In this review I will focus on karyotypic abnormalities in ovarian cancer and will also refer to molecular studies involving alterations in oncogenes and tumour suppressor genes in ovarian tumorigenesis. Cytogenetic analyses have identified two distinct subgroups. Simple karyotypic changes, trisomy 12 being the most common aberration in this group, are recurrently found in well differentiated ovarian carcinomas. Complex karyotypic abnormalities, including predominantly chromosome losses, deletions and unbalanced translocations, are found in moderately and poorly differentiated carcinomas. The bands and regions most commonly involved in structural rearrangements have been, in decreasing order of frequency, 19p13, 1p36, 1q21, 1q23-25, 3p11-13, 6q21, 19q13, 11p13-15, 11q13, 11q23, 12q24, 12p11-13, and 7p13-22. The finding of identical karyotypic and other genetic changes in tumour samples taken from different sites, such as tumours from both ovaries and omental metastases, indicate that ovarian cancer is of unicentric origin with subsequent metastatic spread giving rise to multiple implants. Molecular genetic changes important in ovarian cancer involve both classes of tumor-associated genes: RAS activation is generally not observed in ovarian cancer. Alterations of MYC1, ERBB2, AKT2, TP53 has been described in some ovarian carcinomas. The temporal relationship of these mutations, i.e. early or late events in ovarian carcinogenesis, remains to be determined.
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PMID:Genetic changes in ovarian cancer. 774 4

Transgenic animal models have played a major role in advancing our understanding of tumorigenesis. The most important recent advance has been the production of animals bearing targeted mutations generated by homologous recombination. For the first time, we can ask questions about loss of gene function and the consequences of gene alterations in situ. Perhaps most significantly, this approach has been applied to two of the tumour suppressor genes, Rb and p53. Homologous recombination has helped to clarify not only the normal roles of these genes, but also the mechanisms by which their dysfunction may lead to tumorigenesis.
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PMID:Transgenic approaches to cancer biology. 776 67

There are two major classes of genes implicated in human tumorigenesis, the oncogenes and the tumour suppressor genes. In haematological malignancies most emphasis has been placed upon the recurring translocations in which the juxtaposition of two gene sequences has resulted in the activation of an oncogene. Chromosomal loss rather than translocation is the most frequent karyotypic abnormality in the myelodysplastic syndromes, a heterogeneous group of clonal malignant blood disorders characterised by dyshaematopoiesis and/or impaired maturation of haemopoietic cells with frequent evolution to acute leukaemia. Recent attention has focused on the loss of genetic material as a result of chromosomal monosomy or deletion in the myelodysplastic syndromes. The most frequently reported deletions in these myeloid syndromes are of chromosomes 5, 20 and 7. Deletions of chromosomes 11, 12, and 13, although more rarely observed, are also characteristics of the myelodysplastic syndromes. It is probable that the deleted chromosomal bands give the location for as yet unidentified myeloid specific tumour suppressor loci and there is considerable interest in the cloning of these genes. This review discusses the three most frequently observed deletions in MDS; 7q deletion, 5q deletion and 20q deletion taking into account recent evidence on the respective critical regions of gene loss and the role of candidate genes.
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PMID:Chromosomal deletions in myelodysplasia. 777 64

D-type cyclins, in association with the cyclin-dependent kinases Cdk4 or Cdk6, promote progression through the G1 phase of the cell cycle by phosphorylating the retinoblastoma protein (RB). The activities of Cdk4 and Cdk6 are constrained by inhibitors such as p16, the product of the CDKN2 gene on human chromosome 9p21 (refs 12-14). The frequent deletion or mutation of CDKN2 in tumour cells suggests that p16 acts as a tumour suppressor. We show that wild-type p16 arrests normal diploid cells in late G1, whereas a tumour-associated mutant of p16 does not. Significantly, the ability of p16 to induce cell-cycle arrest is lost in cells lacking functional RB, including primary fibroblasts from Rb-/- mouse embryos. Thus, loss of p16, overexpression of D-cyclins and loss of RB have similar effects on G1 progression, and may represent a common pathway to tumorigenesis.
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PMID:Retinoblastoma-protein-dependent cell-cycle inhibition by the tumour suppressor p16. 777 60

The tumorigenesis of neuroendocrine tumours remains poorly understood, although a minority, the familial multiple endocrine neoplasia (MEN 1 and MEN 2), are known to be of uncommon genetic origin. Mutation of the tumour suppressor gene, p53, is now known to be a common genetic alteration in about half of all types of non-endocrine cancers. In the present study, immunocytochemistry using the monoclonal anti-p53 antibody, DO-7, has been employed to investigate the accumulation of p53 immunoreactivity in a wide range of primary neuroendocrine tumours. Tumours (n = 109) were fixed and processed to paraffin wax according to a constant protocol. Sections were subjected to microwave antigen retrieval prior to immunostaining for p53. Positive nuclear immunostaining was observed in one medullary carcinoma of the thyroid (MCT), one lung carcinoid, and five small cell carcinomas of the lung (SCCL). All other tumour samples were consistently negative. As the neoplasia investigated in this study comprised a wide spectrum of neuroendocrine tumour types and ranged from minute, relatively benign lesions to malignant metastasizing disease and as there was no relationship between the presence of p53 overexpression and clinico-pathological features, the present study suggests that p53 gene mutation may be relatively unimportant in the genesis of neuroendocrine tumours.
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PMID:Overexpression of the tumour suppressor gene p53 is not implicated in neuroendocrine tumour carcinogenesis. 877 44

Oncogenesis of tumours related to multiple endocrine neoplasia type 1 (MEN1) is associated with somatic deletions involving the MEN1 locus, suggesting inactivation of a tumour suppressor gene in this region. Identification of meiotic cross-overs in MEN1 families has placed the MEN1 locus centromeric of D11S807. An extended deletion mapping was performed in 27 primary parathyroid tumours, and identified D11S427 as the closest centromeric flanking marker. Through physical mapping using newly isolated cDNA clones, we estimated the distance between the flanking markers D11S807 and D11S427 to be less than 900 kb. One of these cDNA clones showed expression of a 4.4 kb message in multiple tissues, including those affected in MEN1, while in five endocrine tumours no transcript was detected. Sequence characterization showed that this gene encodes for the phospholipase C beta 3, a key enzyme in signal transduction.
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PMID:The phospholipase C beta 3 gene located in the MEN1 region shows loss of expression in endocrine tumours. 784 1

Loss of heterozygosity (LOH) studies have suggested that somatic mutations of a tumour suppressor gene or genes on chromosome 3p are a critical event in the pathogenesis of non-familial renal cell carcinoma (RCC). Germline mutations of the von Hippel-Lindau (VHL) disease gene predispose to early onset and multifocal clear cell renal cell carcinoma, and the mechanism of tumorigenesis in VHL disease is consistent with a one-hit mutation model. To investigate the role of somatic VHL gene mutations in non-familial RCC, we analysed 99 primary RCC for VHL gene mutations by SSCP and heteroduplex analysis. Somatic VHL gene mutations were identified in 30 of 65 (46%) sporadic RCC with chromosome 3p allele loss and one of 34 (3%) tumours with no LOH for chromosome 3p. The VHL gene mutations were heterogeneous (17 frameshift deletions, eight missense mutations, four frameshift insertions, one nonsense and one splice site mutation), but no mutations were detected in the first 120 codons of cloned coding sequence. Most RCCs with somatic VHL mutations (23 of 27 (85%) informative cases) had chromosome 3p25 allele loss in the region of the VHL gene so that both alleles of the VHL gene had been inactivated as expected from a two-hit model of tumorigenesis. Detailed histopathology was available for 59 of the tumours investigated: 18 of 43 (42%) RCC with a clear cell appearance had a somatic VHL gene mutation but none of 16 non-clear cell RCC (eight chromophilic, three chromophobe and five oncocytoma) (chi2 = 7.77, P < 0.025).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Somatic mutations of the von Hippel-Lindau disease tumour suppressor gene in non-familial clear cell renal carcinoma. 788 15

To test the potential role of H19 as a tumour suppressor gene we have examined its expression and DNA methylation in Wilms' tumours (WTs). In most WTs (18/25), H19 RNA was reduced at least 20-fold from fetal kidney levels. Of the expression-negative tumours ten retained 11p15.5 heterozygosity: in nine of these, H19 DNA was biallelically hypermethylated and in two cases hypermethylation locally restricted to H19 sequences was also present in the non-neoplastic kidney parenchyma. IGF2 mRNA was expressed in most but not all WTs and expression patterns were consistent with IGF2/H19 enhancer competition without obligate inverse coupling. These observations implicate genetic and epigenetic inactivation of H19 in Wilms' tumorigenesis.
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PMID:Epigenetic lesions at the H19 locus in Wilms' tumour patients. 792 Jun 66

Neurological tumours are common neoplasms of both adults and children. Recent studies have begun to delineate the genetic abnormalities that underlie such tumours, and have implicated two classes of genes, oncogenes and tumour suppressor genes. Most investigations have focused on those astrocytomas that affect the cerebral hemispheres of adults, since these are the most common and malignant brain tumours. The high-grade astrocytomas that affect adults, such as glioblastoma multiforme, often have amplification of the epidermal growth factor receptor (EGFR) oncogene and loss of a variety of chromosomal loci that probably harbour tumour suppressor genes. Of the various tumour suppressor gene loci, the p53 gene on chromosome 17p has been studied most closely and has been shown to be mutated in both low- and high-grade astrocytomas. These genetic alterations may provide a means for subdividing astrocytomas into diagnostic categories. For instance, p53 gene mutations occur more commonly in glioblastomas from young adults and women, while EGFR gene amplification is more common in glioblastomas from older adults and men. For the other primary CNS tumours, genetic studies remain in their infancy. The neurocutaneous syndromes, such as neurofibromatosis types 1 and 2, have provided unique insights into neurological oncogenesis. The NF1 gene on chromosomes 17q and its product, neurofibromin, may be important in the formation of neurofibrosarcomas, while the NF2 gene on chromosome 22q and its product, merlin, are probably involved in the formation of schwannomas and other nervous system tumours. The further characterization of these and other neurological tumour genes will undoubtedly illuminate many other areas in neurooncology.
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PMID:Genetic basis of neurological tumours. 795 51

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