UMLS:C0025202 - FACTA Search

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Query: UMLS:C0025202 (melanoma)
69,561 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

P16 was originally discovered by its ability to interact with CDK4 and to specifically inhibit the catalytic activity of the CDK4/D1 kinase. Increased attention has focused on the p16 gene because of its location on chromosome 9p21, a region involved in chromosomal rearrangements in a large number of tumor types. The p16 gene is also mutated in a large number of tumor cell lines and primary tumor cells. Furthermore, linkage analysis studies suggest that the p16 gene is involved in familial melanoma susceptibility. Due to the oncogenic potential of mutations in this tumor suppressor, it is important to identify and characterize those mutations which alter p16 activity. We have performed a systematic analysis of melanoma associated p16 mutants and of mutants generated in charge to Ala mutagenesis. Using microtiter plate assays to measure both p16-cdk4 binding and cdk4/D1 kinase activity, we show here that the melanoma associated mutants are defective, as are some of the Ala mutants. These results support the idea that p16 mutation, via its deregulation of the cdk4/D1 pathway, is of biological significance in the development of melanoma. Furthermore, we have defined a region within the p16 molecule in which changes are likely to result in a defective protein.
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PMID:Biochemical and mutagenic analysis of the melanoma tumor suppressor gene product/p16. 747 20

p16INK4A and p15INK4B were initially identified as potent inhibitors of activated cyclin/cyclin-dependent kinase complexes. These genes were colocalized to chromosome 9p21, and p16 was subsequently found to be mutated in familial melanoma and deleted in a wide variety of sporadic cancers. We recently found that de novo methylation of a 5' CpG island led to transcriptional block of full-length p16 in many neoplasms. However, the presence of a truncated p16 transcript in methylated cell lines led us to investigate the presence of an alternative promoter or initiation site. We have now identified an abundant alternative p16 transcript in both methylated and unmethylated cell lines generated from a novel sequence (exon 1 beta) potentially involved in the complex regulation of these critical cell cycle genes.
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PMID:A novel p16INK4A transcript. 754 8

The tumor suppressor candidate p16INK4 is a cyclin-dependent kinase inhibitor that inhibits cell proliferation. The p16 coding gene is often mutated in glioblastomas, pancreatic adenocarcinomas and melanoma-prone pedigrees, but, until recently, the significance of these allelic variants has remained unclear. Here, we used interaction mating and coprecipitation to measure interaction of seven p16 allelic variants detected in melanoma-prone pedigrees with Cyclin-dependent kinases (Cdks). We found that most variants were deficient in interaction with Cdk4 and Cdk6. One defective variant was found both in cancer prone families and in the control population and therefore previously defined as a common polymorphism. Another variant, which is weakly linked to familial cancer, is only slightly affected in interaction with Cdks. These results are consistent with the idea that p16 allelic variants that decrease Cdk interaction predispose individuals who carry them to an increased risk of cancer. Moreover, they suggest that determination of affinity between p16 mutants and partner proteins may help identify functionally-significant allelic variants not detected by classical human genetic techniques.
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PMID:p16 proteins from melanoma-prone families are deficient in binding to Cdk4. 756 78

Neurocristopathy is the disorder in which the series of cell and tissue derived from the neural crest are affected. A variety of neural crest tumors, and systemic neurocristopathies such as neurofibromatosis type 1 (NF1) and type 2 (NF2), multiple endocrine neoplasia type 2 (MEN2) and dysplastic nevus syndrome are included in this category. Genetic abnormalities of specific proto-oncogenes and tumor suppressor genes have been discovered in the neurocristopathies. The NF1 gene has GTP-ase activating protein activity, regulates ras pathway and acts as a potential tumor suppressor. The NF2 gene, which is also considered as a tumor suppressor of Schwann cell and meningocyte, has a unique character that it is a linker between adhesion molecule and cytoskeletal protein. Ret proto-oncogene has been proven to be the responsible gene not only of MEN2A but also of MEN2B, familial medullary carcinoma and Hirschsprung disease. Recent progress of positional cloning technique further revealed that p16 gene which is an inhibitor of cycline-dependent kinase is the gene for some of familial malignant melanoma/dysplastic nervus syndrome and sporadic melanoma. ENU-induced rodent model for human Schwann cell tumor and fish model for malignant melanoma have provided useful insights to molecular mechanisms of neural crest tumors. Moreover, introduction of transgenic and gene targeted mouse models for neurocristopathies has made great progress in understanding of the genetic functions in tumoriginesis.
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PMID:Genetic markers and animal models of neurocristopathy. 757 25

The gene encoding the cell cycle inhibitor p16INK4A (also known as p16, MTS1, CDKN2 and INK4) has been mapped to human chromosome band 9p21, a region that also contains a putative melanoma susceptibility gene. Although germline mutations in the coding region of the p16INK4A gene have been detected in some families with inherited melanoma, many other families show no evidence of such mutations and hence the role of p16INK4A in the development of this tumor is still unclear. In this report, we describe a family with inherited melanoma in which a novel mutation in exon 2 of the p16INK4A gene segregates with the disease. The mutant gene encodes a protein with an in-frame deletion of two amino acids (Asp96 and Leu97). We show that the mutant protein is functionally abnormal: it is unable to bind cdk4 in vitro and does not inhibit colony formation in tertiary passage rat embryo fibroblasts. Moreover, in a metastatic lesion from one patient the wild type p16INK4A allele was deleted and the mutant allele retained. We conclude that family members carrying this germline mutation in the p16INK4A gene are predisposed to melanoma. By extension, these findings implicate the p16INK4A gene in the development of some cases of familial melanoma.
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PMID:Germline p16INK4A mutation and protein dysfunction in a family with inherited melanoma. 762 55

Combined multi-point linkage analysis in seven Dutch families with FAMMM syndrome confirmed the location of a melanoma susceptibility (MLM) gene in the 9p21 area. The occurrence of a shared high-risk haplotype in six of the families strongly suggests a founder effect in the Leiden region. No indication for locus heterogeneity was observed. Recently, the CDKN2 (p16) gene, an important regulator of the cell cycle, was isolated from the 9p21 region. A 19-bp germline deletion in the CDKN2 gene was detected in the high-risk haplotype, suggesting CDKN2 to be identical to MLM. Loss of heterozygosity studies in melanoma and pancreatic carcinoma from gene carriers strongly support the view that CDKN2 is a general tumour suppressor gene predisposing not only to melanoma but also to other malignancies. Interestingly, the occurrence of apparent clinical FAMMM cases with melanoma but without the high-risk deletion haplotype suggests the necessity of additional (naevus) genes to explain the complete FAMMM phenotype.
Melanoma Res 1995 Jun
PMID:CDKN2 explains part of the clinical phenotype in Dutch familial atypical multiple-mole melanoma (FAMMM) syndrome families. 764 May 18

The CDKN2 gene, encoding the cyclin dependent kinase inhibitor p16, is a tumour suppressor gene involved in melanoma and maps to chromosome band 9p22. Mutations or interstitial deletions of this gene have been found both in the germline of familial melanoma cases and somatically in melanoma cell lines. Previous mutation analyses of melanoma cell lines have indicated a high frequency of C:G to T:A transitions, with all of these mutations occurring at dipyrimidine sites. Including three melanoma cell lines carrying tandem CC to TT mutations, the spectrum of mutations so far reported indicates a possible role for u.v. radiation in the mutagenesis of this gene in some tumours. To further examine this hypothesis we have characterised mutations of the CDKN2 gene in 30 melanoma cell lines. Nineteen lines carried complete or partial homozygous deletions of the gene. Of the remaining cell lines, eight were shown by direct sequencing of PCR products from exon 1 and exon 2 to carry a total of nine different mutations of CDKN2. Two cell lines carried tandem CC to TT mutations and a high rate of C:G to T:A transitions was observed. This study provides further evidence for the role of u.v. light in the genesis of melanoma, with one target being the CDKN2 tumour suppressor gene.
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PMID:Evidence for u.v. induction of CDKN2 mutations in melanoma cell lines. 765 29

We have analyzed 12 microsatellite markers on chromosome 9p in 54 paired cutaneous malignant melanoma (CMM) tumors and normal tissues. Forty-six percent of the tumors, including two in situ CMMs, showed loss of heterozygosity (LOH) at 9p. Only one tumor was homozygously deleted for 9p markers. The smallest deleted region was defined by five tumors and included markers D9S126 to D9S259. Loss of eight or more markers correlated significantly with worse prognosis (P < .002). Among the primary tumors, 87.5% of those with large deletions have a high risk of metastasis, as compared with only 18% of those without deletions or with loss of fewer than 8 markers (P < .001). It was not possible to demonstrate homozygous deletions of p16 in any of the CMM tumors. In four tumors, the LOH for 9p markers did not involve p16. The reported data suggest the existence of several tumor suppressor genes at 9p that are involved in the predisposition to and/or progression of CMM and exclude p16 from involvement in the early development of some melanoma tumors.
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PMID:Chromosome 9p deletions in cutaneous malignant melanoma tumors: the minimal deleted region involves markers outside the p16 (CDKN2) gene. 766 66

The p16 gene (CDKN2) which is localized on chromosome 9p21, is deleted in a significant number of sporadic cancers. Moreover, germline mutations identified in some melanoma-prone kindreds last year suggested that CDKN2 is identical to the 9p21-linked melanoma susceptibility gene (MLM); however, failure to identify p16 mutations in all melanoma kindreds putatively linked to 9p21 left some doubts. We have analysed CDKN2 coding sequences in 15 Dutch familial atypical multiple mole-melanoma (FAMMM) syndrome pedigrees, and identified a 19 basepair (bp) germline deletion in 13 of them. All 13 families originate from an endogamous population. The deletion causes a reading frame shift, predicted to result in a severely truncated p16 protein. Interestingly, two family members are homozygous for the deletion, one of whom shows no obvious signs of disease. This surprising finding demonstrates that homozygotes for this CDKN2 mutation are viable, and suggests the presence of a genetic mechanism that can compensate for the functional loss of p16. Our results also greatly strengthen the notion that p16 is indeed MLM.
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PMID:Homozygotes for CDKN2 (p16) germline mutation in Dutch familial melanoma kindreds. 767 Apr 75

The P15 gene (MTS2) encodes a cyclin-dependent kinase (CDK) inhibitor with considerable sequence identity and biochemical similarity to the CDK inhibitor p16. It is closely linked to the P16 gene (MTS1) and is homozygously deleted in many tumor cell lines. These features suggest that p15 may be a tumor suppressor. We have determined the genomic structure of P15 and examined its pattern of mRNA expression. In addition, we have shown that ectopic expression of p15 inhibits growth of tumor-derived cell lines. We have also searched for P15 mutations in tumor cell lines and in 9p21-linked melanoma kindreds. Other than the previously described homozygous deletions, no mutations of P15 were found. Collectively, these observations suggest a role for p15 in growth regulation, but a limited role for p15 in tumor progression.
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PMID:Genomic structure, expression and mutational analysis of the P15 (MTS2) gene. 767 59

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