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 is the product of the CDKN2A locus, which is mutated or deleted in many human tumors. In response to nonlethal UVC irradiation, HeLa cells accumulate elevated levels of p16. The accumulation of p16 is delayed 8-12 h following irradiation and correlates with S-phase and G2 delays, decreasing as the cells recover and recommence normal cell growth. The maximum levels of p16 correlated with G2 delay. The UVC-induced cell cycle delay was absent in cell lines derived from HeLa that did not express p16 and in a melanoma line deleted for p16.
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PMID:Accumulation of p16CDKN2A in response to ultraviolet irradiation correlates with late S-G(2)-phase cell cycle delay. 865 87

The cell cycle is composed of a series of steps that can be negatively or positively regulated by various factors. A group of low-molecular-weight proteins have recently been identified that specifically inhibit the function of cyclin-dependent kinases in mammalian cells. Inactivation of the CDKN2A gene (also known as p16INK4A and MTS1) attracted considerable interest after it was mapped to 9p21, a locus for familial melanoma. In an effort to standardize the information regarding human CDKN2A mutations detected in cancers, a database with information of 146 point mutations has been created. Cancer type, origin of cells, specific mutation, amino acid change, literature citation, and other data are provided for each mutation entry. Studies of biochemical and biological functions of both wild-type and mutant proteins are central to our understanding of the role of p16INK4a mutations in tumorigenesis, a summary of these studies is also included in the present update.
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PMID:CDKN2A (p16INK4A) somatic and germline mutations. 872 78

Microcell transfer of intact normal human chromosomes into immortal mouse and hamster fibroblast cell lines has revealed growth suppressive activity associated with a small sub-set of the human complement. Here, we describe the results of a detailed study aimed at identifying the gene or genes responsible for the rapid growth-arrest response obtained with human chromosome-9. Initially, STS-PCR deletion mapping of segregants arising in monochromosome transfer experiments was used successfully to localize the active sub-chromosomal region to 9p21. Subsequent fine-structure deletion mapping of previously uniformative hybrid segregants, employing additional markers between D9S162 and D9S171, provided strong evidence that the cyclin-dependent kinase (cdk) inhibitor gene CDKN2A (p16INK4A) was solely responsible for the chromosome-9 effect; 9p21 microdeletions in a significant proportion of segregant clones were restricted to a single CDKN2A exon. Transfection experiments with CDKN2A and CDKN2B cDNA expression vectors, using mouse A9 cells and three human malignant melanoma cell lines as recipients, provided further evidence in support of this hypothesis. Collectively, our results indicate that expression of human CDKN2A (controlled either by its natural regulatory elements, or by a cytomegalovirus promoter) is incompatible with in vitro proliferation in immortalized rodent cells and in human melanoma cell lines. The rapidity of the growth inhibitory effects of CDKN2A was inconsistent with a mode of action involving induction of replicative cell senescence via telomerase repression, but was consistent with a mechanism based on cell cycle arrest through cdk inhibition. The study described here has generated a panel of microdeleted monochromosome-9 donor hybrids which may prove valuable in functional investigations aimed at identifying other important tumour suppressor genes located on human chromosome-9.
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PMID:Identification of human tumour suppressor genes by monochromosome transfer: rapid growth-arrest response mapped to 9p21 is mediated solely by the cyclin-D-dependent kinase inhibitor gene, CDKN2A (p16INK4A). 876 11

CDKN2A, the gene encoding the cell-cycle inhibitor p16CDKN2A, was first identified in 1994. Since then, somatic mutations have been observed in many cancers and germline alterations have been found in kindreds with familial atypical multiple mole/melanoma (FAMMM), also known as atypical mole syndrome. In this review we tabulate the known mutations in this gene and discuss specific aspects, particularly with respect to germline mutations and cancer predisposition.
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PMID:The CDKN2A (p16) gene and human cancer. 913 80

Mutations in the gene encoding the cell cycle inhibitor CDKN2A have been identified in some melanoma kindreds linked to 9p21. However, many such families show no evidence of mutations in the coding regions of CDKN2A. In this study, we examined whether two other potential tumor suppressors, CDKN2B and p19ARF, which also map within the 9p21 region, play a role in the development of familial melanoma. We found no mutations in the coding regions of either gene in melanoma-prone families with evidence of linkage to 9p21. We conclude either that another melanoma susceptibility gene exists within this chromosomal area or that mutations in noncoding regions of CDKN2A, CDKN2B, or p19ARF predispose to melanoma.
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PMID:Affected members of melanoma-prone families with linkage to 9p21 but lacking mutations in CDKN2A do not harbor mutations in the coding regions of either CDKN2B or p19ARF. 913 95

CDKN2A is a melanoma susceptibility gene that is mutated and/or deleted in familial and sporadic melanoma as well as in a range of other tumors. It encodes a cell cycle regulator, p16, whose function is to inhibit activity of cyclin-dependent kinases 4 and 6. We set out to investigate the effect of reintroducing CDKN2A into MM96L, a melanoma cell line that does not express p16, by electroporation of wt CDKN2A cDNA. Our results show that transfection of the CDKN2A cDNA has a dramatic effect on cell morphology, inducing a more dendritic phenotype resembling that of adult melanocytes. This effect on cell morphology was not cell line specific because it was reproduced in another melanoma line (SK-MEL-13), which has a homozygous deletion of CDKN2A. It was abolished by mutations that abrogate p16 function, as shown by transfection of a Pro81Leu p16 variant. Reintroduction of levels of p16 protein similar to those of cultured neonatal foreskin melanocytes decreased the growth rate of the transfected clones. Surprisingly, we did not see any effect on anchorage-independent growth or on the following melanoma markers tested by western blotting: p21/WAF1, tyrosinase-related antigen 1, HMB45, and intermediate filament antigen. These data indicate that reintroduction into melanoma cells of wild type p16 at levels similar to cultured melanocytes can induce morphologic changes and suppress growth but is not sufficient to affect anchorage-independent growth.
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PMID:Restoration of CDKN2A into melanoma cells induces morphologic changes and reduction in growth rate but not anchorage-independent growth reversal. 920 56

Mutations in the CDKN2A (p16INK4a) tumour suppressor gene on chromosome 9p21 are associated with inherited predisposition to melanoma, yet some 9p-linking hereditary melanoma families show no mutations in this gene. Splicing of CDKN2A exons 2 and 3 to an alternative first exon produces a transcript (p16beta) encoding a protein with cell cycle regulatory properties. We have analysed allele-specific expression levels of both the p16INK4a and p16beta transcripts in B-lymphoblastoid cells from 18 members of hereditary melanoma kindreds including four unrelated control individuals. In 15 of the 18 individuals examined, steady-state levels of each transcript either originated equally from each parental chromosome, or one parental chromosome was dominant for both transcripts. However, in three affected members of two 9p-linking hereditary melanoma kindreds, without exonic CDKN2A mutations, this pattern of coordinate expression was disrupted. In these individuals there was underexpression of the p16beta transcript, relative to the p16INK4a transcript, from the chromosome segregating with disease susceptibility. Loss of coordinate expression of the p16INK4a and p16beta transcripts may be an alternative genetic basis for melanoma susceptibility in certain 9p-linking kindreds.
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PMID:Differential expression of p16INK4a and p16beta transcripts in B-lymphoblastoid cells from members of hereditary melanoma families without CDKN2A exon mutations. 924 5

CDKN2A (9p21) and CDK4 (12q13) have been identified as melanoma susceptibility genes in certain familial melanoma (FM) kindreds. There remain other FM families, however, for which there is little or no evidence for linkage of melanoma to these loci. Other loci may be involved in susceptibility to this malignancy. Chromosome 6 is deleted or rearranged in 66% of melanomas and has been targeted by several studies in an attempt to identify chromosomal regions associated with initiation or progression of melanoma. Previous studies of familial melanoma and chromosome arm 6p reported evidence suggestive of linkage for markers flanking the HLA complex. We have carried out genetic linkage analysis in 14 Australian familial melanoma kindreds using 16 short tandem repeat polymorphism (STRP) markers spanning 6p23-6q27. Analysis by maximum likelihood and non-parametric (affected pedigree member) techniques showed no evidence of linkage of melanoma in this family set to chromosome 6 (two-point Zmax = 0.5 at theta = 0.2 for D6S285). Lod scores > 1.0 were obtained for the loci D6S285, D6S105, D6S265, D6S292, and D6S311 in three individual kindreds but these were insufficiently strong for formal heterogeneity testing to confirm that a chromosome 6-linked subset of families exists. These data imply little or no role for a major chromosome 6 melanoma susceptibility locus; however the possibility of such a locus remains open and warrants further investigation.
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PMID:Linkage analysis of familial melanoma and chromosome 6 in 14 Australian kindreds. 925 59

The CDKN2A gene maps to chromosome 9p21-22 and is responsible for melanoma susceptibility in some families. Its product, p16, binds specifically to CDK4 and CDK6 in vitro and in vivo, inhibiting their kinase activity. CDKN2A is homozygously deleted or mutated in a large proportion of tumor cell lines and some primary tumors, including melanomas. The aim of this study was to investigate the involvement of CDKN2A and elucidate the mechanisms of p16 inactivation in a panel of 60 cell lines derived from sporadic melanomas. Twenty-six (43%) of the melanoma lines were homozygously deleted for CDKN2A, and an additional 15 (25%) lines carried missense, nonsense, or frameshift mutations. All but one of the latter group were shown by microsatellite analysis to be hemizygous for the region of 9p surrounding CDKN2A. p16 was detected by Western blotting in only five of the cell lines carrying mutations. Immunoprecipitation of p16 in these lines, followed by Western blotting to detect the coprecipitation of CDK4 and CDK6, revealed that p16 was functionally compromised in all cell lines but the one that carried a heterozygous CDKN2A mutation. In the remaining 19 lines that carried wild-type CDKN2A alleles, Western blot analysis and immunoprecipitation indicated that 11 cell lines expressed a wild-type protein. Northern blotting was performed on the remaining eight cell lines and revealed that one cell line carried an aberrantly sized RNA transcript, and two other cell lines failed to express RNA. The promoter was found to be methylated in five cell lines that expressed CDKN2A transcript but not p16. Presumably, the message seen by Northern blotting in these cell lines is the result of cross-hybridization of the total cDNA probe with the exon 1beta transcript. Microsatellite analysis revealed that the majority of these cell lines were hemi/homozygous for the region surrounding CDKN2A, indicating that the wild-type allele had been lost. In the 11 cell lines that expressed functional p16, microsatellite analysis revealed loss of heterozygosity at the markers immediately surrounding CDKN2A in five cases, and the previously characterized R24C mutation of CDK4 was identified in one of the remaining 6 lines. These data indicate that 55 of 60 (92%) melanoma cell lines demonstrated some aberration of CDKN2A or CDK4, thus suggesting that this pathway is a primary genetic target in melanoma development.
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PMID:CDKN2A/p16 is inactivated in most melanoma cell lines. 935 51

Genetic predisposition plays an important role in the development of nearly 10% of cases of cutaneous malignant melanoma (CMM). The CDKN2A gene has been described as responsible for melanoma susceptibility in a proportion of families with CMM linked to 9p. CDKN2A encodes a cyclin-dependent kinase inhibitor also implicated in the carcinogenesis of several sporadic tumors. Even though the incidence of other cancers is higher in CMM families, pancreatic adenocarcinoma is the only other well demonstrated cancer associated with CDKN2A mutations in some CMM pedigrees. We describe a family with four cases of CMM, eight patients affected by other cancers, and nine patients affected by dysplastic nevus (DN) syndrome. A CDKN2A frameshift mutation (358delG) was present in all the CMM patients, in at least three of the patients with other cancers (CDKN2A status is unknown in four patients), and in only two of the DN patients (CDKN2A status is unknown in one patient). An absence of linkage between chromosome 9p markers and the 358delG CDKN2A mutation and DN was detected, indicating genetic heterogeneity for DN and CMM in this family. The study strongly suggests that CDKN2A mutations are involved not only in the predisposition to CMM but also to several other types of cancer.
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PMID:Inherited susceptibility to several cancers but absence of linkage between dysplastic nevus syndrome and CDKN2A in a melanoma family with a mutation in the CDKN2A (P16INK4A) gene. 943 68

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