UMLS:C0027960 - FACTA Search

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Query: UMLS:C0027960 (mole)
21,279 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Although the first English-language report of melanoma in 1820 contained a description of a melanoma-prone family, it was 1983 before formal genetic analysis suggested an autosomal dominant mode of inheritance for both melanoma and the then newly described melanoma precursor, dysplastic nevi (DN). Subsequent genetic studies have assumed this model to be correct, although when viewed in aggregate, the data are inconsistent. The first proposed melanoma gene (CMM1) was mapped to chromosome 1p36. This gene assignment has not been confirmed. A second melanoma gene, designated CMM2, has been mapped to chromosome 9p21. This gene assignment has been confirmed, and the cell cycle regulator CDKN2A has been proposed as the candidate gene. Germline mutations in this gene have been identified in about 20% of melanoma-prone families that have been studied to date. Pancreatic cancer occurs excessively in melanoma families with germline mutations in CDKN2A. Germline mutations in the cyclin-dependent kinase gene CDK4 (chromosome 12q14) have been described in three melanoma families. This finding represents a third melanoma gene but one that accounts for only a tiny fraction of all hereditary melanoma. Recently, a familial melanoma-astrocytoma syndrome has been reported. Large germline deletions of 9p21 occur in these families, with the p19 gene implicated in its pathogenesis. At present, clinical predictive genetic testing for mutations in the CDKN2A gene is available commercially, but its use has been limited by uncertainty as to how test results would affect the management of melanoma-prone family members. Currently, management recommendations include monthly skin self-examination, clinical skin examination once or twice yearly, a low threshold for simple excision of changing pigmented lesions, moderation of sun exposure, and appropriate use of sunscreens. A heritable determinant for total nevus number has been suggested by twin studies. Other data suggest the presence of a major gene responsible for "total nevus density" in melanoma-prone families. Approximately 55% of the mole phenotype in multiplex melanoma families was explained by this proposed gene. An autosomal dominant mode of inheritance has been proposed for DN, and data exist to suggest that DN may be a pleiotropic manifestation of the 1p36 familial melanoma gene. However, there clearly are melanoma-prone families that do not express the dysplastic nevus trait, and some of the families linked to CDKN2A also present with dysplastic nevi. Several studies have shown a surprisingly high prevalence of DN on the skin of family members of probands with DN. In light of the extensive evidence documenting that persons with DN (both sporadic and familial) have an increased prospective risk of melanoma, these family studies suggest that relatives of persons with DN should be examined for both DN and melanoma. Genetic determinants play a major role in the pathogenesis of normal nevi, DN, and melanoma. Identifying the molecular basis of these genetic events promises to enhance melanoma risk-reduction strategies and, ultimately, reduce melanoma-associated mortality.
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PMID:The genetics of hereditary melanoma and nevi. 1998 update. 1063 Jan 72

Patients with familial malignant melanoma(FMM) are susceptible for melanoma and multiple dysplastic nevi(atypical mole). FMM is also called as dysplastic nevus syndrome or familial atypical mole and melanoma syndrome. The number of Japanese patients with FMM is very low. In 1994, p16(MTS1, INK4A, CDK4I, CDKN2) gene was cloned as the gene for FMM. p16 gene locus also codes for p14ARF and acts as tumor suppressor through activation of Rb by p16 and p53 by p14ARF. Approximately 20% of FMM patients were shown to carry the germline mutations of p16, indicating the presence of another gene or other genes for FMM, which also may be involved in the development of sporadic malignant melanoma.
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PMID:[Familial malignant melanoma]. 1092 9

The biological significance of melanocytic lesions depends on its association with melanomas. Some melanocytic lesions are considered as precursors of melanoma while others may share histological similarities with malignant lesions. Melanomas exhibit clinical, epidemiological and histological heterogeneity. Molecular and cytogenetic studies may supply additional information to supplement the histopathological evaluation. Several genes have been linked to melanomas: CMM1 on chromosome 1p36 and CMM2 on 9p21, and other chromosomal regions where tumor suppressor genes are located as p16 (9p21) and p53 (17p13). We analyzed different melanocytic lesions to determine LOH at 9p21 and 17p13 and to assess clonality by the HUMARA technique. All the malignant melanomas were monoclonal and all the benignant lesions we analyzed were policlonal in our series including deep penetrating nevi and Spitz Nevi. LOH at 9p21 was determined in 60% melanomas, 50% Spitz and 0% intradermal nevi. In conclusion, genotypic changes may supplement the phenotypic or morphological evaluation of melanocytic lesions.
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PMID:[Genetic alterations in the differential diagnosis of melanocytic diseases]. 1138 55

Lack of p14ARF expression or its functional inactivation has been observed in human and murine carcinomas. Although very few mutations of p14ARF have been detected in some cancer types, changes in expression seem to play an important role in the development of other human cancers such as mesotheliomas. To examine the p14ARF gene and expression of p14ARF protein in melanomas, we screened eight human melanoma cell lines and primary human melanocytes by RT-PCR, sequencing and immunoblotting. All melanoma cell lines analyzed expressed wild-type p14ARF mRNA as well as protein. P14ARF expression was investigated by immunohistochemical staining of 32 tissue samples of benign melanocytic nevi (n=14), melanomas (n=12) and melanoma metastases (n=6). In contrast to the results obtained from cell lines in vitro the immunohistochemical stainings revealed a correlation between the progression of melanoma and the lack of the p14ARF protein expression. Positive p14ARF protein staining was observed in 11 of 14 benign nevi, in 3 of 12 melanomas and in 0 of 6 melanoma metastases. In summary, we demonstrated a significant inverse correlation between p14ARF protein expression and progression of melanocytic tumors since the amount of p14ARF protein staining decreased from benign melanocytic nevi to metastatic melanoma in situ. These results suggest that p14ARF inactivation is important in the development of melanomas.
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PMID:Loss of p14ARF expression in melanoma. 1187 22

Homozygous deletions of human chromosomal region 9p21 occur frequently in malignant melanoma and are associated with the loss of the tumor suppressor genes p16(INK4a) and p15(INK4b). In the same chromosomal region the methylthioadenosine phosphorylase (MTAP) gene is localized and therefore may also serve as a tumor suppressor gene. The aim of this study was to analyze MTAP mutations and expression patterns in malignant melanomas. To examine the MTAP gene and expression of MTAP protein we screened 9 human melanoma cell lines and primary human melanocytes by reverse transcriptase-polymerase chain reaction, sequencing, and immunoblotting. Analyzing the melanoma cell lines we found significant down-regulation of MTAP mRNA expression. In only one cell line, HTZ19d, this was due to homozygous deletion of exon 2 to 8 whereas in the other cell lines promoter hypermethylation was detected. MTAP expression was further analyzed in vivo by immunohistochemical staining of 38 tissue samples of benign melanocytic nevi, melanomas, and melanoma metastases. In summary, we demonstrate significant inverse correlation between MTAP protein expression and progression of melanocytic tumors as the amount of MTAP protein staining decreases from benign melanocytic nevi to metastatic melanomas. Our results suggest an important role of MTAP inactivation in the development of melanomas. This finding may be of great clinical significance because recently an association between MTAP activity and interferon sensitivity has been suggested.
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PMID:Characterization of methylthioadenosin phosphorylase (MTAP) expression in malignant melanoma. 1287 87

Familial atypical multiple mole melanoma (FAMMM) syndrome is an autosomal dominant disorder with variable incomplete penetrance of the clinical phenotypes. Pathogenesis of this syndrome has not been fully investigated. Across multiple studies, germline mutations in the INK4a antioncogene encoding p16 protein were found on average in approximately 40% of the FAMMM syndrome. Patients with the FAMMM syndrome are genetically loaded with an increased risk of developing melanoma and other malignant neoplasms, for example, a pancreatic cancer. Melanoma can develop from numerous atypical moles as well as de novo. A proper diagnosis of the syndrome and early application of prophylactics decreases the risk of neoplastic transformation of melanocytes.
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PMID:FAMMM syndrome: pathogenesis and management. 1487 Dec 23

Small amounts of cell-free DNA circulate in both healthy and diseased human blood, while increased concentrations of DNA are present in the serum of cancer patients. Tumor-specific mutations or epigenetic modifications have predominantly been detected in tissue specimens. The purpose of this study was to investigate methylation of five different genes involved in tumor suppression and DNA repair (suppressors of cytokine signaling 1 and 2 (SOCS1, SOCS2)), Ras-association domain family protein 1A (RASSF1a), D-type p16(INK4a) cyclin-dependent kinase inhibitor (CDKN), and O6-methylguanine DNA-methyltransferase (MGMT)) in the serum of 100 patients using methylation-specific PCR. In all, 41 melanoma patients (stage I = 18; stage II = 10; stage III/IV = 13), 13 healthy controls without nevi, and 10 individuals with more than 15 nevi of >5 mm in size were investigated. For comparison, sera from patients with other skin tumors (nine basal cell cancers, five Kaposi's sarcoma), different metastasized cancers (five breast cancers, five colon cancers), and several chronic inflammatory diseases (n = 12) were also analyzed. In addition, we examined if methylation was involved in silencing transcription of these genes in 12 melanoma specimens. SOCS1, SOCS2, RASSF1a, CDKN2a, and MGMT were methylated in 75, 43, 64, 75, and 64% of melanoma samples, respectively. Of the 41 melanoma patients, 83% had one hypermethylated gene, while 66, 51, and 41% had two, three, or four hypermethylated genes, respectively. Also, 20% of these patients showed hypermethylation for all genes, while only 17% showed no methylation. Importantly, the methylation profile of the selected genes from melanoma patients was distinct from the other analyzed tumors. Transcription of SOCS1, SOCS2, CDKN2a, and RASSF1a genes was significantly reduced in fresh melanoma samples, while MGMT showed a 12-fold upregulation at the messenger ribonucleic acid level (P < 0.001). Our findings suggest that epigenetic silencing of the studied tumor suppressor genes is a common and probably important mechanism for melanoma formation. This convenient method using a simple blood sample may contribute to classification of melanoma and awaits clinical validation.
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PMID:Epigenetic inactivation of tumor suppressor genes in serum of patients with cutaneous melanoma. 1637 57

The retinoblastoma (RB)/p16(INK4a) pathway regulates senescence of human melanocytes in culture and oncogene-induced senescence of melanocytic nevi in vivo. This senescence response is likely due to chromatin modifications because RB complexes from senescent melanocytes contain increased levels of histone deacetylase (HDAC) activity and tethered HDAC1. Here we show that HDAC1 is prominently detected in p16(INK4a)-positive, senescent intradermal melanocytic nevi but not in proliferating, recurrent nevus cells that localize to the epidermal/dermal junction. To assess the role of HDAC1 in the senescence of melanocytes and nevi, we used tetracycline-based inducible expression systems in cultured melanocytic cells. We found that HDAC1 drives a sequential and cooperative activity of chromatin remodeling effectors, including transient recruitment of Brahma (Brm1) into RB/HDAC1 mega-complexes, formation of heterochromatin protein 1 beta (HP1 beta)/SUV39H1 foci, methylation of H3-K9, stable association of RB with chromatin and significant global heterochromatinization. These chromatin changes coincide with expression of typical markers of senescence, including the senescent-associated beta-galactosidase marker. Notably, formation of RB/HP1 beta foci and early tethering of RB to chromatin depends on intact Brm1 ATPase activity. As cells reached senescence, ejection of Brm1 from chromatin coincided with its dissociation from HP1 beta/RB and relocalization to protein complexes of lower molecular weight. These results provide new insights into the role of the RB pathway in regulating cellular senescence and implicate HDAC1 as a likely mediator of early chromatin remodeling events.
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PMID:Dynamic assembly of chromatin complexes during cellular senescence: implications for the growth arrest of human melanocytic nevi. 1763 19

Oncogene-induced senescence is considered to act as a potent barrier to cell transformation, and has been seen in vivo during the early stages of tumor development. Human nevus cells frequently express oncogenic N-RAS or B-RAF, and are thought to be permanently growth arrested. Many studies have suggested that the p16(INK4a) and, to a lesser extent, the p14ARF tumor suppressor proteins act as critical triggers of oncogene-induced senescence in nevi, and thus these proteins represent major inhibitors of progression to melanoma. There have also been reports, however, showing that p16(INK4a) and/or p14ARF is not sufficient to execute the oncogene-induced senescence program. In this study, we examined the impact of melanoma-associated N-RAS(Q61K) on melanocyte senescence and utilized RNA-interference vectors to directly assess the individual contribution of human p14ARF and p16(INK4a) genes to the N-RAS-induced senescence program. We formally show that cultured human melanocytes can initiate an effective oncogene-mediated senescence program in the absence of INK4a/ARF-encoded proteins. Our data are consistent with observations showing that senescent nevus cells do not always express p16(INK4a), and highlight the need to thoroughly explore INK4a/ARF-independent molecular pathways of senescence in human melanocytes.
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PMID:Oncogene-induced senescence does not require the p16(INK4a) or p14ARF melanoma tumor suppressors. 1921 41

We show here that inducible expression of Braf(V600E) off the endogenous Braf gene in mouse melanocytes stimulates skin hyperpigmentation and the appearance of nevi harboring senescent melanocytes. Additionally, approximately 70% of Braf(V600E) mice develop melanomas that reproduce many of the cardinal histological and molecular features of human melanoma and whose cells can colonize the lungs of nude mice. We show that the tumor suppressor p16(INK4a) is not required to induce melanocyte senescence and that its loss is not required for tumor progression, although it does regulate tumor penetrance and latency. Thus, we have developed a mouse model of melanoma driven by Braf(V600E) expressed at physiological levels that reflects the genetics and pathology of the human disease.
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PMID:Oncogenic Braf induces melanocyte senescence and melanoma in mice. 1934 28

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