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Query: UMLS:C0027960 (
mole
)
21,279
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The gene MTS1 encodes p16INK4, an inhibitor of
cyclin-dependent kinase 4
, and is frequently deleted, mutated, or silenced by promoter methylation in melanoma cells and in the germline of familial melanoma patients. Although MTS1 may thus be the candidate melanoma suppressor gene that maps to chromosome 9p21, it is not clear how dysfunction at that locus temporally relates to melanoma progression. To further test its role in sporadic melanoma, the expression of p16INK4-protein and -mRNA was characterized in melanomas and melanocytic
nevi
by immunocytochemistry and in situ reverse transcriptase-polymerase chain reaction. Histologic tissue sections were immunolabeled with anti-p16INK4 antibody for 108 melanocytic lesions, including common and atypical nevi, in situ melanomas, primary invasive melanomas, and metastatic tumors. A subset of the lesions was analyzed for expression of p16INK4-mRNA, employing forward and reverse intron-bridging primers for reverse transcriptase-polymerase chain reaction amplification of the transcript corresponding to exons 1 and 2 of MTS1. Strong immunolabeling was detected in the melanocytes of common
nevi
and of
nevi
with architectural disorder and cytologic atypia. By digital image analysis, in contrast, labeling intensity decreased significantly and progressively in the melanocytes of in situ, invasive, and metastatic melanomas. Results from the in situ reverse transcriptase-polymerase chain reaction analysis were confirmatory, showing a strong signal in the melanocytic
nevi
but progressive signal attenuation with increasing stage of melanoma. These data indicate correlation between gradual loss of expression of the MTS1 locus and progression of melanoma, further supporting an emerging role for the gene in the malignant transformation of melanocytes. The failure to demonstrate reduced expression in
nevi
suggests either that these lesions are not an early stage in melanoma development, in contrast to prevailing assumptions, or that loss of p16INK4 function is not an initiating event in melanocyte transformation.
...
PMID:Expression of the tumor suppressor gene product p16INK4 in benign and malignant melanocytic lesions. 962 Mar 1
The molecular mechanisms and biology of cellular senescence in human melanocytes are discussed, including similarities to and differences from senescence in fibroblasts and other cell lineages. Special reference is made to the fact that the known melanoma susceptibility genes in the human, Inhibitor A of [cyclin-dependent] kinase 4-alternative reading frame (INK4A-ARF) and
cyclin-dependent kinase 4
, are involved in the regulation of cellular senescence, and possible reasons why this should be so. Based on the evidence including growth and survival kinetics of human and mouse melanocytes carrying germline deficiencies in the INK4A sequence, it is suggested that an 'M0' or p16/RB-dependent form of senescence may be particularly important in melanocytes. A speculative model is proposed, relating current concepts of early melanoma progression to the processes of cellular senescence and immortalization. This includes the suggestion that moles or
nevi
are senescent clones of melanocytes.
...
PMID:Human melanocyte senescence and melanoma susceptibility genes. 1278 81
The Clark model for melanoma progression emphasizes a series of histopathological changes beginning from benign melanocytic
nevus
to melanoma via dysplastic nevus. Several models of the genetic basis of melanoma development and progression are based on this Clark's multi-step model, and predict that the acquisition of a BRAF mutation can be a founder event in melanocytic neoplasia. However, our recent investigations have challenged this view, showing the polyclonality of BRAF mutations in melanocytic
nevi
. Furthermore, it is suggested that many melanomas, including acral and mucosal melanomas, arise de novo, not from melanocytic
nevus
. While mutations of the BRAF gene are frequent in melanomas on non-chronic sun damaged skin which are prevalent in Caucasians, acral and mucosal melanomas harbor mutations of the KIT gene as well as the amplifications of cyclin D1 or
cyclin-dependent kinase 4
gene. Amplifications of the cyclin D1 gene are detected in normal-looking 'field melanocytes', which represent a latent progression phase of acral melanoma that precedes the stage of atypical melanocyte proliferation in the epidermis. Based on these observations, we propose an alternative genetic progression model for melanoma.
...
PMID:Molecular pathogenesis of malignant melanoma: a different perspective from the studies of melanocytic nevus and acral melanoma. 1978 35
Genetic susceptibility to primary cutaneous melanoma (PCM) may account for up to 12% of PCMs, presenting as the familial atypical
mole
/multiple melanoma syndrome (FAMMM), an autosomal dominant condition with incomplete penetrance and variable expressivity, characterized by PCM in at least two relatives and/or more than one PCMs in the same patient. To identify individuals at high genetic risk of PCM, from 1 January 2012 to 31 December 2015, we offered genetic counselling and molecular analysis of the two high-penetrance FAMMM susceptibility genes, cyclin-dependent kinase inhibitor 2A (CDKN2A) and
cyclin-dependent kinase 4
(
CDK4
), to 92 consecutive, unrelated patients with FAMMM. Age at diagnosis and number of PCMs were obtained from medical records; the number of PCMs and affected relatives were recorded for each family. The diagnostic work-up consisted of genetic counselling and cascade genetic testing in patients and further extension to relatives of those identified as mutation carriers. All exons and exon/intron boundaries of CDKN2A and
CDK4
genes were screened by direct bidirectional sequencing. We identified CDKN2A mutations in 19 of the 92 unrelated patients (20.6%) and in 14 additional, clinically healthy relatives. Eleven of these latter subsequently underwent excision of dysplastic nevi, but none developed PCM during a median follow-up of 37.3 months. In three patients from unrelated families, the novel CDKN2A p.D84V (c.251A>T) mutation was observed, associated with PCM in each pedigree. Genetic screening of FAMMM patients and their relatives can contribute towards specific primary and secondary prevention programmes for individuals at high genetic risk of PCM. The novel CDKN2A p.D84V (c.251A>T) mutation adds to the known mutations associated with FAMMM.
...
PMID:Genetic counselling and high-penetrance susceptibility gene analysis reveal the novel CDKN2A p.D84V (c.251A>T) mutation in melanoma-prone families from Italy. 2806 55
