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)

Melanin synthesized by epidermal melanocytes protects the skin against UVR-induced DNA damage and skin cancer. Exposure to UVR increases the synthesis of the photoprotective eumelanin on activation of MC1R, a melanoma susceptibility gene. We studied the expression of MC1R under UVR and alpha-MSH stimulation in skin of different ethnic origins and in melanocytes of various pigmentary levels. This study identifies and characterizes a novel MC1R isoform (MC1R350) generated by alternative splicing of the classically known MC1R (MC1R317). We demonstrate that the melanin content of melanocytes shows a significant positive correlation with MC1R317 levels but correlates inversely with the amount of MC1R350, suggesting that this latter isoform could act as a negative regulator of melanin synthesis. We confirmed that hypothesis by showing that while MC1R317 signaling significantly increases the expression of MITF and tyrosinase, two key factors in the melanin synthesis pathway, MC1R350 dramatically hampers their expression. In the skin, we show that UVR does not increase MC1R350 expression but does significantly increase MC1R317. Taken together, our results strongly suggest that MC1R350 acts as a negative regulator of skin pigmentation and demonstrate for the first time that MC1R isoform-specific expression is closely related to skin pigmentation and photoprotection.
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PMID:Regulation of constitutive and UVR-induced skin pigmentation by melanocortin 1 receptor isoforms. 1687 22

Heterogeneous expression of melanocytic antigens occurs frequently in melanomas and represents a potent barrier to immunotherapy. We previously showed that coordinated losses of several melanocytic antigens are generally attributable to down-regulation of antigen gene expression rather than irreversible mutation. Treatment of melanoma cells with mitogen-activated protein kinase (MAPK)/extracellular signal-regulated kinase (ERK) kinase (MEK) inhibitors blocks ERK activation and increases steady-state levels of mRNAs and corresponding protein expression for the melanocytic antigens Melan-A/MART-1, gp100, and tyrosinase. Although the degree of MEK inhibitor enhancement of antigen expression varied among different cell lines irrespective of their antigen expression status, all showed detectable responses. Notably, the antigen-enhancing effects of the MEK inhibitors could not be attributed to the master melanocytic regulator MITF-M. Because MAPK pathway activation via constitutively active mutant forms of BRAF is common in melanomas, correlation between BRAF function and antigen expression was investigated. No simple correlation of endogenous BRAF mutational status and antigen levels was observed, but transient overexpression of V600E BRAF increased ERK activation and reduced Melan-A/MART-1 levels in antigen-positive cell lines. These data indicate that whereas multiple factors may regulate antigen expression in melanomas, enhancement of MAPK signaling can act as a negative influence. Blocking such signaling with MEK inhibitors accordingly augments antigen levels, thereby enhancing Melan-A/MART-1-specific cytotoxic T-cell responses to antigen-negative cells following MEK inhibition treatment. Consequently, MAPK inhibition may assist targeting of melanomas for immunotherapy.
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PMID:Role of the mitogen-activated protein kinase signaling pathway in the regulation of human melanocytic antigen expression. 1705 Jun 71

Mitf protein is a transcription factor involved all along the life of pigmented cells. This protein is located in the center of multiple signaling pathways which control differentiation, morphology, proliferation and survival of the various cells of the melanocyte lineage: melanoblasts, melanocytes and melanoma. Mitf plays a major role in melanoblasts differentiation, by inducing the key enzyme of melanogenesis, tyrosinase, and its secondary enzymes, Tyrp1 and Dct. Mitf regulates morphology and migration of melanocytes, particularly by regulating cytoskeleton organization and cell-cell adhesion. Mitf plays a double role of inducer/repressor of cellular proliferation. This protein inhibits cell cycle progression and prevents non-proper cell division. In few cases, Mitf can also induce cell cycle. A minimal quantity/activity of Mitf is necessary for melanoblast survival. Essential protein of the melanocyte lineage, Mitf was proposed as diagnostic/pronostic marker for cutaneous melanoma. However, could we then consider MITF as the unique marker of such a cancer?
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PMID:[Malignant melanoma and the role of the paradoxal protein Microphthalmia transcription factor]. 1723 8

Malignant melanoma is an aggressive, heterogeneous disease where new biomarkers for diagnosis and clinical outcome are needed. We searched for chromosomal aberrations that characterize its pathogenesis using 47 different melanoma cell lines and tiling-resolution bacterial artificial chromosome-arrays for comparative genomic hybridization. Major melanoma genes, including BRAF, NRAS, CDKN2A, TP53, CTNNB1, CDK4 and PTEN, were examined for mutations. Distinct copy number alterations were detected, including loss or gain of whole chromosomes but also minute amplifications and homozygous deletions. Most common overlapping regions with losses were mapped to 9p24.3-q13, 10 and 11q14.1-qter, whereas copy number gains were most frequent on chromosomes 1q, 7, 17q and 20q. Amplifications were delineated to oncogenes such as MITF (3p14), CCND1 (11q13), MDM2 (12q15), CCNE1 (19q12) and NOTCH2 (1p12). Frequent findings of homozygous deletions on 9p21 and 10q23 confirmed the importance of CDKN2A and PTEN. Pair-wise comparisons revealed distinct sets of alterations, for example, mutually exclusive mutations in BRAF and NRAS, mutual mutations in BRAF and PTEN, concomitant chromosome 7 gain and 10 loss and concomitant chromosome 15q22.2-q26.3 gain and 20 gain. Moreover, alterations of the various melanoma genes were associated with distinct chromosomal imbalances suggestive of specific genomic programs in melanoma development.
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PMID:Genomic profiling of malignant melanoma using tiling-resolution arrayCGH. 1726 12

Although a number of genes related to melanoma development have been identified through candidate gene screening approaches, few studies have attempted to conduct such analyses on a genome-wide scale. Here we use Illumina 317K whole-genome single-nucleotide polymorphism arrays to define a comprehensive allelotype of melanoma based on loss of heterozygosity (LOH) and copy number changes in a panel of 76 melanoma cell lines. In keeping with previous reports, we found frequent LOH on chromosome arms 9p (72%), 10p (55%), 10q (55%), 9q (49%), 6q (43%), 11q (43%), and 17p (41%). Tumor suppressor genes (TSGs) can be identified through homozygous deletion (HD). We detected 174 HDs, the most common of which targeted CDKN2A (n = 33). The second highest frequency of HD occurred in PTEN (n = 8), another well known melanoma TSG. HDs were also common for PTPRD (n = 7) and HDAC4 (n = 3), TSGs recently found to be mutated or deleted in other cancer types. Analysis of other HDs and regions of LOH that we have identified might lead to the characterization of further melanoma TSGs. We noted 197 regional amplifications, including some centered on the melanoma oncogenes MITF (n = 9), NRAS (n = 3), BRAF (n = 3), and CCND1 (n = 3). Other amplifications potentially target novel oncogenes important in the development of a subset of melanomas. The numerous focal amplifications and HDs we have documented here are the first step toward identifying a comprehensive catalog of genes involved in melanoma development, some of which may be useful prognostic markers or targets for therapies to treat this disease.
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PMID:Genome-wide loss of heterozygosity and copy number analysis in melanoma using high-density single-nucleotide polymorphism arrays. 1736 83

The MET proto-oncogene encodes for the hepatocyte growth factor (HGF) receptor, a plasma membrane tyrosine kinase that is involved in melanocyte growth and melanoma development. In mouse melanoma cells, Met expression is increased by alphaMSH via the activation of the cAMP pathway. However, the mechanism by which cAMP regulates MET and the biological consequences of this increase were not known. In the present report, we show that alphaMSH regulates MET expression in both human melanocytes and mouse melanoma cells through a transcriptional mechanism that requires MITF. Furthermore, the adenovirus driven expression of MITF is sufficient to increase MET in melanoma cells. Functional analysis of the MET promoter allows us to identify an E-box motif conserved in both human and mouse promoter that mediates the effect of MITF. Interestingly, up-regulation of MET expression by cAMP leads to an exacerbated HGF signaling and allows HGF to protect melanocytes and melanoma cells from apoptosis. Thus, physiological stimuli or pathological events that would induce MITF expression may lead to increased MET expression thereby favoring melanoma survival. These observations strengthen the roles of MITF and MET in melanoma development.
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PMID:Up-regulation of MET expression by alpha-melanocyte-stimulating hormone and MITF allows hepatocyte growth factor to protect melanocytes and melanoma cells from apoptosis. 1737 76

Most of the melanoma markers used today are melanocytic markers or pigmentation pathway-associated genes driven by the microphthalmia transcription factor, MITF, and include among others, tyrosinase, dopachrome tautomerase, DCT, melan-A and S100B. Genomic studies repeatedly revealed several novel melanoma marker genes including those of the transcription factor NOTCH2, WNT5A, proliferation-associated genes TOPO2A and CDC2, membrane receptors FGFR and EphA3, adhesion molecules N-cadherin, beta3 integrin and syndecan-4, and the cell surface antigens CD59/protectin and MIA. Other genomic analyses tried to define the gene signature of the metastatic disease but failed to find a consistent one except the gold standard genes of beta3 integrin, syndecan-4 and WNT5a. Studies on the gene signatures of chemoresistance and cytokine sensitivity of melanoma clearly defined apoptosis-resistance as one of the key elements of the above biological properties, but the data are controversial, mostly because of the use of inappropriate model systems and the lack of confirmation on clinical samples. Accordingly, application of genomic technologies must be more "translational" to provide breakthrough in melanoma diagnosis and therapy.
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PMID:Melanoma genomics reveals signatures of sensitivity to bio- and targeted therapies. 1743 76

We isolated a novel inhibitor of melanin biosynthesis from the flowers of Arnica montana L. (Compositae), and identified it as a traxastane-type triterpene (3beta,16beta-dihydroxy-21alpha-hydroperoxy-20(30)-taraxastene) [1] by means of 1D or 2D-NMR and liquid chromatography/high-resolution mass spectrometry (LC-HR-MS). Compound [1] at the concentration of 0.53 muM completely inhibited melanin accumulation in cultured B16 melanoma cells. It is one of the most potent among known plant inhibitors of melanin biosynthesis in cultured cells, being 50 times more potent than 4-methoxyphenol, which is used as an anti-pigmentation agent. Its mechanism of action is considered to involve inhibition of transcriptional factor MITF-M (melanocyte-type isoform of microphthalmia-associated transcription factor), which would lead to a decrease of tyrosinase and related genes. We confirmed that compound [1] decreased the protein levels of tyrosinase and its related proteins in B16 melanoma cells. Further study revealed that a similar hydroperoxy triterpene also suppressed the melanin pigment accumulation of B16 melanoma cells. These results indicate that the hydroperoxy group may play an important role in the suppression of the melanin accumulation by compound [1].
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PMID:A novel melanin inhibitor: hydroperoxy traxastane-type triterpene from flowers of Arnica montana. 1747 28

An increased level of melanin is characteristic of a large number of skin diseases, including acquired hyperpigmentation conditions such as melasma, post inflammatory melanoderma, and solar lentigo. Thus, there is an increasing need for the development of depigmenting agents. In order to evaluate the depigmenting capacity of diosgenin and elucidate its mechanism of action, several experiments were performed in B16 melanoma cells. Melanin content and Western blots for proteins that are involved in melanogenesis were assessed in this study. The melanin content was significantly inhibited by diosgenin. To clarify the mechanism of the depigmenting property of diosgenin, we examined the involvement of diosgenin in the phosphatidylinositol-3-kinase (PI3K) pathway. In this study, diosgenin inhibited the reduction of Akt and GSK 3beta phosphorylation induced by LY294,002, a PI3K inhibitor. In accordance with this result, production levels of MITF (microphthalmia-associated transcription factor) and tyrosinase were increased by diosgenin. These data suggest that diosgenin inhibits melanogenesis through the activation of the PI3K pathway. This suggestion was further confirmed by the fact that the increased production level of melanin by LY294,002 was reduced by diosgenin in B16 melanoma cells. Our study shows that diosgenin inhibits melanogenesis by activating the PI3K pathway, and also suggests that diosgenin may be an effective inhibitor of hyperpigmentation.
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PMID:Diosgenin inhibits melanogenesis through the activation of phosphatidylinositol-3-kinase pathway (PI3K) signaling. 1756 20

We report a case of a 27-year-old woman with a nonpigmented lesion on the right scalp. Histological examination showed a malignant nodular neoplasm with 2 distinct but intimately admixed components: a malignant melanoma with a spindle component and an unusual glandular component. Immunohistochemical studies demonstrated epithelial differentiation on the basis of cytokeratin (CAM5.2 and AE1/AE3) expression in the glandular component and melanocytic differentiation (HMB-45, PNL2, MITF, and S-100) of the spindle cell component. A single melanocytic marker (MITF) was expressed in both components, raising the possibility of dual differentiation in a single tumor, rather than the alternative considerations of a collision tumor or a reactive pseudoepitheliomatous hyperplasia with eccrine duct lumen formation within a melanoma. This unusual tumor with both melanocytic and epithelial components may represent a true melanocarcinoma, which becomes a plausible consideration, in view of melanoma plasticity and recent experimental evidence and speculation about the role of stem cells in melanoma.
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PMID:Unusual occurrence of a melanoma with intermixed epithelial component: a true melanocarcinoma?: case report and review of epithelial differentiation in melanoma by light microscopy and immunohistochemistry. 1766 76

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