Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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

Malignant melanoma is a notoriously aggressive disease that can affect relatively young individuals and whose incidence is rising at an alarming rate. Unlike many cancers, metastatic melanoma is poorly responsive to current therapies and mutations affecting p53, the retinoblastoma gene product or Ras which occur frequently in many other cancer types, appear to be rare or at least relatively late events in the progression of the disease. Recent advances in our understanding of the disease at the molecular level have indicated that in addition to the loss of cell cycle checkpoints which may be common to all cancers, malignant melanoma shares many characteristics in common with developmental precursors to melanocytes, the mature pigment producing cells of the skin and hair follicles which are responsible for skin and hair colour. This review therefore focuses on the signalling pathways that play a crucial role in the development of the melanocyte lineage which are subject to deregulation in malignant melanoma namely signalling by receptor tyrosine kinases, the Wnt signalling pathway, as well as loss of the p16INK4a cyclin-dependent kinase inhibitor. Intriguingly all three pathways impact on the expression or function of the microphthalmia-associated transcription factor which plays an essential role in melanocyte development.
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PMID:Melanocyte development and malignant melanoma. 1100 28

Melanocyte and retinal pigment epithelium (RPE) specifically express tyrosinase and other melanin-producing enzymes. Microphthalmia-associated transcription factor (Mitf), encoded at the mouse microphthalmia locus, regulates the development and survival of many cell types, including melanocyte and RPE. MITF, the human homolog of Mitf, consists of at least four isoforms with distinct amino-termini, referred to as A, MITF-C, MITF-H, and MITF-M. MITF-M is exclusively expressed in melanocytes and melanoma cells, and thus represents the melanocyte lineage-specific isoform. In contrast, other isoforms are expressed in many cell types so far examined. These isoforms appear to function as transcriptional activators of the melanogenesis genes, as assessed by transient transfection assays in cultured cells. Functional significance of Mitf-M in melanocyte differentiation was verified by the molecular lesion of black-eyed white Mitf(mi-bw) mice, which lack melanocytes but have normal RPE. The Mitf gene of this mutant has the insertion of an L1 retrotransposable element in the intron between exon 3 and exon 4, leading to complete repression of Mitf-M mRNA expression. Taken together, these results suggest that melanogenesis in melanocyte and RPE is regulated by separate Mitf/MITF isoforms. Recent findings on the multiplicity of MITF isoforms are summarized.
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PMID:Regulation of pigment cell-specific gene expression by MITF. 1104 65

Treatment of human melanoma cells with the differentiation-inducing agent hexamethylene bisacetamide (HMBA) results in reciprocal changes in expression of melanocyte-specific genes tyrosinase-related proteins-1 and -2 (TYRP1 and TYRP2). In this study, we investigated the effects of HMBA on cultured neonatal human cutaneous melanocytes. Flow cytometric analysis showed that HMBA inhibited 12-O-tetradecanoylphorbol-13-acetate (TPA)-dependent growth of melanocytes by reducing the population of cells entering the DNA synthesis phase of cell cycle. Melanocyte growth inhibition was accompanied by an increase in the number of cells exhibiting polydendritic morphology. This morphologic change was less pronounced when HMBA was added to melanocytes in the absence of TPA. Northern blot analyses of total cellular RNA showed that expression of microphthalmia-associated transcription factor (MITF), tyrosinase (TYR), TYRP1, Silver (SILV/Pmel17) gene was down-regulated by HMBA, while TYRP2 mRNA was up-regulated (> 10-fold). When the inducer was added to cells in the absence of TPA, there was > 50-fold increase in TYRP2 mRNA with a moderate increase in MITF, tyrosinase and SILV gene mRNAs and complete repression of TYRP1 gene. Studies using inhibitors for protein kinases involved in cell signaling pathways suggested that stress-activated kinase p38 and mitogen-activated protein kinase kinase MEK are involved in TPA-independent regulation of TYRP2 expression in melanocytes. These data show that treatment of proliferating melanocytes with the differentiation inducer HMBA results in a distinct change in morphology and up-regulation of TYRP2, while quiescent melanocytes respond by a dramatic increase in expression of TYRP2 without change in morphology. These results suggest an inverse relationship of TYRP2 gene regulatory mechanisms to melanocyte growth regulatory pathways.
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PMID:Regulation of tyrosinase-related protein-2 (TYRP2) in human melanocytes: relationship to growth and morphology. 1131 Jul 93

The diagnosis of malignant melanoma is sometimes challenging. Immunohistochemistry for specific markers of melanocytic differentiation such as HMB-45 and Melan-A can be very valuable in proving melanocytic differentiation in poorly differentiated or spindled forms of melanoma. Microphthalmia-associated transcription factor (MiTF) is the most recently described and the only nuclear melanocytic marker. This article reviews the biology of MiTF and those published studies that have addressed its diagnostic sensitivity and specificity. MiTF may be very valuable for the diagnosis of melanoma, including desmoplastic variants; melanocytic soft tissue tumors, such as clear cell sarcoma; and the unusual group of tumors that show combined melanocytic and myoid differentiation, the perivascular epithelioid cell family of tumors (PEComas).
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PMID:Diagnostic utility of microphthalmia transcription factor in malignant melanoma and other tumors. 1155 35

The microphthalmia-associated transcription factor (Mitf) is essential for melanocytic lineage development and for expression of melanogenic enzymes, such as tyrosinase. Interleukin-6 receptor/interleukin-6 chimera (IL6RIL6) induces in B16/F10.9 melanoma cells a loss of melanogenesis preceded by a sharp decrease in Mitf mRNA and gene promoter activity. In the Mitf promoter, the main cis-acting element mediating the IL6RIL6 effect is shown to be the binding site of Pax3, a paired homeodomain factor regulating among other things the development of melanocytes. Pax3 protein and mRNA levels decline steadily after IL6RIL6 treatment, and overexpression of an ectopic Pax3 cDNA suppresses the Mitf promoter inhibition. Loss of the synergism between Pax3 and Sox10, a high mobility group domain costimulatory factor, seems to be critical in the rapid decrease in Mitf gene expression. The Pax3 down-regulation in IL6RIL6-induced F10.9 cell is linked to growth arrest and transdifferentiation to a glial cell phenotype. IL6RIL6 stimulates the interleukin-6 family cytokine receptor gp130, leading to the rapid phosphorylation of Stat3 on tyrosine 705. This phosphorylation is required for Pax3 down-regulation and Mitf promoter silencing since these are inhibited in F10.9 cells overexpressing the Stat3 DN-mutant Y705F.
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PMID:Pax3 down-regulation and shut-off of melanogenesis in melanoma B16/F10.9 by interleukin-6 receptor signaling. 1183 May 92

Waardenburg syndrome (WS) is characterized by deafness and hypopigmentation because of the lack of melanocytes in the inner ear and skin. WS type 2 is associated with mutations in the gene encoding microphthalmia-associated transcription factor (MITF) that is required for melanocyte differentiation. MITF consists of multiple isoforms with different N-termini, one of which is exclusively expressed in melanocytes, named MITF-M. Its N-terminus is encoded by exon 1M that is under the regulation of the melanocyte-specific (M) promoter. Here we identify a distal regulatory region of 298 bp, located 14.5 kb upstream from exon 1M, which enhances the M promoter activity in cultured melanoma cells. This enhancer activity depends on the proximal M promoter region (-120 to -46). The MITF-M distal enhancer (MDE), thus identified, contains the binding sites for SOX10, a transcription factor responsible for another type of WS, known as Waardenburg-Hirschsprung syndrome. Characterization of MDE has suggested SOX10 as one of factors that are involved in the function of MDE. A putative MDE counterpart is located 12 kb upstream from mouse exon 1M and its role is discussed in relevance to the pathogenesis of red-eyed white Mitf mi-rw mice that exhibit small red eyes and white coat. Moreover, by in situ hybridization analysis, we suggest that Sox10 and Mitf-M (mRNA) are expressed in melanoblasts migrating toward the otic vesicle (prospective inner ear) of mouse embryos but are separately expressed in different cell types of the newborn cochlea. Thus, SOX10 regulates transcription from the M promoter in a developmental stage-specific manner.
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PMID:Identification of a distal enhancer for the melanocyte-specific promoter of the MITF gene. 1202 84

The transcription factor Microphthalmia-associated transcription factor (MITF) is a lineage-determination factor, which modulates melanocyte differentiation and pigmentation. MITF was recently shown to reside downstream of the canonical Wnt pathway during melanocyte differentiation from pluripotent neural crest cells in zebrafish as well as in mammalian melanocyte lineage cells. Although expression of many melanocytic/pigmentation markers is lost in human melanoma, MITF expression remains intact, even in unpigmented tumors, suggesting a role for MITF beyond its role in differentiation. A significant fraction of primary human melanomas exhibit deregulation (via aberrant nuclear accumulation) of beta-catenin, leading us to examine its role in melanoma growth and survival. Here, we show that beta-catenin is a potent mediator of growth for melanoma cells in a manner dependent on its downstream target MITF. Moreover, suppression of melanoma clonogenic growth by disruption of beta-catenin-T-cell transcription factor/LEF is rescued by constitutive MITF. This rescue occurs largely through a prosurvival mechanism. Thus, beta-catenin regulation of MITF expression represents a tissue-restricted pathway that significantly influences the growth and survival behavior of this notoriously treatment-resistant neoplasm.
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PMID:Beta-catenin-induced melanoma growth requires the downstream target Microphthalmia-associated transcription factor. 1223 25

Fishes possess more genes encoding receptor tyrosine kinases from the epidermal growth factor receptor (EGFR) family than other organisms. Three of the four genes present in higher vertebrates have been duplicated early during the evolution of the ray-finned fish lineage possibly as a consequence of an event of whole genome duplication. In the fish Xiphophorus, a much more recent local event of gene duplication of the egfr co-orthologue egfr-b generated a eighth gene, the Xmrk oncogene. This duplicate acquired within a short time a constitutive activity and a pigment cell-specific overexpression responsible for the induction of melanoma in certain interspecific hybrids. Despite its frequent loss during evolution of the genus Xiphophorus, the maintenance of Xmrk in numerous species and its evolution under purifying selection suggest a so far unknown function under certain natural conditions. One of the known functions of Xmrk in tumor cells is the suppression of differentiation of melanocytes induced by the microphthalmia-associated transcription factor MITF. While only one gene with alternative 5' exons and promoters is present in higher vertebrates, two mitf genes were identified in fish. Subfunctionalization of mitf paralogues by differential degeneration of alternative exons and regulatory sequences led particularly to the formation of a mitf gene specifically expressed in the melanocyte lineage. These observations validate fish as an outstanding model to study the mechanisms and biological consequences of gene and genome duplication but underline the complexity of the fish model and the caution necessary in transferring knowledge from fish to higher vertebrates and vice versa.
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PMID:Evolution of signal transduction by gene and genome duplication in fish. 1283 93

Microphthalmia-associated transcription factor (MITF) plays a pivotal role in melanocyte survival and differentiation. Nevertheless, until now it has not been possible to show that MITF regulates the expression of the endogenous tyrosinase or Tyrp1. Further, a direct involvement of MITF in the regulation of melanin synthesis, a key parameter of melanocyte differentiation, remains to be demonstrated. In the present report, using recombinant adenovirus encoding the wild-type or a dominant negative form of MITF, as well as stable cell lines expressing tetracycline inducible wild-type MITF, we reassessed the role of MITF in melanocyte differentiation and in the regulation of melanin synthesis. Immunofluorescence studies, as well as Western blot analyses, show that infection of B16 mouse melanoma cells or human melanocytes with adenovirus encoding wild-type MITF does not increase the expression of the endogenous melanogenic enzymes. However, infection with the MITF dominant negative mutant inhibits the expression of endogenous tyrosinase and Tyrp1 proteins and blocks cAMP-induced melanin synthesis. Thus, MITF is required but does not seem to be sufficient to induce the expression of melanogenic enzymes and we show for the first time a direct involvement of MITF in the regulation of melanin pigment synthesis. As a whole, our data point to the existence of still unknown regulatory mechanisms that co-operate or synergize with MITF to control melanogenic gene expression and melanin synthesis. The identification of such mechanisms will greatly improve our understanding of the melanocyte differentiation processes.
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PMID:Microphthalmia-associated transcription factor (MITF) is required but is not sufficient to induce the expression of melanogenic genes. 1285 21

alpha-Melanocyte-stimulating hormone (MSH) utilizes cAMP to trigger pigmentation of melanocytes via activation of melanocyte-restricted microphthalmia-associated transcription factor (M-MITF) expression. M-MITF is a melanocyte-restricted helix-loop-helix transcription factor capable of transactivating promoters for multiple genes whose products modulate pigmentation. Although M-MITF promoter activation by MSH is known to occur through a conserved cAMP-response element (CRE), it remains unclear how this CRE exhibits such exquisitely tissue-restricted responsiveness. Here we show that cAMP-mediated CRE-binding protein activation of the M-MITF promoter requires a second DNA element located approximately 100 bp upstream, a site that is bound and activated by SOX10. Mutations in the SOX10 transcription factor, like MITF, results in a disorder known as Waardenburg Syndrome. The cAMP response of the M-MITF promoter was analyzed in melanoma and neuroblastoma cells (which are neural crest-derived but lack both M-MITF and SOX10 expression). M-MITF promoter responsiveness to cAMP was found to depend upon SOX10, and reciprocally, SOX10 transactivation was dependent upon the CRE. Ectopic SOX10 expression, in cooperation with cAMP signaling, activated the M-MITF promoter function and the expression of measurable endogenous M-MITF transcripts in neuroblastoma cells. SOX10dom, a mutant allele, failed to cooperate with cAMP in neuroblastoma cells and attenuated the cAMP responsiveness of the M-MITF promoter in melanoma cells. These observations demonstrate a means whereby the ubiquitous cAMP signaling machinery is harnessed to produce a highly tissue-restricted transcriptional response by cooperating with architectural factors, in this case SOX10.
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PMID:A tissue-restricted cAMP transcriptional response: SOX10 modulates alpha-melanocyte-stimulating hormone-triggered expression of microphthalmia-associated transcription factor in melanocytes. 1294 98


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