Epigenetic regulation of p14ARF and p16INK4A expression in cutaneous and uveal melanoma.

Inactivation of p14ARF and p16INK4A by epigenetic changes in cutaneous and uveal melanoma has been here investigated. Compared with melanocytes, p14ARF mRNA reduction and p16INK4A inactivation were frequently noticed. No association between p14ARF promoter methylation and mRNA levels was found, whereas aberrant p16INK4A methylation was associated with gene silencing (p<0.001). Comparative analysis within melanomas of different Breslow's thicknesses showed that drastic reductions in p14ARF and p16INK4A expression appeared at the level of thin/intermediate and intermediate/thick transitions. The effects of 5-aza-2'-deoxycytidine (5-aza-dC) and suberanilohydroxamic acid (SAHA) on in vivo binding of DNA methyltransferases (DNMTs) and acetyl histone H3/H4 to p14ARF and p16INK4A promoters were tested together with the impact of ectopic expression of p14ARF and p16INK4A on cell proliferation, migration, and invasion. SAHA treatment induced H3 and H4 hyperacetylation at the p14ARF promoter followed by increased p14ARF expression, whereas exposure to 5-aza-dC decreased the recruitment of DNMT1 and DNMT3b at the p16INK4A promoter and reactivated p16INK4A. Studies on promoter-associated di-methyl histone H3 (Lys4) levels ruled out an involvement of this epigenetic trait on p14ARF and p16INK4A expression. The enforced expression of p14ARF or p16INK4A and, even more so, their co-expression, significantly reduced cell proliferation, migration and invasion. Our data pinpoint: i) a frequent impairment of p14ARF and p16INK4A gene expression by epigenetic modifications in melanoma; ii) histone hypoacetylation as the dominant mechanism of p14ARF silencing; and iii) 5' CpG promoter methylation as the major mechanism of p16INK4A gene inactivation. Collectively, our data suggest that selected epi-drugs may be useful in melanoma treatment.

Heavy metals and epigenetic alterations in brain tumors.

Heavy metals and their derivatives can cause various diseases. Numerous studies have evaluated the possible link between exposure to heavy metals and various cancers. Recent data show a correlation between heavy metals and aberration of genetic and epigenetic patterns. From a literature search we noticed few experimental and epidemiological studies that evaluate a possible correlation between heavy metals and brain tumors. Gliomas arise due to genetic and epigenetic alterations of glial cells. Changes in gene expression result in the alteration of the cellular division process. Epigenetic alterations in brain tumors include the hypermethylation of CpG group, hypomethylation of specific genes, aberrant activation of genes, and changes in the position of various histones. Heavy metals are capable of generating reactive oxygen assumes that key functions in various pathological mechanisms. Alteration of homeostasis of metals could cause the overproduction of reactive oxygen species and induce DNA damage, lipid peroxidation, and alteration of proteins. In this study we summarize the possible correlation between heavy metals, epigenetic alterations and brain tumors. We report, moreover, the review of relevant literature.

Epigenetic effects of cadmium in cancer: focus on melanoma.

Cadmium is a highly toxic heavy metal, which has a destroying impact on organs. Exposure to cadmium causes severe health problems to human beings due to its ubiquitous environmental presence and features of the pathologies associated with pro-longed exposure. Cadmium is a well-established carcinogen, although the underlying mechanisms have not been fully under-stood yet. Recently, there has been considerable interest in the impact of this environmental pollutant on the epigenome. Be-cause of the role of epigenetic alterations in regulating gene expression, there is a potential for the integration of cadmium-induced epigenetic alterations as critical elements in the cancer risk assessment process. Here, after a brief review of the ma-jor diseases related to cadmium exposure, we focus our interest on the carcinogenic potential of this heavy metal. Among the several proposed pathogenetic mechanisms, particular attention is given to epigenetic alterations, including changes in DNA methylation, histone modifications and non-coding RNA expression. We review evidence for a link between cadmium-induced epigenetic changes and cell transformation, with special emphasis on melanoma. DNA methylation, with reduced expression of key genes that regulate cell proliferation and apoptosis, has emerged as a possible cadmium-induced epigenetic mechanism in melanoma. A wider comprehension of mechanisms related to this common environmental contaminant would allow a better cancer risk evaluation.

MSX1 and TGF-beta3 are novel target genes functionally regulated by FOXE1.

FOXE1 mutations cause the Bamforth-Lazarus syndrome characterized by thyroid and craniofacial defects. Although a pioneer activity of FOXE1 in thyroid development has been reported, FOXE1 regulation in other contexts remains unexplored. We pointed to: (i) a role of FOXE1 in controlling the expression of MSX1 and TGF-ß3 relevant in craniofacial development and (ii) a causative part of FOXE1 mutations or mice Foxe1(-/-) genotype in the pathogenesis of cleft palate in the Bamforth-Lazarus syndrome. The MSX1 and TGF-ß3 up-regulation in response to FOXE1 at both transcriptional and translational levels and the recruitment of FOXE1 to specific binding motifs, together with the transactivation of the promoters of these genes, indicate that MSX1 and TGF-ß3 are direct FOXE1 targets. Moreover, we showed that all the known forkhead-domain mutations, but not the polyalanine-stretch polymorphisms, affect the FOXE1 ability to bind to and transactivate MSX1 and TGF-ß3 promoters. In 14-day Foxe1(-/-) mice embryos, Tgf-ß3 and Msx1 mRNAs were almost absent in palatal shelves compared with Foxe1(+/-) embryos. Our findings give new insights into the genetic mechanisms underlying the Bamforth-Lazarus syndrome-associated facial defects.

NOD2 triggers PGE2 synthesis leading to IL-8 activation in Staphylococcus aureus-infected human conjunctival epithelial cells.

We previously showed that Staphylococcus aureus and Pseudomonas aeruginosa stimulate IL-8 expression in human conjunctival epithelial cells through different signal transduction pathways. As in some cell types both the bacteria may induce the release of prostaglandin E2 (PGE2) and PGE2 may affect the expression of IL-8, we aimed at investigating whether in human conjunctival cells infected with S. aureus or P. aeruginosa the activation of IL-8 transcription was mediated by PGE2 and which were the underlying molecular mechanisms. We found that S. aureus, but not P. aeruginosa, triggered IL-8 activation by increasing COX-2 expression and PGE2 levels in a time-dependent manner. Overexpression of nucleotide-binding oligomerization domain-2 (NOD2) resulted to be essential in the enhancement of IL-8 induced by S. aureus. It dramatically activated c-jun NH2-terminal kinase (JNK) pathway which in turn led to COX2 upregulation and ultimately to IL-8 transcription. The full understanding of the S. aureus-induced biochemical processes in human conjunctival epithelium will bring new insight to the knowledge of the molecular mechanisms involved in conjunctiva bacterial infections and develop novel treatment aiming at phlogosis modulation.

Impact of DNA methyltransferases on the epigenetic regulation of tumor necrosis factor-related apoptosis-inducing ligand (TRAIL) receptor expression in malignant melanoma.

Aberrant promoter methylation and resultant silencing of TRAIL decoy receptors were reported in a variety of cancers, but to date little is known about the relevance of this epigenetic modification in melanoma. In this study, we examined the methylation and the expression status of TRAIL receptor genes in cutaneous and uveal melanoma cell lines and specimens and their interaction with DNA methyltransferases (DNMTs) DNMT1, DNMT3a, and DNMT3b. DR4 and DR5 methylation was not frequent in cutaneous melanoma but on the contrary it was very frequent in uveal melanoma. No correlation between methylation status of DR4 and DR5 and gene expression was found. DcR1 and DcR2 were hypermethylated with very high frequency in both cutaneous and uveal melanoma. The concordance between methylation and loss of gene expression ranged from 91% to 97%. Here we showed that DNMT1 was crucial for DcR2 hypermethylation and that DNMT1 and DNMT3a coregulate the methylation status of DcR1. Our work also revealed the critical relevance of DcR1 and DcR2 expression in cell growth and apoptosis either in cutaneous or uveal melanoma. In conclusion, the results presented here claim for a relevant impact of aberrant methylation of decoy receptors in melanoma and allow to understand how the silencing of DcR1 and DcR2 is related to melanomagenesis.

Combined effects of cigarette smoking and alcohol consumption on antioxidant/oxidant balance in age-related macular degeneration.

BACKGROUND AND AIMS: To investigate the single and joint effects of chronic cigarette smoking and alcohol consumption on oxidative stress in age-related macular degeneration (ARMD). METHODS: Superoxide dismutase (SOD), glutathione peroxidase (GSHPx), and catalase (CAT) activities; malondialdehyde (MDA) levels; and DNA damage were measured in patients with early ARMD (n=211) and late ARMD (n=205), and control persons (n=262). RESULTS: When compared with healthy controls, early- and late-ARMD patients showed significant decreases in the activities of SOD and GSHPx, but not CAT, along with marked enhancements of MDA levels and tail parameters (p<0.01). No notable differences were observed in the early- vs the late-ARMD group for each of the above mentioned dependent variables. Multiple regression analysis revealed that in healthy subjects chronic smoking had the strongest impact on SOD and GSHPx activities, MDA levels, and amount of DNA damage, whereas in ARMD patients, the combination of smoking and drinking habits was the greatest predictor of oxidative stress. CONCLUSIONS: The combination of chronic cigarette smoking and alcohol consumption appears to be an aggravating factor that contribute to serious oxidative imbalance and DNA damage in ARMD. Thus, combined smoking/drinking by persons with this pathological condition should be considered harmful. Identification of factors exacerbating ARMD-associated oxidative stress can facilitate development and adoption of effective preventative measures for this disease.

ROS as Regulators of Cellular Processes in Melanoma.

In this review, we examine the multiple roles of ROS in the pathogenesis of melanoma, focusing on signal transduction and regulation of gene expression. In recent years, different studies have analyzed the dual role of ROS in regulating the redox system, with both negative and positive consequences on human health, depending on cell concentration of these agents. High ROS levels can result from an altered balance between oxidant generation and intracellular antioxidant activity and can produce harmful effects. In contrast, low amounts of ROS are considered beneficial, since they trigger signaling pathways involved in physiological activities and programmed cell death, with protective effects against melanoma. Here, we examine these beneficial roles, which could have interesting implications in melanoma treatment.

microRNA-10 and -221 modulate differential expression of Hippo signaling pathway in human astroglial tumors.

Gliomas represent over 70% of all brain tumors, they are highly invasive and structurally vascular neoplasms. Despite the latest technological advance in neuro-surgery the survival of patients with high-grade glioma remains poor. The lack of robust treatment options has propelled the search for new markers that may able allow the identification of patients who can benefit from molecularly targeted therapies. The Hippo signaling pathway is considered as a key regulator of tissue homeostasis, cell proliferation and apoptosis, and alterations of this pathway seem to contribute to tumorigenesis. Yes-associated protein (YAP1) is a downstream target of the Hippo pathway which acts as a transcription co-activator. In cancer, YAP1 has been reported to function either as an oncogene or tumor suppressor, depending on the cell context. The aim of this study was to examine the expression of YAP1, Survivin and LATS1 kinase activity in human astroglial tumors with different grades of malignancy. Moreover, we also investigated the expression of miR-221 and miR-10b and their relationship with core molecules of the Hippo pathway. Our results showed the overexpression of YAP1 and Survivin as well as a decreased activity of large tumor suppressor 1 (LATS1) in high-grade glioblastoma versus anaplastic astrocytoma and low-grade glioma. Furthermore, we also demonstrated that miR-221 and miR-10b are specifically involved in Hippo signaling via LATS1 regulation and that their knockdown significantly decreased glioma cell proliferation. This preliminary data confirmed the crucial role of the Hippo pathway in cancer and suggested that miR-221 and miR-10b could be potential therapeutic targets for glioma treatment.

Altered binding of MYF-5 to FOXE1 promoter in non-syndromic and CHARGE-associated cleft palate.

BACKGROUND: Three different homozygous loss-of-function mutations of the Forkhead box E1 (FOXE1) gene have been associated with syndromic cleft palate. Here, we screened the entire promoter region to identify the variations in significant consensus motifs affecting FOXE1 transcription. METHOD: Genomic DNAs of 35 cleft palate patients, 10 of whom with CHARGE association, 80 unrelated healthy people and 80 unaffected first-degree relatives were analysed by automatic sequencing. The Transcription Element Search System program was employed to identify transcription factor binding sites. The protein-DNA complexes were observed using DNA band-shift assays and oligonucleotide competition analyses. Real-time PCR was used to estimate FOXE1 expression at mRNA level. RESULTS: In 11 non-syndromic cleft palate patients, a novel non-coding polymorphism (C-->G) in the 5'-untranslated region of FOXE1 was found. The variation fell into a putative consensus sequence for the transcription factor MYF-5 and completely impaired the ability of MYF-5 to bind to its motif, as shown by EMSA experiments. As a consequence, a significantly reduced FOXE1 mRNA expression was observed. CONCLUSIONS: In 45% of non-syndromic cleft palate patients, a novel homozygous polymorphism that prevented the binding of MYF-5 to FOXE1 promoter and affected the FOXE1 expression was found. As recent data show the role of MYF-5 in the muscle-dependent craniofacial skeletal development and in the fusion of primary palate and secondary palate, the results reported here strongly suggest a more significant involvement of this factor in the cleft palate onset.

Changes in inflammatory mediators in peri-implant fluid after implant insertion.

BACKGROUND: Endosseous dental titanium implants have revolutionized restorative dentistry and have made a significant impact on improved patient care. The aim of this study was to compare and evaluate the influence of the placement technique on periodontal health. METHODS: A baseline examination was performed in patients with submerged and non-submerged titanium implants, including an evaluation of plaque index (PI), gingival index (GI), periodontal probing depth (PD), clinical attachment level (CAL), and bone level, as well as histamine and arachidonic acid metabolite concentrations, in the peri-implant crevicular fluid. Examinations were repeated after 12, 24, and 36 months. RESULTS: Bone loss was significantly higher in the submerged group relative to the non-submerged group at 3 years (P <0.01), with a slight increase at 24 months. All clinical parameters were significantly higher in the submerged group relative to the non-submerged group at 24 and 36 months (P <0.05 for PI; P <0.01 for GI, PD, and CAL). The mean levels of histamine and other inflammatory mediators were significantly higher, whereas 15(S)-hydroxy-5,8,11,13-eicosatetraenoic acid concentrations were significantly reduced in the submerged group, with a high correlation with periodontal indices at 24 and 36 months (P <0.001). CONCLUSION: This longitudinal study suggested that submerged implants present a number of risks for periodontal complications compared to non-submerged implants, which can be evidenced by inflammatory mediator variations in the peri-implant crevicular fluid.

Genistein reduces proliferation of EP3-expressing melanoma cells through inhibition of PGE2-induced IL-8 expression.

Genistein, a natural isoflavone found in soybean products, is considered as a powerful anti-cancer agent, although the involved mechanisms are not fully understood. There is a growing body of evidence that, among the genes inhibited by genistein and responsible for cell cycle progression, invasion, metastasis, and angiogenesis, IL-8 occupies a relevant place. On the other hand, it is equally well documented that IL-8 is upregulated by prostaglandin E2 (PGE2) in different pathological conditions, particularly in neoplastic disease. Here we investigated whether genistein could affect cell growth in a panel of oral, uveal and cutaneous melanoma cell lines by interfering with basal or PGE2-induced IL-8 production. To this end, experiments were performed to evaluate the effect of PGE2 treatment on IL-8 levels, the expression and the role of PGE2 receptors and whether genistein could be able to interfere with these events. Finally, it was evaluated whether the inhibition of oral, uveal and cutaneous melanoma cell proliferation in the presence of genistein could be related to a reduction of IL-8 levels. We show that PGE2 enhances IL-8 synthesis via the EP3 receptor and that genistein is able to down-regulate the latter, as well as to decrease IL-8 mRNA and protein expression, thereby inhibiting oral, uveal and cutaneous melanoma cell proliferation. Taken together, our data provide new insights into the anti-cancer properties of genistein by showing that this flavonoid may affect the development and growth of melanoma at oral, uveal and cutaneous sites. Moreover, these results provide evidence that genistein may exert its therapeutic activity through its ability to prevent PGE2-mediated IL-8 induction.

miRNA expression profiling regulates necroptotic cell death in hepatocellular carcinoma.

Hepatocellular carcinoma (HCC) is one of the most aggressive types of cancer and is among the leading causes of cancer-related mortality worldwide. Although the dysregulation of microRNAs (miRNAs or miRs) has often been reported in HCC, the precise molecular mechanisms by which miRNAs modulate the process of tumorigenesis and the behavior of cancer cells are not yet clearly understood. In this study, we identified a novel three­miRNA signature, including miR­371-5p, miR­373 and miR­543, that appears to orchestrate programmed cell necrosis in HCC by directly targeting the caspase­8 gene (Casp­8). Our results demonstrated that miR­371-5p, miR­373 and miR­543 were overexpressed in HCC tissues compared with paired adjacent normal tissues. The upregulation of these miRNAs specifically and markedly downregulated the expression of Casp­8, as well as significantly enhanced the Z-VAD/TNF­α-induced necroptosis of HCC cells. By contrast, the selective knockdown of miRNA expression led to a significant increase in Casp­8 levels and a marked reduction in programmed cell necrosis. Intriguingly, the sustained overexpression of Casp­8 reversed the pro­necroptotic effects exerted by miRNA mimics. Finally, a strong inverse association between the level of miR­223 and the expression levels of nucleotide-binding oligomerization domain-like receptor family, pyrin domain-containing-3 inflammasome was observed in our HCC specimens. On the whole, the present study revealed a molecular link between the three­miRNA signature, comprising miR­371-5p, miR­373 and miR­543, and the negative necroptotic regulator Casp­8, and presents evidence for its employment as a novel potential diagnostic, prognostic and therapeutic target in HCC.

Epidrugs in the Immunotherapy of Cutaneous and Uveal Melanoma.

Epigenetic modifications can affect numerous mechanisms used by neoplastic cells to evade immune control. In melanoma epigenetic defects, caused by dysregulations in the expression of genome writers, erasers, or readers, play a significant role in the reduced expression of molecules required for efficient immune recognition as well as antigen presentation and processing. Alterations in gene expression were identified in tumor-associated antigens (TAAs), human leukocyte antigen (HLA) complex, co-stimulatory/accessory molecules, antigen processing machinery (APM), and NKG2D ligands that have shown to be silenced or down-regulated in melanoma. In agreement with the inherent reversibility of epigenetic silencing, epigenetic drugs such as inhibitors of DNA methyltransferases (DNMTs), histone deacetylases (HDACs), histone methyltransferase enhancer of Zeste homolog 2 (EZH2), and modifiers of microRNA (miRNA) dysregulation or antagomirs can restore the expression of these molecules, favouring the recognition of cancer cells by immune responses, reducing the resistance to Natural Killer (NK) and cytotoxic T cells (CTL), and enhancing the functions of antigen presenting cells. Moreover, inhibitors of reader proteins seem to preferentially affect the NF-kB-induced activation of pro-inflammatory cytokine genes. At present an increasing interest is shown toward new combined therapeutic approaches employing epidrugs or new molecular inhibitors and in vivo immunotherapies, such as vaccines and adoptive T-cell transfer (ACT). This review summarizes the current understanding of the role of epidrugs in the modulation of molecules involved in the melanoma immune response and focuses on their future clinical use in new therapeutic combinations for melanoma treatment.

DSS1 promoter hypomethylation and overexpression predict poor prognosis in melanoma and squamous cell carcinoma patients.

Previous studies have found a link between high expression levels of the Deleted in Split hand/Split foot 1 (DSS1) gene and cancer progression. The aim of this study was to examine whether overexpression of DSS1 is a feature of melanoma and squamous cell carcinoma (SCC) and if any epigenetic modifications are involved. Evaluation of DSS1 expression profile indicated that the gene is overexpressed in 112 of 130 cutaneous melanomas (86.1%), 41 of 64 uveal melanomas (64.1%), 67 of 82 mucosal melanomas (81.7%), and 61 of 75 SCC samples (81.3%), relative to normal skin. An inverse correlation between DSS1 expression and methylation status of the promoter was found. In vitro studies showed that treatment of DSS1-methylated melanoma and SCC cells with the DNA methyltransferase inhibitor 5-aza-2'-deoxycytidine significantly increased DSS1 expression at mRNA and protein levels. Interestingly, a significant association between high DSS1 expression levels and some clinicopathological variables, such as metastasis, ulceration, and reduced overall/disease-free survival was observed. In summary, these data suggest that the extent of promoter methylation plays a role in modulating DSS1 gene expression and highlight that promoter hypomethylation is a frequent event in melanoma and SCC closely linked to poor prognosis.

FOXE1 gene mutation screening by multiplex PCR/DHPLC in CHARGE syndrome and syndromic and non-syndromic cleft palate.

Denaturing high-performance liquid chromatography (DHPLC) has established itself as one of the most powerful tools for DNA variation screening. FOXE1, a highly GC-rich gene involved in syndromic cleft palate, is under investigation in thyroid dysgenesis, nonsyndromic cleft palate and squamous cell carcinoma. A technique for fast and simultaneous detection of sequence variants in the entire coding region of the FOXEl gene based on multiplex PCR/DHPLC is presented here. Given its characteristics of high sensitivity and rapidity, the testing strategy developed by us appears to be a reliable approach for FOXE1 analysis in the screening of a large population at risk.

Salivary histamine level as a predictor of periodontal disease in type 2 diabetic and non-diabetic subjects.

BACKGROUND: Some previous investigations underscored the role of histamine in periodontal disease, especially in diabetic patients, but the behavior of this inflammatory mediator in the early phases of periodontal involvement remains unclear. The aim of the present study was to correlate the presence of histamine in saliva with clinical parameters in healthy, periodontitis-affected, and diabetic subjects to ascertain whether this amine may serve as a predictive index of periodontal risk. METHODS: For this purpose, subjects were selected as follows: 1) with newly diagnosed type 2 diabetes mellitus; 2) with neither diabetes nor periodontitis; 3) with no diabetes but with chronic, untreated periodontal disease. Histamine salivary levels were measured at the initial time (T0) and after 6, 12, and 24 months using high-performance liquid chromatography. The main periodontal indexes were recorded at the same time intervals. RESULTS: At T0, a very typical shape of the histamine chromatogram was found for all patients of the three groups; at this time, the salivary histamine levels of diabetic patients were increased and comparable to those of healthy patients with periodontal disease, whereas healthy subjects with no periodontitis showed reduced histamine levels. Further controls at 6, 12, and 24 months showed a statistically significant correlation between the increase of salivary histamine and the worsening of the periodontal indexes in diabetic and non-diabetic subjects. CONCLUSION: These results suggest that salivary histamine may serve as a predictive index in the prevention of periodontal disease.

Role of Genetics and Epigenetics in Mucosal, Uveal, and Cutaneous Melanomagenesis.

Melanoma prevalently occurs on parts of the body that have been overexposed to the sun. However, it can also originate in the nervous system, eye and mucous membranes. Melanoma has been thought for a long time to arise through a series of genetic mechanisms involving numerous irreversible changes within the human genome. However, recently, "epimutations" have attracted considerable attention owing to their high prevalence rate and reversible nature. These observations opened up new perspectives in the use of epidrugs with the potential for restoring the "correct" control of neoplastic genomes. Here, we focused on the common consensus on genetics and epigenetics in melanoma. We also discussed the clinical applications of regulators of epigenetic enzymes able to revert the epigenetic and metabolic hallmarks of melanoma cells. Such anti-neoplastic agents affect the expression profile of antioncogenes, proto-oncogenes, and microRNAs resulting in enhanced differentiation, apoptosis, and growth inhibition.

miR-92a-3p and MYCBP2 are involved in MS-275-induced and c-myc-mediated TRAIL-sensitivity in melanoma cells.

Increasing evidence has demonstrated that in several tumors c-myc acts either as an oncogène or as a proapoptotic agent, depending on binding partner interactions. Recently, we showed that up-regulation of this gene by the histone deacetylase inhibitor MS-275 was responsible for sensitization to TRAIL-induced apoptosis through c-FLIP repression in melanoma. The present study aimed at investigating whether, in addition to inducing H3 hyperacetylation at the c-myc promoter, MS-275 could enhance cell death through the regulation of miRNAs involved in apoptosis, such as the miR-17-92 cluster. Following MS-275 treatment, a decrease in miR-92a-3p was observed either in TRAIL-resistant or TRAIL-sensitive cutaneous and uveal melanoma cells. Prediction tools revealed that miR-92a-3p targeted MYCBP2. Gain- and loss-of-function experiments showed that the 3'-UTR of MYCBP2 mRNA was the target of miR-92a-3p, as ectopic expression of miR-92a-3p resulted in MYCBP2 downregulation whereas miR-92a-3p knockdown markedly increased the expression of MYCBP2. Silencing of MYCBP2 counteracted the pro-apoptotic effects exerted by the down-regulation of miR-92a-3p and prevented c-myc-induced repression of c-FLIP, indicating a pivotal role of MYCBP2 as a mediator of miR-92a-3p and c-myc function. Together, our findings indicate that the MS-275-triggered downregulation of the oncogenic miR-92a-3p- which leads to the overexpression of its target gene MYCBP2 - is an event required for the enhanced susceptibility of melanoma cells to TRAIL-mediated apoptosis. Our data illustrate another epigenetic mechanism activated by MS-275 at the post-transcriptional level in melanoma, in addition to its best-known effects at the transcriptional level.

DNA methylation-induced E-cadherin silencing is correlated with the clinicopathological features of melanoma.

E-cadherin, a calcium-dependent cell-cell adhesion molecule, has an important role in epithelial cell function, maintenance of tissue architecture and cancer suppression. Loss of E-cadherin promotes tumor metastatic dissemination and predicts poor prognosis. The present study investigated the clinicopathological significance of E-cadherin expression in cutaneous, mucosal and uveal melanoma related to epigenetic mechanisms that may contribute to E-cadherin silencing. E-cadherin expression was reduced in 55/130 cutaneous (42.3%), 49/82 mucosal (59.7%) and 36/64 uveal (56.2%) melanoma samples as compared to normal skin controls and was inversely associated with promoter methylation. Of the 10 different CpG sites studied (nt 863, 865, 873, 879, 887, 892, 901, 918, 920 and 940), two sites (nt 892 and 940) were 90-100% methylated in all the melanoma specimens examined and the other ones were partially methylated (range, 53-86%). In contrast, the methylation rate of the E-cadherin gene was low in normal tissues (range, 5-24%). In all the three types of melanoma studied, a significant correlation was found between reduced levels of E-cadherin and reduced survival, high mitotic index and metastasis, accounting for the predilection of lymph nodal localization. In cutaneous and mucosal melanoma, low E-cadherin expression was positively correlated also with head/neck localization and ulceration. A high frequency of reduced E-cadherin levels occurred in choroid melanomas. In vitro experiments showed that E-cadherin transcription was restored following 5-aza-2'-deoxycytidine (5-aza-dC) treatment or DNMT1 silencing and was negatively correlated with the invasive potential of melanoma cells. The significant relationship between E-cadherin silencing and several poor prognostic factors indicates that this adhesion molecule may play an important role in melanomagenesis. Therefore, the inverse association of E-cadherin expression with promoter methylation raises the intriguing possibility that reactivation of E-cadherin expression through promoter demethylation may represent a potential therapeutic strategy for the treatment of melanoma.