Constitutional epimutations of tumor suppressor genes manifest as promoter methylation and transcriptional silencing of a single allele in normal somatic tissues, thereby predisposing to cancer. Constitutional MLH1 epimutations occur in individuals with young-onset cancer and demonstrate non-Mendelian inheritance through their reversal in the germline. We report a cancer-affected family showing dominant transmission of soma-wide highly mosaic MLH1 methylation and transcriptional repression linked to a particular genetic haplotype. The epimutation was erased in spermatozoa but reinstated in the somatic cells of the next generation. The affected haplotype harbored two single nucleotide substitutions in tandem; c.-27C > A located near the transcription initiation site and c.85G > T. The c.-27C > A variant significantly reduced transcriptional activity in reporter assays and is the probable cause of this epimutation.
The physiologically active form of vitamin D3, 1 alpha,25-dihydroxyvitamin D3 (VD), is a nuclear hormone with pleiotropic action on the control of calcium homeostasis and bone formation, induction of cellular differentiation and apoptosis, inhibition of cellular proliferation, and other cellular signaling processes. The actions of the hormone are mediated by the vitamin D receptor (VDR), a transcription factor that is a nuclear receptor for VD and a member of the nuclear receptor superfamily. The structural relationship between the members of this transcription factor family suggests similar function in DNA binding, transactivation, and contact to other nuclear proteins. However, each nuclear receptor also demonstrates individual properties that are characteristic and not shared by its respective relatives. In this review, both common as well as individual characteristics of VDR-mediated transcriptional regulation are critically discussed.
Our data demonstrate the important roles of lncUSMycN and NonO in regulating N-Myc expression and neuroblastoma oncogenesis and provide the first evidence that amplification of long noncoding RNA genes can contribute to tumorigenesis.
The vitamin D receptor (VDR) is a transcription factor that transmits incoming 1,25-dihydroxyvitamin D(3) (1alpha,25(OH)(2)D(3)) signaling via combined contact with coactivator proteins and specific DNA binding sites (VDREs), which ultimately results in activation of transcription. In contrast, the mechanisms of transcriptional repression via the VDR are less well understood. This study documents VDR-dependent transcriptional repression largely via histone deacetylase (HDAC) activity. Direct, ligand-sensitive protein-protein interaction of the VDR with the nuclear receptor corepressor (NCoR) and a novel corepressor, called Alien, was demonstrated to be comparable but independent of the VDR AF-2 trans-activation domain. Functional assays indicated that Alien, but not NCoR, displays selectivity for different VDRE structures for transferring these repressive effects into gene regulatory activities. Moreover, superrepression via Alien was found to be affected only in part by HDAC inhibitors such as trichostatin A. Finally, for a dissociation of VDR-Alien complexes in vitro and in vivo, higher ligand concentrations were needed than for a dissociation of VDR-NCoR complexes. This suggests that Alien and NCoR are using different interfaces for interaction with the VDR and different pathways for mediating superrepression, which in turn characterizes Alien as a representative of a new class of corepressors. Taken together, association of the VDR with corepressor proteins provides a further level of transcriptional regulation, which is emerging as a complex network of protein-protein interaction-mediated control.
Pleiotropic actions of the biologically active form of vitamin D 3 , 1a,25-dihydroxyvitamin D 3 (VD), include antiproliferative effects in both normal human melanocytes and malignant melanoma cell lines. In this study the actions of VD and its low calcemic analogues EB1089 and CB1093, have been examined in two human melanoma cell lines MeWo and WM1341. Both cell lines express similar amounts of vitamin D receptor mRNA and show functional gene regulatory effects in response to VD and its analogues. VD, EB1089 and CB1093 induced apoptosis only in WM1341 cells and not in MeWo cells, even though both cell lines responded well to etoposide, a strong inducer of apoptosis. Additionally, these results were confirmed by analysis of cell morphology. Interestingly in WM1341 cells, CB1093 was found to be more potent in inducing apoptosis than EB1089 and the natural hormone. Moreover, CB1093 appeared to induce apoptosis at a relatively low concentration of 0.1 nM, whereas greater than tenfold higher concentrations of VD and EB1089 were needed to obtain comparable effects. These observations highlight CB1093 as a promising drug for a future treatment against specific types of melanoma. -23yne-24a,26a, 27a-trihomo-1a,25-dihydroxyvitamin D 3 ; CAT, chloramphenicol acetyl transferase; DR3, direct repeat spaced by 3 nucleotides; EB1089, 22,24-diene-24a,26a,27a-trihomo-1a,25-dihydroxyvitamin D 3 ; IP9, inverted palindrome spaced by 9 nucleotides; TNFa, tumor necrosis factor alpha; VD, 1a,25-dihydroxyvitamin D 3 ; VDR, 1a,25-dihydroxyvitamin D 3 receptor; VDRE; VD response element
Cancer cachexia is a highly debilitating paraneoplastic disease observed in more than 50% of patients with advanced cancers and directly contributes to 20% of cancer deaths. Loss of skeletal muscle is a defining characteristic of patients with cancer cachexia and is associated with poor survival. The present study reveals the involvement of a myogenic transcription factor Myocyte Enhancer Factor (MEF) 2C in cancer-induced skeletal muscle wasting. Increased skeletal muscle mRNA expression of Suppressor of Cytokine Signaling (Socs) 3 and the IL-6 receptor indicative of active IL-6 signaling was seen in skeletal muscle of mice bearing the Colon 26 (C26) carcinoma. Loss of skeletal muscle structural integrity and distorted mitochondria were also observed using electron microscopy. Gene and protein expression of MEF2C was significantly downregulated in skeletal muscle from C26-bearing mice. MEF2C gene targets myozenin and myoglobin as well as myokinase were also altered during cachexia, suggesting dysregulated oxygen transport capacity and ATP regeneration in addition to distorted structural integrity. In addition, reduced expression of calcineurin was observed which suggested a potential pathway of MEF2C dysregulation. Together, these effects may limit sarcomeric contractile ability and also predispose skeletal muscle to structural instability; associated with muscle wasting and fatigue in cachexia.
Myc oncoproteins exert tumorigenic effects by regulating expression of target oncogenes. Histone H3 lysine 79 (H3K79) methylation at Myc-responsive elements of target gene promoters is a strict prerequisite for Myc-induced transcriptional activation, and DOT1L is the only known histone methyltransferase that catalyzes H3K79 methylation. Here, we show that N-Myc upregulates DOT1L mRNA and protein expression by binding to the DOT1L gene promoter. shRNA-mediated depletion of DOT1L reduced mRNA and protein expression of N-Myc target genes and DOT1L bound to the Myc Box II domain of N-Myc protein, and knockdown of DOT1L reduced histone H3K79 methylation and N-Myc protein binding at the ODC1 and E2F2 gene promoters and reduced neuroblastoma cell proliferation. Treatment with the small-molecule DOT1L inhibitor SGC0946 reduced H3K79 methylation and proliferation of gene-amplified neuroblastoma cells. In mice xenografts of neuroblastoma cells stably expressing doxycycline-inducible DOT1L shRNA, ablating DOT1L expression with doxycycline significantly reduced ODC1 and E2F2 expression, reduced tumor progression, and improved overall survival. In addition, high levels of DOT1L gene expression in human neuroblastoma tissues correlated with high levels of, and gene expression and independently correlated with poor patient survival. Taken together, our results identify DOT1L as a novel cofactor in N-Myc-mediated transcriptional activation of target genes and neuroblastoma oncogenesis. Furthermore, they characterize DOT1L inhibitors as novel anticancer agents against MYCN-amplified neuroblastoma..
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