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Target Concepts:
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Query: EC:2.1.1.37 (
DNA methyltransferase
)
4,983
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Neuroblastoma is a pediatric solid tumor with high morbidity and mortality in association with particular high-risk biological and clinical features (such as
MYCN
proto-oncogene amplification or advanced tumor stage). Such high-risk neuroblastomas may be initially responsive to cytoreductive therapies, yet the majority will ultimately demonstrate de novo or acquired chemoresistance leading to tumor progression and death. Insight into the genetic alterations responsible for these phenotypes are beginning to be gained, and subversion of inherent programmed cell death pathways is a common theme. Intact apoptosis pathways protect cells against neoplastic transformation and provide the mechanisms by which cytotoxic agents exert their effects. When these pathways are abolished through alterations in the cell death machinery, they complement deregulated oncogenes to promote tumor initiation and therapy resistance. Currently, therapeutic intensity for high-risk neuroblastoma has been advanced to near-tolerance with only modest gains in survival, and it is likely that further improvements in outcome will require innovative approaches that target key regulatory pathways that potentiate currently available therapies. Efforts to abrogate the cancer cell 'survival bias' engendered by alterations in death pathways are now a major focus in experimental cancer therapeutics, and their application to the problem of high-risk neuroblastoma form the basis of this review. These include agents that activate death receptors (TRAIL-agonists) or restore DISC competency (CDDO,
DNA methyltransferase
and HDAC inhibitors); reduce pro-survival Bcl2 homologues (Oblimersen sodium [AS-Bcl2], AS-Mcl1) or deliver a pro-apoptotic BH3 protein burden (BH3 peptides, gossypol, ABT737); or repress IAPs (Smac/Diablo peptides, AS-XIAP, AS-Survivin). As our knowledge of apoptosis dysregulation in neuroblastoma evolves, the possibilities for pro-apoptotic therapeutics seems not only promising, but a realistic adjunct to conventional treatments.
...
PMID:Targeting programmed cell death pathways with experimental therapeutics: opportunities in high-risk neuroblastoma. 1592 59
Tumor suppressor genes such as RASSF1A are often epigenetically repressed by DNA hypermethylation in neuroblastoma, where the
MYCN
proto-oncogene is frequently amplified. MYC has been shown to associate with DNA methyltransferases, thereby inducing transcriptional repression of target genes, which suggested that
MYCN
might play a similar mechanistic role in the hypermethylation of tumor suppressor genes in neuroblastoma. This study tested that hypothesis by using co-immunoprecipitation and ChIP to investigate
MYCN
-
DNA methyltransferase
interactions, together with
MYCN
knock-down and over-expression systems to examine the effect of
MYCN
expression changes on gene methylation, employing both candidate gene and genome-wide assays. We show that
MYCN
interacts with DNA methyltransferases and is recruited to the promoter region of RASSF1A. However, using four model systems, we showed that long-term silencing of
MYCN
induces only a small loss of DNA methylation at the RASSF1A promoter in
MYCN
amplified neuroblastoma cell lines and over-expression of
MYCN
does not induce any DNA methylation, suggesting that
MYCN
is not critical for DNA hypermethylation in neuroblastoma.
...
PMID:MYCN is recruited to the RASSF1A promoter but is not critical for DNA hypermethylation in neuroblastoma. 2328 Jul 64
The systemic and resistant nature of metastatic neuroblastoma renders it largely incurable with current multimodal treatment. Clinical progression stems mainly from the increasing burden of metastatic colonization. Therapeutically inhibiting the migration-invasion-metastasis cascade would be of great benefit, but the mechanisms driving this cycle are as yet poorly understood. In-depth transcriptome analyses and ChIP-qPCR identified the cell surface glycoprotein, CD9, as a major downstream player and direct target of the recently described GRHL1 tumor suppressor. CD9 is known to block or facilitate cancer cell motility and metastasis dependent upon entity. High-level CD9 expression in primary neuroblastomas correlated with patient survival and established markers for favorable disease. Low-level CD9 expression was an independent risk factor for adverse outcome.
MYCN
and HDAC5 colocalized to the CD9 promoter and repressed transcription. CD9 expression diminished with progressive tumor development in the TH-
MYCN
transgenic mouse model for neuroblastoma, and CD9 expression in neuroblastic tumors was far below that in ganglia from wildtype mice. Primary neuroblastomas lacking
MYCN
amplifications displayed differential CD9 promoter methylation in methyl-CpG-binding domain sequencing analyses, and high-level methylation was associated with advanced stage disease, supporting epigenetic regulation. Inducing CD9 expression in a SH-EP cell model inhibited migration and invasion in Boyden chamber assays. Enforced CD9 expression in neuroblastoma cells transplanted onto chicken chorioallantoic membranes strongly reduced metastasis to embryonic bone marrow. Combined treatment of neuroblastoma cells with HDAC/
DNA methyltransferase
inhibitors synergistically induced CD9 expression despite hypoxic, metabolic or cytotoxic stress. Our results show CD9 is a critical and indirectly druggable suppressor of the invasion-metastasis cycle in neuroblastoma.
...
PMID:MYCN and HDAC5 transcriptionally repress CD9 to trigger invasion and metastasis in neuroblastoma. 2757 23
