A network of epigenomic and transcriptional cooperation encompassing an epigenomic master regulator in cancer

Wilson, Stephen; Filipp, Fabian V.

doi:10.1038/s41540-018-0061-4

Cited by 31 publications

(24 citation statements)

References 59 publications

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“…The systems biology analysis performed in this study revealed that upregulation of self-renewing genes in CD271 + melanoma cells occurs in response to the activation of E2F, MYC, and SREBF1 promoter-containing elements. Target genes containing these response elements in their promoters (summarized in Table 1) are known to hold critical roles in cell cycle progression and DNA replication, which together are required efficient cell duplication 36–38 . Furthermore, gene set enrichment analysis demonstrated that CD271 + melanoma cells displayed significant correlation with high enrichment scores for the pathways containing E2F motifs and target genes.…”

Section: Discussionmentioning

confidence: 99%

CD271 is a molecular switch with divergent roles in melanoma and melanocyte development

Filipp

Boiko

2019

Sci Rep

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Dysregulation of signaling networks controlling self-renewal and migration of developmental cell lineages is closely linked to the proliferative and invasive properties of tumors. Identification of such signaling pathways and their critical regulators is vital for successful design of effective targeted therapies against neoplastic tissue growth. The neurotrophin receptor (CD271/NGFR/p75NTR) is a key regulator of the melanocytic cell lineage through its ability to mediate cell growth, survival, and differentiation. Using clinical melanoma samples, normal melanocytes and global gene expression profiling we have investigated the role of CD271 in rewiring signal transduction networks of melanoma cells during neoplastic transformation. Our analysis demonstrates that depending on the cell fate of tumor initiation vs normal development, elevated levels of CD271 can serve as a switch between proliferation/survival and differentiation/cell death. Two divergent arms of neurotrophin signaling hold the balance between positive regulators of tumor growth controlled by E2F, MYC, SREBP1 and AKT3 pathways on the one hand, and differentiation, senescence, and apoptosis controlled by TRAF6/IRAK-dependent activation of AP1 and TP53 mediated processes on the other hand. A molecular network map revealed in this study uncovers CD271 as a context-specific molecular switch between normal development and malignant transformation.

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Section: Discussionmentioning

confidence: 99%

CD271 is a molecular switch with divergent roles in melanoma and melanocyte development

Filipp

Boiko

2019

Sci Rep

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“…The hierarchy and casual relationship between the regulation of enhancer DNA methylation, active enhancer histone marks, transcription factor (TF) binding, and cis-regulated transcription has been challenging to define due to the epigenetic heterogeneity among cells (Jin et al, 2011;King et al, 2016;Zhu et al, 2016). While genome-wide epigenetic profiling provided insights into the relationship between DNA methylation, histone marks, and TFs and coactivators binding (King et al, 2016;Kundaje et al, 2015;Wilson and Filipp, 2018), these approaches, even at the single-cell level, did not allow resolving fast dynamics of individual epigenetic processes in heterogeneous tissues and cell populations. Thus, currently there is no clear understanding of the basis, regulation, and functional consequences of DNA methylation heterogeneity.…”

Section: Introductionmentioning

confidence: 99%

Dynamic Enhancer DNA Methylation as Basis for Transcriptional and Cellular Heterogeneity of ESCs

et al. 2019

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“…In actual physiological systems, the complexity of the protein-network generated by the histone code is complicated, since the regulatory elements of different marks are highly interconnected. Writers and erasers of histone modifications get recruited by reader proteins of other histone modifications, leading to a topologically organized array of co-existing modifications and associated multi-protein complexes that define distinct regulatory microenvironments at specific regions on chromatin impacting transcription and 3D-chromosome architecture [ 47 , 48 , 49 , 50 , 51 , 52 ]. These regulatory networks are central mediators of embryonic development, lineage determination during differentiation and cellular homeostasis [ 53 , 54 , 55 , 56 , 57 , 58 , 59 , 60 , 61 , 62 , 63 , 64 , 65 ].…”

Section: Histone-code and Epigenetic Network: Implications For Mymentioning

confidence: 99%

Targeting Chromatin Complexes in Myeloid Malignancies and Beyond: From Basic Mechanisms to Clinical Innovation

Perner

Armstrong

2020

Cells

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The aberrant function of chromatin regulatory networks (epigenetics) is a hallmark of cancer promoting oncogenic gene expression. A growing body of evidence suggests that the disruption of specific chromatin-associated protein complexes has therapeutic potential in malignant conditions, particularly those that are driven by aberrant chromatin modifiers. Of note, a number of enzymatic inhibitors that block the catalytic function of histone modifying enzymes have been established and entered clinical trials. Unfortunately, many of these molecules do not have potent single-agent activity. One potential explanation for this phenomenon is the fact that those drugs do not profoundly disrupt the integrity of the aberrant network of multiprotein complexes on chromatin. Recent advances in drug development have led to the establishment of novel inhibitors of protein–protein interactions as well as targeted protein degraders that may provide inroads to longstanding effort to physically disrupt oncogenic multiprotein complexes on chromatin. In this review, we summarize some of the current concepts on the role epigenetic modifiers in malignant chromatin states with a specific focus on myeloid malignancies and recent advances in early-phase clinical trials.

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A network of epigenomic and transcriptional cooperation encompassing an epigenomic master regulator in cancer

Cited by 31 publications

References 59 publications

CD271 is a molecular switch with divergent roles in melanoma and melanocyte development

CD271 is a molecular switch with divergent roles in melanoma and melanocyte development

Dynamic Enhancer DNA Methylation as Basis for Transcriptional and Cellular Heterogeneity of ESCs

Targeting Chromatin Complexes in Myeloid Malignancies and Beyond: From Basic Mechanisms to Clinical Innovation

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