Increase in DNA damage by MYCN knockdown through regulating nucleosome organization and chromatin state in neuroblastoma

Hu, X; Zheng, W; Zhu, Q; Gu, L; Du, Y; Han, Z; Zhang, X; Carter, DR; Cheung, BB; Qiu, A; Jiang, C

Increase in DNA damage by MYCN knockdown through regulating nucleosome organization and chromatin state in neuroblastoma

Hu, X Zheng, W Zhu, Q Gu, L Du, Y Han, Z Zhang, X Carter, DR Cheung, BB Qiu, A Jiang, C

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Publisher:: Frontiers Media SA
Publication Type:: Journal Article
Citation:: Frontiers in Genetics, 2019, 10, (JUL)
Issue Date:: 2019-01-01

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Field	Value	Language
dc.contributor.author	Hu, X
dc.contributor.author	Zheng, W
dc.contributor.author	Zhu, Q
dc.contributor.author	Gu, L
dc.contributor.author	Du, Y
dc.contributor.author	Han, Z
dc.contributor.author	Zhang, X
dc.contributor.author	Carter, DR
dc.contributor.author	Cheung, BB
dc.contributor.author	Qiu, A
dc.contributor.author	Jiang, C
dc.date.accessioned	2020-06-05T08:23:08Z
dc.date.available	2020-06-05T08:23:08Z
dc.date.issued	2019-01-01
dc.identifier.citation	Frontiers in Genetics, 2019, 10, (JUL)
dc.identifier.issn	1664-8021
dc.identifier.uri	http://hdl.handle.net/10453/141139
dc.description.abstract	© 2019 Hu, Zheng, Zhu, Gu, Du, Han, Zhang, Carter, Cheung, Qiu and Jiang. As a transcription factor, MYCN regulates myriad target genes including the histone chaperone FACT. Moreover, FACT and MYCN expression form a forward feedback loop in neuroblastoma. It is unclear whether MYCN is involved in chromatin remodeling in neuroblastoma through regulation of its target genes. We showed here that MYCN knockdown resulted in loss of the nucleosome-free regions through nucleosome assembly in the promoters of genes functionally enriched for DNA repair. The active mark H3K9ac was removed or replaced by the repressive mark H3K27me3 in the promoters of double-strand break repair-related genes upon MYCN knockdown. Such chromatin state alterations occurred only in MYCN-bound promoters. Consistently, MYCN knockdown resulted in a marked increase in DNA damage in the treatment with hydroxyurea. In contrast, nucleosome reorganization and histone modification changes in the enhancers largely included target genes with tumorigenesis-related functions such as cell proliferation, cell migration, and cell-cell adhesion. The chromatin state significantly changed in both MYCN-bound and MYCN-unbound enhancers upon MYCN knockdown. Furthermore, MYCN knockdown independently regulated chromatin remodeling in the promoters and the enhancers. These findings reveal the novel epigenetic regulatory role of MYCN in chromatin remodeling and provide an alternative potential epigenetic strategy for MYCN-driven neuroblastoma treatment.
dc.language	en
dc.publisher	Frontiers Media SA
dc.relation.ispartof	Frontiers in Genetics
dc.relation.isbasedon	10.3389/fgene.2019.00684
dc.rights	info:eu-repo/semantics/openAccess
dc.subject	0604 Genetics, 1103 Clinical Sciences, 1801 Law
dc.title	Increase in DNA damage by MYCN knockdown through regulating nucleosome organization and chromatin state in neuroblastoma
dc.type	Journal Article
utslib.citation.volume	10
utslib.for	0604 Genetics
utslib.for	1103 Clinical Sciences
utslib.for	1801 Law
pubs.organisational-group	/University of Technology Sydney/Faculty of Engineering and Information Technology
pubs.organisational-group	/University of Technology Sydney/Strength - CHT - Health Technologies
pubs.organisational-group	/University of Technology Sydney/Faculty of Engineering and Information Technology/School of Biomedical Engineering
pubs.organisational-group	/University of Technology Sydney
utslib.copyright.status	open_access	*
dc.date.updated	2020-06-05T08:23:00Z
pubs.issue	JUL
pubs.publication-status	Published
pubs.volume	10
utslib.citation.issue	JUL

Abstract:

© 2019 Hu, Zheng, Zhu, Gu, Du, Han, Zhang, Carter, Cheung, Qiu and Jiang. As a transcription factor, MYCN regulates myriad target genes including the histone chaperone FACT. Moreover, FACT and MYCN expression form a forward feedback loop in neuroblastoma. It is unclear whether MYCN is involved in chromatin remodeling in neuroblastoma through regulation of its target genes. We showed here that MYCN knockdown resulted in loss of the nucleosome-free regions through nucleosome assembly in the promoters of genes functionally enriched for DNA repair. The active mark H3K9ac was removed or replaced by the repressive mark H3K27me3 in the promoters of double-strand break repair-related genes upon MYCN knockdown. Such chromatin state alterations occurred only in MYCN-bound promoters. Consistently, MYCN knockdown resulted in a marked increase in DNA damage in the treatment with hydroxyurea. In contrast, nucleosome reorganization and histone modification changes in the enhancers largely included target genes with tumorigenesis-related functions such as cell proliferation, cell migration, and cell-cell adhesion. The chromatin state significantly changed in both MYCN-bound and MYCN-unbound enhancers upon MYCN knockdown. Furthermore, MYCN knockdown independently regulated chromatin remodeling in the promoters and the enhancers. These findings reveal the novel epigenetic regulatory role of MYCN in chromatin remodeling and provide an alternative potential epigenetic strategy for MYCN-driven neuroblastoma treatment.

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http://hdl.handle.net/10453/141139