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The oncogenic BRD4-NUT chromatin regulator drives aberrant transcription within large topological domains.


ABSTRACT: NUT midline carcinoma (NMC), a subtype of squamous cell cancer, is one of the most aggressive human solid malignancies known. NMC is driven by the creation of a translocation oncoprotein, BRD4-NUT, which blocks differentiation and drives growth of NMC cells. BRD4-NUT forms distinctive nuclear foci in patient tumors, which we found correlate with ?100 unprecedented, hyperacetylated expanses of chromatin that reach up to 2 Mb in size. These "megadomains" appear to be the result of aberrant, feed-forward loops of acetylation and binding of acetylated histones that drive transcription of underlying DNA in NMC patient cells and naïve cells induced to express BRD4-NUT. Megadomain locations are typically cell lineage-specific; however, the cMYC and TP63 regions are targeted in all NMCs tested and play functional roles in tumor growth. Megadomains appear to originate from select pre-existing enhancers that progressively broaden but are ultimately delimited by topologically associating domain (TAD) boundaries. Therefore, our findings establish a basis for understanding the powerful role played by large-scale chromatin organization in normal and aberrant lineage-specific gene transcription.

SUBMITTER: Alekseyenko AA 

PROVIDER: S-EPMC4526735 | biostudies-literature | 2015 Jul

REPOSITORIES: biostudies-literature

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The oncogenic BRD4-NUT chromatin regulator drives aberrant transcription within large topological domains.

Alekseyenko Artyom A AA   Walsh Erica M EM   Wang Xin X   Grayson Adlai R AR   Hsi Peter T PT   Kharchenko Peter V PV   Kuroda Mitzi I MI   French Christopher A CA  

Genes & development 20150701 14


NUT midline carcinoma (NMC), a subtype of squamous cell cancer, is one of the most aggressive human solid malignancies known. NMC is driven by the creation of a translocation oncoprotein, BRD4-NUT, which blocks differentiation and drives growth of NMC cells. BRD4-NUT forms distinctive nuclear foci in patient tumors, which we found correlate with ∼100 unprecedented, hyperacetylated expanses of chromatin that reach up to 2 Mb in size. These "megadomains" appear to be the result of aberrant, feed-f  ...[more]

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