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MYC protein stability is negatively regulated by BRD4

Ballachanda N. Devaiah, Jie Mu, Ben Akman, Sheetal Uppal, Jocelyn D. Weissman, Dan Cheng, Laura Baranello, Zuqin Nie, David Levens, Dinah S. Singer

2020Proceedings of the National Academy of Sciences161 citationsDOIOpen Access PDF

Abstract

The protooncogene MYC regulates a variety of cellular processes, including proliferation and metabolism. Maintaining MYC at homeostatic levels is critical to normal cell function; overexpression drives many cancers. MYC stability is regulated through phosphorylation: phosphorylation at Thr58 signals degradation while Ser62 phosphorylation leads to its stabilization and functional activation. The bromodomain protein 4 (BRD4) is a transcriptional and epigenetic regulator with intrinsic kinase and histone acetyltransferase (HAT) activities that activates transcription of key protooncogenes, including MYC . We report that BRD4 phosphorylates MYC at Thr58, leading to MYC ubiquitination and degradation, thereby regulating MYC target genes. Importantly, BRD4 degradation, but not inhibition, results in increased levels of MYC protein. Conversely, MYC inhibits BRD4’s HAT activity, suggesting that MYC regulates its own transcription by limiting BRD4-mediated chromatin remodeling of its locus. The MYC stabilizing kinase, ERK1, regulates MYC levels directly and indirectly by inhibiting BRD4 kinase activity. These findings demonstrate that BRD4 negatively regulates MYC levels, which is counteracted by ERK1 activation.

Topics & Concepts

BRD4Protein stabilityChemistryStability (learning theory)Cell biologyBromodomainBiologyComputer scienceHistoneBiochemistryGeneMachine learningProtein Degradation and InhibitorsUbiquitin and proteasome pathwaysGenomics and Chromatin Dynamics
MYC protein stability is negatively regulated by BRD4 | Litcius