Litcius/Paper detail

Paradoxical activation of the protein kinase-transcription factor ERK5 by ERK5 kinase inhibitors

Pamela A. Lochhead, Julie A. Tucker, Natalie J. Tatum, Jinhua Wang, David Oxley, Andrew M. Kidger, Victoria P. Johnson, Megan Cassidy, Nathanael S. Gray, M.E.M. Noble, Simon J. Cook

2020Nature Communications47 citationsDOIOpen Access PDF

Abstract

The dual protein kinase-transcription factor, ERK5, is an emerging drug target in cancer and inflammation, and small-molecule ERK5 kinase inhibitors have been developed. However, selective ERK5 kinase inhibitors fail to recapitulate ERK5 genetic ablation phenotypes, suggesting kinase-independent functions for ERK5. Here we show that ERK5 kinase inhibitors cause paradoxical activation of ERK5 transcriptional activity mediated through its unique C-terminal transcriptional activation domain (TAD). Using the ERK5 kinase inhibitor, Compound 26 (ERK5-IN-1), as a paradigm, we have developed kinase-active, drug-resistant mutants of ERK5. With these mutants, we show that induction of ERK5 transcriptional activity requires direct binding of the inhibitor to the kinase domain. This in turn promotes conformational changes in the kinase domain that result in nuclear translocation of ERK5 and stimulation of gene transcription. This shows that both the ERK5 kinase and TAD must be considered when assessing the role of ERK5 and the effectiveness of anti-ERK5 therapeutics.

Topics & Concepts

Cyclin-dependent kinase 9Cyclin-dependent kinase 4Cyclin-dependent kinase 2Protein kinase domainASK1MAP kinase kinase kinaseMitogen-activated protein kinase kinaseCell biologyMAP2K7Transcription factorKinaseProtein kinase RProtein kinase ACancer researchBiologyChemistryBiochemistryMutantGeneMelanoma and MAPK PathwaysProtein Kinase Regulation and GTPase SignalingComputational Drug Discovery Methods