eLife (May 2019)

An order-to-disorder structural switch activates the FoxM1 transcription factor

  • Aimee H Marceau,
  • Caileen M Brison,
  • Santrupti Nerli,
  • Heather E Arsenault,
  • Andrew C McShan,
  • Eefei Chen,
  • Hsiau-Wei Lee,
  • Jennifer A Benanti,
  • Nikolaos G Sgourakis,
  • Seth M Rubin

DOI
https://doi.org/10.7554/eLife.46131
Journal volume & issue
Vol. 8

Abstract

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Intrinsically disordered transcription factor transactivation domains (TADs) function through structural plasticity, adopting ordered conformations when bound to transcriptional co-regulators. Many transcription factors contain a negative regulatory domain (NRD) that suppresses recruitment of transcriptional machinery through autoregulation of the TAD. We report the solution structure of an autoinhibited NRD-TAD complex within FoxM1, a critical activator of mitotic gene expression. We observe that while both the FoxM1 NRD and TAD are primarily intrinsically disordered domains, they associate and adopt a structured conformation. We identify how Plk1 and Cdk kinases cooperate to phosphorylate FoxM1, which releases the TAD into a disordered conformation that then associates with the TAZ2 or KIX domains of the transcriptional co-activator CBP. Our results support a mechanism of FoxM1 regulation in which the TAD undergoes switching between disordered and different ordered structures.

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