Nature Communications (Jun 2024)

SDS22 coordinates the assembly of holoenzymes from nascent protein phosphatase-1

  • Xinyu Cao,
  • Madryn Lake,
  • Gerd Van der Hoeven,
  • Zander Claes,
  • Javier del Pino García,
  • Sarah Lemaire,
  • Elora C. Greiner,
  • Spyridoula Karamanou,
  • Aleyde Van Eynde,
  • Arminja N. Kettenbach,
  • Daniel Natera de Benito,
  • Laura Carrera García,
  • Cristina Hernando Davalillo,
  • Carlos Ortez,
  • Andrés Nascimento,
  • Roser Urreizti,
  • Mathieu Bollen

DOI
https://doi.org/10.1038/s41467-024-49746-4
Journal volume & issue
Vol. 15, no. 1
pp. 1 – 17

Abstract

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Abstract SDS22 forms an inactive complex with nascent protein phosphatase PP1 and Inhibitor-3. SDS22:PP1:Inhibitor-3 is a substrate for the ATPase p97/VCP, which liberates PP1 for binding to canonical regulatory subunits. The exact role of SDS22 in PP1-holoenzyme assembly remains elusive. Here, we show that SDS22 stabilizes nascent PP1. In the absence of SDS22, PP1 is gradually lost, resulting in substrate hyperphosphorylation and a proliferation arrest. Similarly, we identify a female individual with a severe neurodevelopmental disorder bearing an unstable SDS22 mutant, associated with decreased PP1 levels. We furthermore find that SDS22 directly binds to Inhibitor-3 and that this is essential for the stable assembly of SDS22:PP1: Inhibitor-3, the recruitment of p97/VCP, and the extraction of SDS22 during holoenzyme assembly. SDS22 with a disabled Inhibitor-3 binding site co-transfers with PP1 to canonical regulatory subunits, thereby forming non-functional holoenzymes. Our data show that SDS22, through simultaneous interaction with PP1 and Inhibitor-3, integrates the major steps of PP1 holoenzyme assembly.