Cell Reports (Mar 2021)

Molecular mechanisms of APC/C release from spindle assembly checkpoint inhibition by APC/C SUMOylation

  • Stanislau Yatskevich,
  • Jessie S. Kroonen,
  • Claudio Alfieri,
  • Thomas Tischer,
  • Anna C. Howes,
  • Linda Clijsters,
  • Jing Yang,
  • Ziguo Zhang,
  • Kaige Yan,
  • Alfred C.O. Vertegaal,
  • David Barford

Journal volume & issue
Vol. 34, no. 13
p. 108929

Abstract

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Summary: The anaphase-promoting complex/cyclosome (APC/C) is an E3 ubiquitin ligase that controls cell cycle transitions. Its regulation by the spindle assembly checkpoint (SAC) is coordinated with the attachment of sister chromatids to the mitotic spindle. APC/C SUMOylation on APC4 ensures timely anaphase onset and chromosome segregation. To understand the structural and functional consequences of APC/C SUMOylation, we reconstituted SUMOylated APC/C for electron cryo-microscopy and biochemical analyses. SUMOylation of the APC/C causes a substantial rearrangement of the WHB domain of APC/C’s cullin subunit (APC2WHB). Although APC/CCdc20 SUMOylation results in a modest impact on normal APC/CCdc20 activity, repositioning APC2WHB reduces the affinity of APC/CCdc20 for the mitotic checkpoint complex (MCC), the effector of the SAC. This attenuates MCC-mediated suppression of APC/CCdc20 activity, allowing for more efficient ubiquitination of APC/CCdc20 substrates in the presence of the MCC. Thus, SUMOylation stimulates the reactivation of APC/CCdc20 when the SAC is silenced, contributing to timely anaphase onset.

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