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Structure of the RZZ complex and molecular basis of Spindly-driven corona assembly at human kinetochores.

Tobias RaischGiuseppe CiossaniEnnio A d'AmicoVerena CmentowskiSara CarmignaniStefano MaffiniFelipe MerinoSabine WohlgemuthIngrid R VetterStefan RaunserAndrea Musacchio
Published in: The EMBO journal (2022)
In metazoans, a ≈1 megadalton (MDa) multiprotein complex comprising the dynein-dynactin adaptor Spindly and the ROD-Zwilch-ZW10 (RZZ) complex is the building block of a fibrous biopolymer, the kinetochore fibrous corona. The corona assembles on mitotic kinetochores to promote microtubule capture and spindle assembly checkpoint (SAC) signaling. We report here a high-resolution cryo-EM structure that captures the essential features of the RZZ complex, including a farnesyl-binding site required for Spindly binding. Using a highly predictive in vitro assay, we demonstrate that the SAC kinase MPS1 is necessary and sufficient for corona assembly at supercritical concentrations of the RZZ-Spindly (RZZS) complex, and describe the molecular mechanism of phosphorylation-dependent filament nucleation. We identify several structural requirements for RZZS polymerization in rings and sheets. Finally, we identify determinants of kinetochore localization and corona assembly of Spindly. Our results describe a framework for the long-sought-for molecular basis of corona assembly on metazoan kinetochores.
Keyphrases
  • high resolution
  • endothelial cells
  • dna damage
  • cell cycle
  • high throughput
  • protein kinase
  • oxidative stress
  • breast cancer cells
  • tyrosine kinase
  • cell death