Litcius/Paper detail

RZZ‐Spindly and CENP‐E form an integrated platform to recruit dynein to the kinetochore corona

Verena Cmentowski, Giuseppe Ciossani, Ennio d’Amico, Sabine Wohlgemuth, Mikito Owa, Brian David Dynlacht, Andrea Musacchio

2023The EMBO Journal28 citationsDOIOpen Access PDF

Abstract

Chromosome biorientation on the mitotic spindle is prerequisite to errorless genome inheritance. CENP-E (kinesin-7) and dynein-dynactin (DD), microtubule motors with opposite polarity, promote biorientation from the kinetochore corona, a polymeric structure whose assembly requires MPS1 kinase. The corona's building block consists of ROD, Zwilch, ZW10, and the DD adaptor Spindly (RZZS). How CENP-E and DD are scaffolded and mutually coordinated in the corona remains unclear. Here, we show that when corona assembly is prevented through MPS1 inhibition, CENP-E is absolutely required to retain RZZS at kinetochores. An RZZS phosphomimetic mutant bypasses this requirement, demonstrating the existence of a second receptor for polymeric RZZS. With active MPS1, CENP-E is dispensable for corona expansion, but strictly required for physiological kinetochore accumulation of DD. Thus, we identify the corona as an integrated scaffold where CENP-E kinesin controls DD kinetochore loading for coordinated bidirectional transport of chromosome cargo.

Topics & Concepts

KinetochoreBiologyDyneinCell biologyCentromereMicrotubuleDynactinMitosisChromosome segregationKinesinChromosomeGeneticsGeneMicrotubule and mitosis dynamicsPlant nutrient uptake and metabolismProtist diversity and phylogeny