A farnesyl-dependent structural role for CENP-E in expansion of the fibrous corona

Publication date

2024-01-01

Authors

Wu, Jingchao
Raas, Maximilian W.D.
Sobrevals Alcaraz, Paula
Vos, Harmjan R.
Tromer, Eelco C.
Snel, Berend
Kops, Geert J P LORCID 0000-0003-3555-5295ISNI 0000000394205033

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Abstract

Correct chromosome segregation during cell division depends on proper connections between spindle microtubules and kinetochores. During prometaphase, kinetochores are temporarily covered with a dense protein meshwork known as the fibrous corona. Formed by oligomerization of ROD/ZW10/ZWILCH-SPINDLY (RZZ-S) complexes, the fibrous corona promotes spindle assembly, chromosome orientation, and spindle checkpoint signaling. The molecular requirements for formation of the fibrous corona are not fully understood. Here, we show that the fibrous corona depends on the mitotic kinesin CENP-E and that poorly expanded fibrous coronas after CENP-E depletion are functionally compromised. This previously unrecognized role for CENP-E does not require its motor activity but instead is driven by farnesyl modification of its C-terminal kinetochoreand microtubule-binding domain. We show that in cells, CENP-E binds Spindly and recruits RZZ-S complexes to ectopic locations in a farnesyl-dependent manner. CENP-E is recruited to kinetochores following RZZ-S, and—while not required for RZZ-S oligomerization per se—promotes subsequent fibrous corona expansion. Our comparative genomics analyses suggest that the farnesylation motif in CENP-E orthologs emerged alongside the full RZZ-S module in an ancestral lineage close to the fungi–animal split (Obazoa), revealing potential conservation of the mechanisms for fibrous corona formation. Our results show that proper spindle assembly has a potentially conserved non-motor contribution from the kinesin CENP-E through stabilization of the fibrous corona meshwork during its formation.

Keywords

Cell Biology

Citation

Wu, J, Raas, M W D, Alcaraz, P S, Vos, H R, Tromer, E C, Snel, B & Kops, G J P L 2024, 'A farnesyl-dependent structural role for CENP-E in expansion of the fibrous corona', Journal of Cell Biology, vol. 223, no. 1, e202303007, pp. 1-21. https://doi.org/10.1083/jcb.202303007