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Coordinated control of both microtubule ends regulates mitotic spindle length

Fiorenza, S. A.; Cheeran, S.; Doria, E.; Tolic, I. M.; Meraldi, P.; Pavin, N.

2026-02-09 biophysics
10.64898/2026.02.08.704347 bioRxiv
Show abstract

The mitotic spindle is a biomechanical structure whose length must be precisely controlled to ensure faithful chromosome segregation. The treadmilling of microtubules towards centrosomes, termed poleward flux, is involved in spindle length control. However, poleward flux has been shown to be both inversely and directly proportional to spindle length, a contradiction that remains unexplained by current mechanisms. Here we introduce a model which demonstrates that length-dependent regulation at both microtubule ends allows plus- and minus-end dynamics to synchronize with one another, enabling pathways of poleward flux-based spindle length control which can rectify previous results. Moreover, our model predicts that spindle length and poleward flux can vary independently via simultaneous perturbations at both microtubule ends, which we experimentally validate with combinations of KIF18A, KIF2A, and KATNB1 depletions in human cells. Our results thus resolve a longstanding paradox and provide mechanistic insight into the reciprocal control of spindle length and poleward flux.

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