Barbara Kokanović scite author profile

Mechanical forces produced by motor proteins and microtubule dynamics within the mitotic spindle are crucial for the movement of chromosomes and their segregation into the emerging daughter cells. In addition to linear forces, rotational forces are present in the spindle, reflected in the left-handed twisted shapes of microtubule bundles that make the spindle chiral. However, the molecular origins of spindle chirality are unknown. Here we show that spindles are most twisted at the beginning of anaphase, and reveal multiple molecular players involved in spindle chirality. Inhibition of Eg5/kinesin-5 in a non-cancer cell line abolished spindle twist and depletion of Kif18A/kinesin-8 resulted in a right-handed twist, implying that these motors regulate twist likely by rotating the microtubules around one another within the antiparallel overlaps of bridging fibers. Depletion of the crosslinker PRC1 resulted in a right-handed twist, indicating that PRC1 may contribute to the twist by constraining free rotation of microtubules. Overexpression of PRC1 abolished twist, possibly due to increased torsional rigidity of the bundles. Depletion of augmin led to a right-handed twist, suggesting that twist depends on the geometry of microtubule nucleation. Round spindles were more twisted than elongated ones, a notion that we directly tested by compressing the spindle along its axis, which resulted in stronger left-handed twist, indicating a correlation between bending moments and twist. We conclude that spindle twist is controlled by multiple molecular mechanisms acting at different locations within the spindle as well as forces, and propose a potential physiological role of twist in promoting passive mechanical response of the spindle to forces during metaphase.

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The Chirality of the Mitotic Spindle Provides a Mechanical Response to Forces and Depends on Microtubule Motors and Crosslinkers

Trupinić

Kokanović

Ponjavić

et al. 2021

SSRN Journal

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Barbara Kokanović

The chirality of the mitotic spindle provides a mechanical response to forces and depends on microtubule motors and augmin

The chirality of the mitotic spindle provides a mechanical response to forces and depends on microtubule motors and augmin

The Chirality of the Mitotic Spindle Provides a Mechanical Response to Forces and Depends on Microtubule Motors and Crosslinkers

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