The kinesin-4 family member KIF27 regulates mitotic progression, cytokinesis and genome stability

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Abstract

Kinesins are microtubule-dependent motors, yet the functions of the kinesin-4 family member KIF27 remain poorly understood. Here, we demonstrate a dynamic and cell-cycle-dependent localization of KIF27, consistent with its functional roles in mitotic progression. Upon mitotic entry, KIF27 relocates to condensed chromosomes. During anaphase, a fraction of KIF27 accumulates at the spindle midzone, and in telophase and late stages of cytokinesis it localizes at the midbody, colocalizing with key cytokinetic regulators at both structures. Recruitment of KIF27 to the midbody depends on KIF23 and CEP55. KIF27 depletion results in profound cell division defects, altered midbody and microtubule morphology, delayed cytokinesis and cytokinesis failure. Beyond cell division, KIF27 depletion directly compromises nuclear morphology, and pan-cancer transcriptomic analyses correlate low KIF27 expression with aneuploidy and poor patient survival in several cancer types. Together, our results identify KIF27 as a novel regulator of mitotic fidelity and genome stability.

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