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Photoswitchable CENP-E Inhibitor Enabling the Dynamic Control of Chromosome Movement and Mitotic Progression

Noushaba Nusrat Mafy, Kazuya Matsuo, Shota Hiruma, Ryota Uehara, Nobuyuki Tamaoki

2020Journal of the American Chemical Society55 citationsDOIOpen Access PDF

Abstract

Interfering with mitosis is a potential cancer therapy strategy. However, the lack of controllability of antimitotic drugs in cell growth suppression causes severe side effects and limits their clinical utility. Herein, we developed an azobenzene-based photoswitchable inhibitor of CENP-E, a mitotic kinesin required for chromosome transportation. The new inhibitor enabled reversible photoswitching of CENP-E activity with ∼10-fold change in IC50 between cis and trans photoisomerization states both in vitro and in living cells. It also enabled repeatable photoswitching of CENP-E-dependent chromosome congression and hence mitotic progression with UV/vis light illumination cycles. Using this technique, we could specify the exact process of mitotic progression in which CENP-E plays an indispensable role. Our data demonstrate the power of a photochemical approach for highly controllable mitotic interference as well as for discovery of precise molecular functions in dynamic cellular processes.

Topics & Concepts

PhotoisomerizationMitosisChemistryAzobenzeneCell biologyBiophysicsKinesinCancer researchBiochemistryMicrotubuleBiologyIsomerizationMoleculeCatalysisOrganic chemistryPhotochromic and Fluorescence ChemistryPhotoreceptor and optogenetics researchRetinal Development and Disorders