Design, synthesis and biological evaluation of vinyl selenone derivatives as novel microtubule polymerization inhibitors

Zhu, Huajian; Sun, Honghao; Liu, Yang; Duan, Yiping; Liu, Jie; Yang, Xue; Li, Wenlong; Qin, Shuai; Xu, Shengtao; Zhu, Zheying; Xu, Jinyi

doi:10.1016/j.ejmech.2020.112716

Design, synthesis and biological evaluation of vinyl selenone derivatives as novel microtubule polymerization inhibitors

Zhu, Huajian; Sun, Honghao; Liu, Yang; Duan, Yiping; Liu, Jie; Yang, Xue; Li, Wenlong; Qin, Shuai; Xu, Shengtao; Zhu, Zheying; Xu, Jinyi

Authors

Huajian Zhu

Honghao Sun

Yang Liu

Yiping Duan

Jie Liu

Xue Yang

Wenlong Li

Shuai Qin

Shengtao Xu

ZHEYING ZHU Zheying.Zhu@nottingham.ac.uk
Associate Professor in International Pharmacy and Traditional Medicines

Jinyi Xu

Abstract

A series of novel vinyl selenone derivatives were designed, synthesized and evaluated as the tubulin polymerization inhibitors using a bioisosteric strategy. Among them, the representative compound 11k exhibited satisfactory anti-proliferative activities with IC50 values ranging from 0.287 to 0.621 μM against a panel of cancer cell lines. Importantly, 11k displayed more potent in vivo antitumor activity than the positive control paclitaxel, CA-4 and parent compound 4 without apparent toxicity, which was presumably ascribed to the antiangiogenic, antiproliferative and selective effects of selenium, along with the unique physiological activity of indole skeleton, which were both introduced into the structure of target compounds. Further mechanism study demonstrated that compound 11k showed potent activity in tubulin polymerization inhibition with IC50 value of 1.82 μM. Moreover, cellular mechanism studies disclosed that 11k blocked cell cycle arrest at G2/M phase, induced cell apoptosis and depolarized mitochondria of K562 cells. Meanwhile, 11k reduced the cell migration and had potent vascular disrupting activity. In summary, 11k could serve as a promising lead for the development of more efficient microtubule polymerization inhibitors for cancer therapy.

Journal Article Type	Article
Acceptance Date	Jul 22, 2020
Online Publication Date	Aug 17, 2020
Publication Date	Dec 1, 2020
Deposit Date	Jan 27, 2024
Journal	European Journal of Medicinal Chemistry
Publisher	Elsevier
Peer Reviewed	Peer Reviewed
Volume	207
Article Number	112716
DOI	https://doi.org/10.1016/j.ejmech.2020.112716
Keywords	Selenium, Vinyl selenone, Bioisosteric strategy, Tubulin inhibitors, Antitumor
Public URL	https://nottingham-repository.worktribe.com/output/30152812
Publisher URL	https://www.sciencedirect.com/science/article/pii/S0223523420306887?via%3Dihub

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Design, synthesis and biological evaluation of vinyl selenone derivatives as novel microtubule polymerization inhibitors

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Authors

Abstract

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