Replacing the tropolonic methoxyl group of colchicine with methylamino increases tubulin binding affinity with improved therapeutic index and overcomes paclitaxel cross-resistance

Juanjuan Yang, Dake Song, Bingqian Li, Xiaoxiao Gao, Yuetong Wang, Xiaohu Li, Changshun Bao, Caijiao Wu, Yu Bao, Samuel Waxman, Guoliang Chen, Yongkui Jing

Research output: Contribution to journalArticlepeer-review

6 Scopus citations

Abstract

Aims: Microtubule inhibitors are widely used in first line cancer therapy, though drug resistance often develops and causes treatment failure. Colchicine binds to tubulins and inhibits tumor growth, but is not approved for cancer therapy due to systemic toxicity. In this study, we aim to improve the therapeutic index of colchicine through structural modification. Methods: The methoxyl group of the tropolonic ring in colchicine was replaced with amino groups. The cross-resistance of the derivatives with paclitaxel and vincristine was tested. Antitumor effects of target compounds were tested in vivo in A549 and paclitaxel-resistant A549/T xenografts. The interaction of target compounds with tubulins was measured using biological and chemical methods. Results: Methylamino replacement of the tropolonic methoxyl group of colchicine increases, while demethylation loses, selective tubulin binding affinity, G2/M arrest and antiproliferation activity. Methylaminocolchicine is more potent than paclitaxel and vincristine to inhibit tumor growth in vitro and in vivo without showing cross-resistance to paclitaxel. Methylaminocolchicine binds to tubulins in unique patterns and inhibits P-gp with a stable pharmacokinetic profile. Conclusion: Methylanimo replacement of the tropolonic methoxyl group of colchicine increases antitumor activity with improved therapeutic index. Methylaminocolchicine represents a new type of mitotic inhibitor with the ability of overcoming paclitaxel and vincristine resistance.

Original languageEnglish
Article number100951
JournalDrug Resistance Updates
Volume68
DOIs
StatePublished - May 2023

Keywords

  • Aminocolchicine
  • Drug resistance
  • Paclitaxel
  • Structural modification
  • Tubulin binding

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