Deconvolution of Buparlisib’s mechanism of action defines specific PI3K and tubulin inhibitors for therapeutic intervention

被引:0
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作者
Thomas Bohnacker
Andrea E. Prota
Florent Beaufils
John E. Burke
Anna Melone
Alison J. Inglis
Denise Rageot
Alexander M. Sele
Vladimir Cmiljanovic
Natasa Cmiljanovic
Katja Bargsten
Amol Aher
Anna Akhmanova
J. Fernando Díaz
Doriano Fabbro
Marketa Zvelebil
Roger L. Williams
Michel O. Steinmetz
Matthias P. Wymann
机构
[1] University of Basel,Department of Biomedicine
[2] Laboratory of Biomolecular Research,Department of Biology and Chemistry
[3] Paul Scherrer Institut,Department of Biochemistry and Microbiology
[4] University of Victoria,undefined
[5] MRC Laboratory of Molecular Biology,undefined
[6] Cell Biology,undefined
[7] Faculty of Science,undefined
[8] Utrecht University,undefined
[9] 3584 CH Utrecht,undefined
[10] CIB Centro de Investigaciones Biológicas,undefined
[11] PIQUR Therapeutics AG,undefined
[12] The Institute of Cancer Research,undefined
[13] Present address: PIQUR Therapeutics AG,undefined
[14] 4057 Basel,undefined
[15] Switzerland,undefined
[16] Present address: Institute of Biochemistry,undefined
[17] University of Zürich,undefined
[18] 8057 Zürich,undefined
[19] Switzerland,undefined
来源
Nature Communications | / 8卷
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摘要
BKM120 (Buparlisib) is one of the most advanced phosphoinositide 3-kinase (PI3K) inhibitors for the treatment of cancer, but it interferes as an off-target effect with microtubule polymerization. Here, we developed two chemical derivatives that differ from BKM120 by only one atom. We show that these minute changes separate the dual activity of BKM120 into discrete PI3K and tubulin inhibitors. Analysis of the compounds cellular growth arrest phenotypes and microtubule dynamics suggest that the antiproliferative activity of BKM120 is mainly due to microtubule-dependent cytotoxicity rather than through inhibition of PI3K. Crystal structures of BKM120 and derivatives in complex with tubulin and PI3K provide insights into the selective mode of action of this class of drugs. Our results raise concerns over BKM120’s generally accepted mode of action, and provide a unique mechanistic basis for next-generation PI3K inhibitors with improved safety profiles and flexibility for use in combination therapies.
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