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Synthesis and biological evaluation of optimized inhibitors of the mitotic kinesin Kif18A.

Authors :
Braun J
Möckel MM
Strittmatter T
Marx A
Groth U
Mayer TU
Source :
ACS chemical biology [ACS Chem Biol] 2015 Feb 20; Vol. 10 (2), pp. 554-60. Date of Electronic Publication: 2014 Nov 26.
Publication Year :
2015

Abstract

The mitotic spindle, a highly dynamic structure composed of microtubules, mediates the segregation of the previously duplicated genome into the two nascent daughter cells. Errors in this process contribute to pathology including tumor formation. Key for the shape and function of the mitotic spindle are kinesins, molecular motor proteins that convert chemical energy into mechanical work. Due to their fast mode of action, small molecules are valuable tools to dissect the dynamic functions of kinesins during mitosis. In this study, we report the identification of optimized small molecule inhibitors of the mitotic kinesin Kif18A. Using BTB-1, the first identified Kif18A inhibitor, as a lead compound, we synthesized a collection of derivatives. We demonstrate that some of the synthesized derivatives potently inhibited the ATPase activity of Kif18A with a half maximal inhibitory concentration (IC50) value in the low micromolar range. In vitro analysis of a panel of Kif18A-related kinesins revealed that the two most potent compounds show improved selectivity compared to BTB-1. Structure-activity relationship studies identified substituents mediating undesired inhibitory effects on microtubule polymerization. In summary, our study provides key insights into the mechanism of action of BTB-1 and its analogs, which will have a great impact on the further development of highly selective and bioactive Kif18A inhibitors. Since Kif18A is frequently overexpressed in solid tumors, such compounds are not only of great interest for basic research but also have the potential to open up new strategies for the treatment of human diseases.

Details

Language :
English
ISSN :
1554-8937
Volume :
10
Issue :
2
Database :
MEDLINE
Journal :
ACS chemical biology
Publication Type :
Academic Journal
Accession number :
25402598
Full Text :
https://doi.org/10.1021/cb500789h