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Pharmaceutical-Grade Rigosertib Is a Microtubule-Destabilizing Agent

Authors :
Jost, Marco
Chen, Yuwen
Gilbert, Luke A
Horlbeck, Max A
Krenning, Lenno
Menchon, Grégory
Rai, Ankit
Cho, Min Y
Stern, Jacob J
Prota, Andrea E
Kampmann, Martin
Akhmanova, Anna
Steinmetz, Michel O
Tanenbaum, Marvin E
Weissman, Jonathan S
Jost, Marco
Chen, Yuwen
Gilbert, Luke A
Horlbeck, Max A
Krenning, Lenno
Menchon, Grégory
Rai, Ankit
Cho, Min Y
Stern, Jacob J
Prota, Andrea E
Kampmann, Martin
Akhmanova, Anna
Steinmetz, Michel O
Tanenbaum, Marvin E
Weissman, Jonathan S
Source :
Molecular Cell vol.79 (2020) date: 2020-07-02 nr.1 p.191-198.e3 [ISSN 1097-2765]
Publication Year :
2020

Abstract

We recently used CRISPRi/a-based chemical-genetic screens and cell biological, biochemical, and structural assays to determine that rigosertib, an anti-cancer agent in phase III clinical trials, kills cancer cells by destabilizing microtubules. Reddy and co-workers (Baker et al., 2020, this issue of Molecular Cell) suggest that a contaminating degradation product in commercial formulations of rigosertib is responsible for the microtubule-destabilizing activity. Here, we demonstrate that cells treated with pharmaceutical-grade rigosertib (>99.9% purity) or commercially obtained rigosertib have qualitatively indistinguishable phenotypes across multiple assays. The two formulations have indistinguishable chemical-genetic interactions with genes that modulate microtubule stability, both destabilize microtubules in cells and in vitro, and expression of a rationally designed tubulin mutant with a mutation in the rigosertib binding site (L240F TUBB) allows cells to proliferate in the presence of either formulation. Importantly, the specificity of the L240F TUBB mutant for microtubule-destabilizing agents has been confirmed independently. Thus, rigosertib kills cancer cells by destabilizing microtubules, in agreement with our original findings.

Details

Database :
OAIster
Journal :
Molecular Cell vol.79 (2020) date: 2020-07-02 nr.1 p.191-198.e3 [ISSN 1097-2765]
Notes :
DOI: 10.1016/j.molcel.2020.06.008, Molecular Cell vol.79 (2020) date: 2020-07-02 nr.1 p.191-198.e3 [ISSN 1097-2765], English
Publication Type :
Electronic Resource
Accession number :
edsoai.on1367140826
Document Type :
Electronic Resource