Structural Basis of Microtubule Stabilization by Discodermolide.
Andrea E ProtaKatja BargstenMariano Redondo-HorcajoAmos B SmithChia-Ping H YangHayley M McDaidIan PatersonSusan B HorwitzJosé Fernando DíazMichel O SteinmetzPublished in: Chembiochem : a European journal of chemical biology (2017)
Microtubule-stabilizing agents (MSAs) are widely used in chemotherapy. Using X-ray crystallography we elucidated the detailed binding modes of two potent MSAs, (+)-discodermolide (DDM) and the DDM-paclitaxel hybrid KS-1-199-32, in the taxane pocket of β-tubulin. The two compounds bind in a very similar hairpin conformation, as previously observed in solution. However, they stabilize the M-loop of β-tubulin differently: KS-1-199-32 induces an M-loop helical conformation that is not observed for DDM. In the context of the microtubule structure, both MSAs connect the β-tubulin helices H6 and H7 and loop S9-S10 with the M-loop. This is similar to the structural effects elicited by epothilone A, but distinct from paclitaxel. Together, our data reveal differential binding mechanisms of DDM and KS-1-199-32 on tubulin.