Termination of Protofilament Elongation by Eribulin Induces Lattice Defects that Promote Microtubule Catastrophes
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2016-07-11
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Abstract
Microtubules are dynamic polymers built of tubulin dimers that attach in a head-to-tail fashion to form protofilaments, which further associate laterally to form a tube. Asynchronous elongation of individual protofilaments can potentially lead to an altered microtubule-end structure that promotes sudden depolymerization, termed catastrophe [1-4]. However, how the dynamics of individual protofilaments relates to overall growth persistence has remained unclear. Here, we used the microtubule targeting anti-cancer drug Eribulin [5-7] to explore the consequences of stalled protofilament elongation on microtubule growth. Using X-ray crystallography, we first revealed that Eribulin binds to a site on β-tubulin that is required for protofilament plus-end elongation. Based on the structural information, we engineered a fluorescent Eribulin molecule. We demonstrate that single Eribulin molecules specifically interact with microtubule plus ends and are sufficient to either trigger a catastrophe or induce slow and erratic microtubule growth in the presence of EB3. Interestingly, we found that Eribulin increases the frequency of EB3 comet "splitting," transient events where a slow and erratically progressing comet is followed by a faster comet. This observation possibly reflects the "healing" of a microtubule lattice. Because EB3 comet splitting was also observed in control microtubules in the absence of any drugs, we propose that Eribulin amplifies a natural pathway toward catastrophe by promoting the arrest of protofilament elongation.
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Taverne, SDG 3 - Good Health and Well-being
Citation
Doodhi, H, Prota, A E, Rodríguez-García, R, Xiao, H, Custar, D W, Bargsten, K, Katrukha, E A, Hilbert, M, Hua, S, Jiang, K, Grigoriev, I, Yang, C-P H, Cox, D, Horwitz, S B, Kapitein, L C, Akhmanova, A & Steinmetz, M O 2016, 'Termination of Protofilament Elongation by Eribulin Induces Lattice Defects that Promote Microtubule Catastrophes', Current Biology, vol. 26, no. 13, pp. 1713-1721. https://doi.org/10.1016/j.cub.2016.04.053