Crystal structure of the cyclostreptin-tubulin adduct: Implications for tubulin activation by taxane-site ligands

Francisco de Asís Balaguer; Tobias Mühlethaler; Juan Estévez-Gallego; Enrique Calvo; Juan Francisco Giménez-Abián; April L. Risinger; Erik J. Sorensen; Christopher D. Vanderwal; Karl Heinz Altmann; Susan L. Mooberry; Michel O. Steinmetz; María Ángela Oliva; Andrea E. Prota; J. Fernando Díaz

doi:10.3390/ijms20061392

Crystal structure of the cyclostreptin-tubulin adduct: Implications for tubulin activation by taxane-site ligands

Francisco de Asís Balaguer
, Tobias Mühlethaler
, Juan Estévez-Gallego
, Enrique Calvo
, Juan Francisco Giménez-Abián
, April L. Risinger
, Erik J. Sorensen
, Christopher D. Vanderwal
, Karl Heinz Altmann
, Susan L. Mooberry
, Michel O. Steinmetz
, María Ángela Oliva
, Andrea E. Prota
, J. Fernando Díaz

Research output: Contribution to journal › Article › peer-review

22 Scopus citations

Abstract

It has been proposed that one of the mechanisms of taxane-site ligand-mediated tubulin activation is modulation of the structure of a switch element (the M-loop) from a disordered form in dimeric tubulin to a folded helical structure in microtubules. Here, we used covalent taxane-site ligands, including cyclostreptin, to gain further insight into this mechanism. The crystal structure of cyclostreptin-bound tubulin reveals covalent binding to βHis229, but no stabilization of the M-loop. The capacity of cyclostreptin to induce microtubule assembly compared to other covalent taxane-site agents demonstrates that the induction of tubulin assembly is not strictly dependent on M-loop stabilization. We further demonstrate that most covalent taxane-site ligands are able to partially overcome drug resistance mediated by βIII-tubulin (βIII) overexpression in HeLa cells, and compare their activities to pironetin, an interfacial covalent inhibitor of tubulin assembly that displays invariant growth inhibition in these cells. Our findings suggest a relationship between a diminished interaction of taxane-site ligands with βIII-tubulin and βIII tubulin-mediated drug resistance. This supports the idea that overexpression of βIII increases microtubule dynamicity by counteracting the enhanced microtubule stability promoted by covalent taxane-site binding ligands.

Original language	English (US)
Article number	1392
Journal	International journal of molecular sciences
Volume	20
Issue number	6
DOIs	https://doi.org/10.3390/ijms20061392
State	Published - Mar 2 2019

Keywords

Cyclostreptin
Microtubules
Multidrug resistance
Taxanes
Tubulin

ASJC Scopus subject areas

Catalysis
Molecular Biology
Spectroscopy
Computer Science Applications
Physical and Theoretical Chemistry
Organic Chemistry
Inorganic Chemistry

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10.3390/ijms20061392

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Balaguer, F. D. A., Mühlethaler, T., Estévez-Gallego, J., Calvo, E., Giménez-Abián, J. F., Risinger, A. L., Sorensen, E. J., Vanderwal, C. D., Altmann, K. H., Mooberry, S. L., Steinmetz, M. O., Oliva, M. Á., Prota, A. E., & Díaz, J. F. (2019). Crystal structure of the cyclostreptin-tubulin adduct: Implications for tubulin activation by taxane-site ligands. International journal of molecular sciences, 20(6), Article 1392. https://doi.org/10.3390/ijms20061392

Balaguer, FDA, Mühlethaler, T, Estévez-Gallego, J, Calvo, E, Giménez-Abián, JF, Risinger, AL, Sorensen, EJ, Vanderwal, CD, Altmann, KH, Mooberry, SL, Steinmetz, MO, Oliva, MÁ, Prota, AE & Díaz, JF 2019, 'Crystal structure of the cyclostreptin-tubulin adduct: Implications for tubulin activation by taxane-site ligands', International journal of molecular sciences, vol. 20, no. 6, 1392. https://doi.org/10.3390/ijms20061392

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title = "Crystal structure of the cyclostreptin-tubulin adduct: Implications for tubulin activation by taxane-site ligands",

abstract = "It has been proposed that one of the mechanisms of taxane-site ligand-mediated tubulin activation is modulation of the structure of a switch element (the M-loop) from a disordered form in dimeric tubulin to a folded helical structure in microtubules. Here, we used covalent taxane-site ligands, including cyclostreptin, to gain further insight into this mechanism. The crystal structure of cyclostreptin-bound tubulin reveals covalent binding to βHis229, but no stabilization of the M-loop. The capacity of cyclostreptin to induce microtubule assembly compared to other covalent taxane-site agents demonstrates that the induction of tubulin assembly is not strictly dependent on M-loop stabilization. We further demonstrate that most covalent taxane-site ligands are able to partially overcome drug resistance mediated by βIII-tubulin (βIII) overexpression in HeLa cells, and compare their activities to pironetin, an interfacial covalent inhibitor of tubulin assembly that displays invariant growth inhibition in these cells. Our findings suggest a relationship between a diminished interaction of taxane-site ligands with βIII-tubulin and βIII tubulin-mediated drug resistance. This supports the idea that overexpression of βIII increases microtubule dynamicity by counteracting the enhanced microtubule stability promoted by covalent taxane-site binding ligands.",

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note = "Publisher Copyright: {\textcopyright} 2019 by the authors. Licensee MDPI, Basel, Switzerland.",

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T2 - Implications for tubulin activation by taxane-site ligands

AU - Balaguer, Francisco de Asís

AU - Mühlethaler, Tobias

AU - Estévez-Gallego, Juan

AU - Calvo, Enrique

AU - Giménez-Abián, Juan Francisco

AU - Risinger, April L.

AU - Sorensen, Erik J.

AU - Vanderwal, Christopher D.

AU - Altmann, Karl Heinz

AU - Mooberry, Susan L.

AU - Steinmetz, Michel O.

AU - Oliva, María Ángela

AU - Prota, Andrea E.

AU - Díaz, J. Fernando

PY - 2019/3/2

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N2 - It has been proposed that one of the mechanisms of taxane-site ligand-mediated tubulin activation is modulation of the structure of a switch element (the M-loop) from a disordered form in dimeric tubulin to a folded helical structure in microtubules. Here, we used covalent taxane-site ligands, including cyclostreptin, to gain further insight into this mechanism. The crystal structure of cyclostreptin-bound tubulin reveals covalent binding to βHis229, but no stabilization of the M-loop. The capacity of cyclostreptin to induce microtubule assembly compared to other covalent taxane-site agents demonstrates that the induction of tubulin assembly is not strictly dependent on M-loop stabilization. We further demonstrate that most covalent taxane-site ligands are able to partially overcome drug resistance mediated by βIII-tubulin (βIII) overexpression in HeLa cells, and compare their activities to pironetin, an interfacial covalent inhibitor of tubulin assembly that displays invariant growth inhibition in these cells. Our findings suggest a relationship between a diminished interaction of taxane-site ligands with βIII-tubulin and βIII tubulin-mediated drug resistance. This supports the idea that overexpression of βIII increases microtubule dynamicity by counteracting the enhanced microtubule stability promoted by covalent taxane-site binding ligands.

AB - It has been proposed that one of the mechanisms of taxane-site ligand-mediated tubulin activation is modulation of the structure of a switch element (the M-loop) from a disordered form in dimeric tubulin to a folded helical structure in microtubules. Here, we used covalent taxane-site ligands, including cyclostreptin, to gain further insight into this mechanism. The crystal structure of cyclostreptin-bound tubulin reveals covalent binding to βHis229, but no stabilization of the M-loop. The capacity of cyclostreptin to induce microtubule assembly compared to other covalent taxane-site agents demonstrates that the induction of tubulin assembly is not strictly dependent on M-loop stabilization. We further demonstrate that most covalent taxane-site ligands are able to partially overcome drug resistance mediated by βIII-tubulin (βIII) overexpression in HeLa cells, and compare their activities to pironetin, an interfacial covalent inhibitor of tubulin assembly that displays invariant growth inhibition in these cells. Our findings suggest a relationship between a diminished interaction of taxane-site ligands with βIII-tubulin and βIII tubulin-mediated drug resistance. This supports the idea that overexpression of βIII increases microtubule dynamicity by counteracting the enhanced microtubule stability promoted by covalent taxane-site binding ligands.

KW - Cyclostreptin

KW - Microtubules

KW - Multidrug resistance

KW - Taxanes

KW - Tubulin

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JO - International journal of molecular sciences

JF - International journal of molecular sciences

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ER -

Crystal structure of the cyclostreptin-tubulin adduct: Implications for tubulin activation by taxane-site ligands

Abstract

Keywords

ASJC Scopus subject areas

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