Chromosomal instability sensitizes patient breast tumors to multipolar divisions induced by paclitaxel

Christina M. Scribano; Jun Wan; Karla Esbona; John B. Tucker; Amber Lasek; Amber S. Zhou; Lauren M. Zasadil; Ryan Molini; Jonathan Fitzgerald; Angela M. Lager; Jennifer J. Laffin; Kayla Correia-Staudt; Kari B. Wisinski; Amye J. Tevaarwerk; Ruth O’Regan; Stephanie M. McGregor; Amy M. Fowler; Richard J. Chappell; Tim S. Bugni; Mark E. Burkard; Beth A. Weaver

doi:10.1126/scitranslmed.abd4811

Chromosomal instability sensitizes patient breast tumors to multipolar divisions induced by paclitaxel

Christina M. Scribano
, Jun Wan
, Karla Esbona
, John B. Tucker
, Amber Lasek
, Amber S. Zhou
, Lauren M. Zasadil
, Ryan Molini
, Jonathan Fitzgerald
, Angela M. Lager
, Jennifer J. Laffin
, Kayla Correia-Staudt
, Kari B. Wisinski
, Amye J. Tevaarwerk
, Ruth O’Regan
, Stephanie M. McGregor
, Amy M. Fowler
, Richard J. Chappell
, Tim S. Bugni
, Mark E. Burkard

Beth A. Weaver

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

99 Scopus citations

Abstract

Paclitaxel (Taxol) is a cornerstone of cancer treatment. However, its mechanism of cytotoxicity is incompletely understood and not all patients benefit from treatment. We show that patients with breast cancer did not accumulate sufficient intratumoral paclitaxel to induce mitotic arrest in tumor cells. Instead, clinically relevant concentrations induced multipolar mitotic spindle formation. However, the extent of early multipolarity did not predict patient response. Whereas multipolar divisions frequently led to cell death, multipolar spindles focused into bipolar spindles before division at variable frequency, and maintaining multipolarity throughout mitosis was critical to induce the high rates of chromosomal instability necessary for paclitaxel to elicit cell death. Increasing multipolar divisions in paclitaxel resulted in improved cytotoxicity. Conversely, decreasing paclitaxel-induced multipolar divisions reduced paclitaxel efficacy. Moreover, we found that preexisting chromosomal instability sensitized breast cancer cells to paclitaxel. Both genetic and pharmacological methods of inducing chromosomal instability were sufficient to increase paclitaxel efficacy. In patients, the amount of pretreatment chromosomal instability directly correlated with taxane response in metastatic breast cancer such that patients with a higher rate of preexisting chromosomal instability showed improved response to taxanes. Together, these results support the use of baseline rates of chromosomal instability as a predictive biomarker for paclitaxel response. Furthermore, they suggest that agents that increase chromosomal instability or maintain multipolar spindles throughout mitosis will improve the clinical utility of paclitaxel.

Original language	English (US)
Article number	eabd4811
Journal	Science Translational Medicine
Volume	13
Issue number	610
DOIs	https://doi.org/10.1126/scitranslmed.abd4811
State	Published - Sep 8 2021
Externally published	Yes

Bibliographical note

Publisher Copyright:
Copyright © 2021 The Authors, some rights reserved;

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

Publisher link

10.1126/scitranslmed.abd4811

Find It

Find It at U of M Libraries

Cite this

Scribano, C. M., Wan, J., Esbona, K., Tucker, J. B., Lasek, A., Zhou, A. S., Zasadil, L. M., Molini, R., Fitzgerald, J., Lager, A. M., Laffin, J. J., Correia-Staudt, K., Wisinski, K. B., Tevaarwerk, A. J., O’Regan, R., McGregor, S. M., Fowler, A. M., Chappell, R. J., Bugni, T. S., ... Weaver, B. A. (2021). Chromosomal instability sensitizes patient breast tumors to multipolar divisions induced by paclitaxel. Science Translational Medicine, 13(610), Article eabd4811. https://doi.org/10.1126/scitranslmed.abd4811

Scribano, CM, Wan, J, Esbona, K, Tucker, JB, Lasek, A, Zhou, AS, Zasadil, LM, Molini, R, Fitzgerald, J, Lager, AM, Laffin, JJ, Correia-Staudt, K, Wisinski, KB, Tevaarwerk, AJ, O’Regan, R, McGregor, SM, Fowler, AM, Chappell, RJ, Bugni, TS, Burkard, ME & Weaver, BA 2021, 'Chromosomal instability sensitizes patient breast tumors to multipolar divisions induced by paclitaxel', Science Translational Medicine, vol. 13, no. 610, eabd4811. https://doi.org/10.1126/scitranslmed.abd4811

@article{3184d226c896410b98e9c534ec83a3a4,

title = "Chromosomal instability sensitizes patient breast tumors to multipolar divisions induced by paclitaxel",

abstract = "Paclitaxel (Taxol) is a cornerstone of cancer treatment. However, its mechanism of cytotoxicity is incompletely understood and not all patients benefit from treatment. We show that patients with breast cancer did not accumulate sufficient intratumoral paclitaxel to induce mitotic arrest in tumor cells. Instead, clinically relevant concentrations induced multipolar mitotic spindle formation. However, the extent of early multipolarity did not predict patient response. Whereas multipolar divisions frequently led to cell death, multipolar spindles focused into bipolar spindles before division at variable frequency, and maintaining multipolarity throughout mitosis was critical to induce the high rates of chromosomal instability necessary for paclitaxel to elicit cell death. Increasing multipolar divisions in paclitaxel resulted in improved cytotoxicity. Conversely, decreasing paclitaxel-induced multipolar divisions reduced paclitaxel efficacy. Moreover, we found that preexisting chromosomal instability sensitized breast cancer cells to paclitaxel. Both genetic and pharmacological methods of inducing chromosomal instability were sufficient to increase paclitaxel efficacy. In patients, the amount of pretreatment chromosomal instability directly correlated with taxane response in metastatic breast cancer such that patients with a higher rate of preexisting chromosomal instability showed improved response to taxanes. Together, these results support the use of baseline rates of chromosomal instability as a predictive biomarker for paclitaxel response. Furthermore, they suggest that agents that increase chromosomal instability or maintain multipolar spindles throughout mitosis will improve the clinical utility of paclitaxel.",

author = "Scribano, \{Christina M.\} and Jun Wan and Karla Esbona and Tucker, \{John B.\} and Amber Lasek and Zhou, \{Amber S.\} and Zasadil, \{Lauren M.\} and Ryan Molini and Jonathan Fitzgerald and Lager, \{Angela M.\} and Laffin, \{Jennifer J.\} and Kayla Correia-Staudt and Wisinski, \{Kari B.\} and Tevaarwerk, \{Amye J.\} and Ruth O{\textquoteright}Regan and McGregor, \{Stephanie M.\} and Fowler, \{Amy M.\} and Chappell, \{Richard J.\} and Bugni, \{Tim S.\} and Burkard, \{Mark E.\} and Weaver, \{Beth A.\}",

note = "Publisher Copyright: Copyright {\textcopyright} 2021 The Authors, some rights reserved;",

year = "2021",

month = sep,

day = "8",

doi = "10.1126/scitranslmed.abd4811",

language = "English (US)",

volume = "13",

journal = "Science Translational Medicine",

issn = "1946-6234",

publisher = "American Association for the Advancement of Science",

number = "610",

}

TY - JOUR

T1 - Chromosomal instability sensitizes patient breast tumors to multipolar divisions induced by paclitaxel

AU - Scribano, Christina M.

AU - Wan, Jun

AU - Esbona, Karla

AU - Tucker, John B.

AU - Lasek, Amber

AU - Zhou, Amber S.

AU - Zasadil, Lauren M.

AU - Molini, Ryan

AU - Fitzgerald, Jonathan

AU - Lager, Angela M.

AU - Laffin, Jennifer J.

AU - Correia-Staudt, Kayla

AU - Wisinski, Kari B.

AU - Tevaarwerk, Amye J.

AU - O’Regan, Ruth

AU - McGregor, Stephanie M.

AU - Fowler, Amy M.

AU - Chappell, Richard J.

AU - Bugni, Tim S.

AU - Burkard, Mark E.

AU - Weaver, Beth A.

PY - 2021/9/8

Y1 - 2021/9/8

N2 - Paclitaxel (Taxol) is a cornerstone of cancer treatment. However, its mechanism of cytotoxicity is incompletely understood and not all patients benefit from treatment. We show that patients with breast cancer did not accumulate sufficient intratumoral paclitaxel to induce mitotic arrest in tumor cells. Instead, clinically relevant concentrations induced multipolar mitotic spindle formation. However, the extent of early multipolarity did not predict patient response. Whereas multipolar divisions frequently led to cell death, multipolar spindles focused into bipolar spindles before division at variable frequency, and maintaining multipolarity throughout mitosis was critical to induce the high rates of chromosomal instability necessary for paclitaxel to elicit cell death. Increasing multipolar divisions in paclitaxel resulted in improved cytotoxicity. Conversely, decreasing paclitaxel-induced multipolar divisions reduced paclitaxel efficacy. Moreover, we found that preexisting chromosomal instability sensitized breast cancer cells to paclitaxel. Both genetic and pharmacological methods of inducing chromosomal instability were sufficient to increase paclitaxel efficacy. In patients, the amount of pretreatment chromosomal instability directly correlated with taxane response in metastatic breast cancer such that patients with a higher rate of preexisting chromosomal instability showed improved response to taxanes. Together, these results support the use of baseline rates of chromosomal instability as a predictive biomarker for paclitaxel response. Furthermore, they suggest that agents that increase chromosomal instability or maintain multipolar spindles throughout mitosis will improve the clinical utility of paclitaxel.

AB - Paclitaxel (Taxol) is a cornerstone of cancer treatment. However, its mechanism of cytotoxicity is incompletely understood and not all patients benefit from treatment. We show that patients with breast cancer did not accumulate sufficient intratumoral paclitaxel to induce mitotic arrest in tumor cells. Instead, clinically relevant concentrations induced multipolar mitotic spindle formation. However, the extent of early multipolarity did not predict patient response. Whereas multipolar divisions frequently led to cell death, multipolar spindles focused into bipolar spindles before division at variable frequency, and maintaining multipolarity throughout mitosis was critical to induce the high rates of chromosomal instability necessary for paclitaxel to elicit cell death. Increasing multipolar divisions in paclitaxel resulted in improved cytotoxicity. Conversely, decreasing paclitaxel-induced multipolar divisions reduced paclitaxel efficacy. Moreover, we found that preexisting chromosomal instability sensitized breast cancer cells to paclitaxel. Both genetic and pharmacological methods of inducing chromosomal instability were sufficient to increase paclitaxel efficacy. In patients, the amount of pretreatment chromosomal instability directly correlated with taxane response in metastatic breast cancer such that patients with a higher rate of preexisting chromosomal instability showed improved response to taxanes. Together, these results support the use of baseline rates of chromosomal instability as a predictive biomarker for paclitaxel response. Furthermore, they suggest that agents that increase chromosomal instability or maintain multipolar spindles throughout mitosis will improve the clinical utility of paclitaxel.

UR - https://www.scopus.com/pages/publications/85115153436

UR - https://www.scopus.com/pages/publications/85115153436#tab=citedBy

U2 - 10.1126/scitranslmed.abd4811

DO - 10.1126/scitranslmed.abd4811

M3 - Article

C2 - 34516829

AN - SCOPUS:85115153436

SN - 1946-6234

VL - 13

JO - Science Translational Medicine

JF - Science Translational Medicine

IS - 610

M1 - eabd4811

ER -

Chromosomal instability sensitizes patient breast tumors to multipolar divisions induced by paclitaxel

Abstract

Bibliographical note

UN SDGs

Publisher link

Find It

Other files and links

Fingerprint

Cite this