Improving breast cancer sensitivity to paclitaxel by increasing aneuploidy

Sylvie Rodrigues-Ferreira; Anne Nehlig; Hadia Moindjie; Clarisse Monchecourt; Cynthia Seiler; Elisabetta Marangoni; Sophie Chateau-Joubert; Marie-Eglantine Dujaric; Nicolas Servant; Bernard Asselain; Patricia de Cremoux; Magali Lacroix-Triki; Monica Arnedos; Jean-Yves Pierga; Fabrice André; Clara Nahmias

doi:10.1073/pnas.1910824116

New Research In

Edited by Rakesh K. Jain, Massachusetts General Hospital, Boston, MA, and approved October 14, 2019 (received for review June 24, 2019)

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Significance

Low levels of ATIP3 in breast tumors are associated with increased response to neoadjuvant chemotherapy, and ATIP3 silencing in breast cancer cells potentiates the effects of paclitaxel, highlighting the importance of this predictive biomarker to select breast cancer patients who are sensitive to taxane-based chemotherapy. ATIP3 depletion promotes mitotic abnormalities, including centrosome amplification and multipolar spindle formation, which is a source of chromosome segregation errors and aneuploidy. Excessive aneuploidy in ATIP3-deficient cells treated with low doses of paclitaxel results in massive cell death.

Abstract

Predictive biomarkers for tumor response to neoadjuvant chemotherapy are needed in breast cancer. This study investigates the predictive value of 280 genes encoding proteins that regulate microtubule assembly and function. By analyzing 3 independent multicenter randomized cohorts of breast cancer patients, we identified 17 genes that are differentially regulated in tumors achieving pathological complete response (pCR) to neoadjuvant chemotherapy. We focused on the MTUS1 gene, whose major product, ATIP3, is a microtubule-associated protein down-regulated in aggressive breast tumors. We show here that low levels of ATIP3 are associated with an increased pCR rate, pointing to ATIP3 as a predictive biomarker of breast tumor chemosensitivity. Using preclinical models of patient-derived xenografts and 3-dimensional models of breast cancer cell lines, we show that low ATIP3 levels sensitize tumors to the effects of taxanes but not DNA-damaging agents. ATIP3 silencing improves the proapoptotic effects of paclitaxel and induces mitotic abnormalities, including centrosome amplification and multipolar spindle formation, which results in chromosome missegregation leading to aneuploidy. As shown by time-lapse video microscopy, ATIP3 depletion exacerbates cytokinesis failure and mitotic death induced by low doses of paclitaxel. Our results favor a mechanism by which the combination of ATIP3 deficiency and paclitaxel treatment induces excessive aneuploidy, which in turn results in elevated cell death. Together, these studies highlight ATIP3 as an important regulator of mitotic integrity and a useful predictive biomarker for a population of chemoresistant breast cancer patients.

Footnotes

↵¹Present address: Inovarion SAS, 75013 Paris, France.
↵²To whom correspondence may be addressed. Email: clara.nahmias{at}inserm.fr.

Author contributions: S.R.-F. and C.N. designed research; S.R.-F., A.N., H.M., C.M., C.S., and P.d.C. performed research; E.M., S.C.-J., M.-E.D., N.S., B.A., P.d.C., J.-Y.P., and F.A. contributed new reagents/analytic tools; S.R.-F., A.N., H.M., C.M., C.S., E.M., M.-E.D., N.S., B.A., P.d.C., M.L.-T., M.A., J.-Y.P., F.A., and C.N. analyzed data; and S.R.-F. and C.N. wrote the paper.
The authors declare no competing interest.
This article is a PNAS Direct Submission.
This article contains supporting information online at www.pnas.org/lookup/suppl/doi:10.1073/pnas.1910824116/-/DCSupplemental.

Published under the PNAS license.

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