Centrosome amplification primes for apoptosis and favors the response to chemotherapy in ovarian cancer beyond multipolar divisions

• Published in: Nature communications Vol. 14; no. 1
• Main Authors: Edwards, Frances, Fantozzi, Giulia, Morretton, Jean-Philippe, Herbette, Aurelie, Tijhuis, Andréa, Wardenaar, René, Foulane, Stacy, Gemble, Simon, Spierings, Diana C.J., Foijer, Floris, Mariani, Odette, Vincent-Salomon, Anne, Roman, Sergio Roman, Sastre-Garau, Xavier, Goundiam, Oumou, Basto, Renata
• Format: Journal Article
• Language: English
• Published: Nature Publishing Group 29.07.2023
• Subjects: Life Sciences
• ISSN: 2041-1723; 2041-1723
• DOI: 10.1101/2023.07.28.550973

ABSTRACT Centrosome amplification is a feature of cancer cells associated with chromosome instability and invasiveness. Enhancing chromosome instability and subsequent cancer cell death via centrosome unclustering and multipolar divisions is an aimed-for therapeutic approach. Here we show that centrosome amplification favors responses to conventional chemotherapy independently of multipolar divisions and chromosome instability. We perform single-cell live imaging of chemotherapy responses in epithelial ovarian cancer cell lines and observe increased cell death when centrosome amplification is induced. By correlating cell fate with mitotic behaviors, we show that enhanced cell death occurs independently of chromosome instability. We identify that cells with centrosome amplification are primed for apoptosis. We show they are dependent on the apoptotic inhibitor BCL-XL, and that this is not a consequence of mitotic stresses associated with centrosome amplification. Given the multiple mechanisms that promote chemotherapy responses in cells with centrosome amplification, we assess such a relationship in an epithelial ovarian cancer patient cohort. We show that high centrosome numbers associate with improved chemotherapy responses and longer overall survival. Our work identifies apoptotic priming as a clinically relevant consequence of centrosome amplification, expanding our understanding of this pleiotropic cancer cell feature.