Centrosome amplification, the presence of more than two centrosomes in a cell is a common feature of most human cancer cell lines. However, little is known about centrosome numbers in human cancers and whether amplification or other numerical aberrations are frequently present. To address this question, we have analyzed a large cohort of primary human epithelial ovarian cancers (EOCs) from 100 patients. We found that rigorous quantitation of centrosome number in tumor samples was extremely challenging due to tumor heterogeneity and extensive tissue disorganization. Interestingly, even if centrosome clusters could be identified, the incidence of centrosome amplification was not comparable to what has been described in cultured cancer cells. Surprisingly, centrosome loss events where a few or many nuclei were not associated with centrosomes were clearly noticed and overall more frequent than centrosome amplification. Our findings highlight the difficulty of characterizing centrosome numbers in human tumors, while revealing a novel paradigm of centrosome number defects in EOCs.
Centrosome amplification has been described as a common feature of human cancers and it is known to promote tumorigenesis when induced in animals.However, little is known about the real status of centrosome numbers in human cancers and whether numerical alterations are solely associated with poor prognosis. To address this question, we have analyzed a large cohort of human epithelial ovarian cancers (EOCs) from 100 patients using state-of-the-art microscopy to determine the Centrosome-Nucleus Index (CNI) of each tumor. We found that EOCs are highly heterogeneous, with infrequent but strong centrosome amplifications leading to higher CNI than in healthy tissues. Strikingly, while a correlation between CNI and genomic alterations, such as aneuploidy or chromosome rearrangements could not be established, we found that high CNI correlates with increased patient survival and sensitivity to chemotherapy. Using ovarian cancer cellular models to manipulate centrosome numbers and Patient-Derived Xenografts (PDXs), we found that higher CNIs can positively impact the response to chemotherapy and inhibit cell dissemination. Our findings highlight a novel paradigm linking centrosome amplification to the inhibition of tumor progression.
Epithelial ovarian cancer (EOC) is the most lethal gynecologic malignancy. The most common subtype of EOC is high-grade serous (HGSOC), which responds at least initially to chemotherapy but has a worse overall prognosis. Genomic, transcriptomic, and proteogenomic profiling of HGSOC suggested a whole spectrum of molecular diversity, including homologous recombination pathway deficiencies (HRD). The centrosome is the main microtubule (MT)-organizing center of animal cells. It facilitates the accuracy of chromosome segregation during mitosis and influences cell polarity and migration. The presence of more than two centrosomes in a cell, centrosome amplification, has long been associated with tumorigenesis. However, little is known about the real status of centrosome numbers in human cancers and whether numerical alterations are solely associated with poor prognosis. We screened 100 samples of primary EOCs including 88 HGSOC, using immunofluorescence and state-of-the-art microscopy, to determine the centrosome-nucleus index (CNI). We integrated these data with genomic alterations, HRD status, and patient outcome. We found that EOCs are highly heterogeneous, with infrequent but strong centrosome amplifications leading to higher CNI than in healthy tissues. Strikingly, while a correlation between CNI and genomic alterations, such as aneuploidy or chromosome rearrangements, could not be established, we found that high CNI correlates with increased patient survival and sensitivity to chemotherapy, independently of HRD status. Using ovarian cancer cellular models to manipulate centrosome numbers and patient-derived xenografts (PDXs), we found that higher CNIs can positively impact the response to chemotherapy and inhibit peritoneal cell dissemination. Citation Format: Jean-Philippe Morretton, Aurelie Herbette, Camille Cosson, Bassirou Mboup, Aurelien Latouche, Pierre Gestraud, Tatiana Popova, Marc-Henri Stern, Fariba Nemati, Didier Decaudin, Guillaume Bataillon, Veronique Becette, Didier Meseure, Andre Nicolas, Odette Mariani, Claire Bonneau, Jorge Barbazan, Anne Vincent-Salomon, Fatima Mechta-Grigoriou, Sergio Roman-Roman, Roman Rouzier, Xavier Sastre-Garau, Oumou Goundiam, Renata Basto. Centrosome amplification favors survival and impairs ovarian cancer progression [abstract]. In: Proceedings of the AACR Special Conference on Advances in Ovarian Cancer Research; 2019 Sep 13-16, 2019; Atlanta, GA. Philadelphia (PA): AACR; Clin Cancer Res 2020;26(13_Suppl):Abstract nr A43.
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