CDK2 inhibition produces a persistent population of polyploid cancer cells
Liliya Tyutyunyk-Massey, Zibo Chen, Xiuxia Liu, Masanori Kawakami, Adam Harned, Yeap Ng, Brian Luke, Samuel C. Okpechi, Blessing Ogunlade, Yair Alfaro, Roberto Weigert, Kedar Narayan, Xi Liu, Ethan Dmitrovsky
Liliya Tyutyunyk-Massey, Zibo Chen, Xiuxia Liu, Masanori Kawakami, Adam Harned, Yeap Ng, Brian Luke, Samuel C. Okpechi, Blessing Ogunlade, Yair Alfaro, Roberto Weigert, Kedar Narayan, Xi Liu, Ethan Dmitrovsky
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Research Article Oncology Therapeutics

CDK2 inhibition produces a persistent population of polyploid cancer cells

Abstract

Aneuploidy, a cancer hallmark, drives chromosomal instability, drug resistance, and clinically aggressive tumors. Cyclin-dependent kinase 2 (CDK2) antagonism with independent inhibitors or CDK2 knockdown triggered anaphase catastrophe. This disrupts supernumerary centrosome clustering, causing multipolar division and apoptosis. Time-lapse fluorescence microscopy of fluorescent ubiquitination-based cell cycle indicator (FUCCI) cell cycle probes transduced into aneuploid lung cancer cells revealed distinct fates of bipolar and polyploid cells after CDK2 inhibition. Apoptosis occurred in multipolar progeny but was repressed in persistent polyploid cancer cells. RNA-Seq analyses after CDK2 inhibition of 4N versus 2N lung cancer cells were enriched for CDK1 pathway and KIF family members. The Cancer Genome Atlas (TCGA) analysis of lung cancers indicated that CDK1 and KIF family member overexpression was associated with an unfavorable survival. Intravital microscopy of transplanted lung cancer cells in mice extended findings from the in vitro to in vivo settings. CDK2 inhibition of tumor-bearing mice produced polyploid cancer cells in vivo. These cancer cells were resistant to apoptosis and proliferated despite CDK2 inhibition. In contrast, polyploid populations were rarely detected in CDK2-inhibited human alveolar epithelial cells. These findings are translationally relevant. Combined targeting of CDK2 with CDK1 or kinesin family member antagonists should eliminate polyploid cancer cells, promote apoptosis, and augment antineoplastic effects.

Authors

Liliya Tyutyunyk-Massey, Zibo Chen, Xiuxia Liu, Masanori Kawakami, Adam Harned, Yeap Ng, Brian Luke, Samuel C. Okpechi, Blessing Ogunlade, Yair Alfaro, Roberto Weigert, Kedar Narayan, Xi Liu, Ethan Dmitrovsky

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Figure 4

Analysis of cell fates following the independent onset of multipolar mitosis in human and murine lung cancer cells.

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Analysis of cell fates following the independent onset of multipolar mit...
(A) This schematic summarizes the cancer cell fates that arise after the appearance of multipolar mitosis in CYC065-treated cancer cells (human H1299, A549, Hop62, and H522 as well as murine ED1SQ4 and 344SQ lung cancer cell lines) that led progeny to survive, exhibit mitotic catastrophe, elicit anaphase catastrophe, or develop failed cytokinesis followed by multinucleated cell formation. (B) Representative images are displayed for apoptotic human H1299 lung cancer cells treated with CYC065 (0.2 μM). Yellow fluorescence (mKO) and green fluorescence (Geminin) measured the presence of G0/G1and G2/M cell cycle phases, respectively. The purple stain (annexin V) indicated the onset of apoptosis. (C) Mitotic catastrophe as an outcome of multipolar mitosis is caused by CYC065 treatment relative to vehicle treatment. (D) Anaphase catastrophe occurred after multipolar mitosis after CYC065 versus vehicle treatments. (E) The accumulation of multinucleated cells was caused by CYC065 treatment as compared with vehicle treatment. Two-tailed Student’s t tests compared differences between study groups, with a P value below 0.05 deemed statistically significant. Data are shown as mean ± SD, with the symbols indicating *P < 0.05, **P < 0.01, ***P < 0.001, and ****P < 0.0001, respectively. Scale bars: 20 μm. Each arrow follows the fates of individual cancer cells over time.