Abstract
To investigate the mechanisms underlying our recent paradoxical finding that mitotically incapacitated and genomically unstable polyploid giant cancer cells (PGCCs) are capable of tumor initiation, we labeled ovarian cancer cells with α-tubulin fused to green fluorescent protein, histone-2B fused to red fluorescent protein and FUCCI (fluorescent ubiquitination cell cycle indicator), and tracked the spatial and time-dependent change in spindle and chromosomal dynamics of PGCCs using live-cell fluorescence time-lapse recording. We found that single-dose (500 nm) treatment with paclitaxel paradoxically initiated endoreplication to form PGCCs after massive cell death. The resulting PGCCs continued self-renewal via endoreplication and further divided by nuclear budding or fragmentation; the small daughter nuclei then acquired cytoplasm, split off from the giant mother cells and acquired competency in mitosis. FUCCI showed that PGCCs divided via truncated endoreplication cell cycle (endocycle or endomitosis). Confocal microscopy showed that PGCCs had pronounced nuclear fragmentation and lacked expression of key mitotic proteins. PGCC-derived daughter cells were capable of long-term proliferation and acquired numerous new genome/chromosome alterations demonstrated by spectral karyotyping. These data prompt us to conceptualize a giant cell cycle composed of four distinct but overlapping phases, initiation, self-renewal, termination and stability. The giant cell cycle may represent a fundamental cellular mechanism to initiate genomic reorganization to generate new tumor-initiating cells in response to chemotherapy-induced stress and contributes to disease relapse.
Highlights
Cell cycle represents a series of events that take place in a cell to faithfully replicate the genetic materials and to distribute them to the daughter cells
polyploid giant cancer cells (PGCCs) growth after PTX treatment cell was blocked at the mitosis and switched endoreplication and
Day 0 refers to S3A and B), we found that two nuclei cells before treatment; day 1 refers to the first day after exposure budded sequentially from a multinucleated PGCC and to PTX
Summary
Cell cycle represents a series of events that take place in a cell to faithfully replicate the genetic materials and to distribute them to the daughter cells. The best known cell cycle is mitotic cell cycle, which involves several distinct phases including DNA synthesis (S) and distribution of replicated DNAs to two identical daughter cells via mitosis (M) with the intervening gap phase (G). Continued DNA replication via endoreplication cell cycle invariably leads to a polyploid genome and an increase in cell size to generate mono- or multinucleated giant cells.[1,2,3,4] The endoreplication cell cycle and their variants play important role in Drosophila and plant development, several mammalian cells organs including megakaryocytes, placenta and liver.[1,2,3,4,5]
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