Abstract
Tetraploidy, resulting from a single whole-genome duplication (WGD) event, contributes to tumorigenesis by promoting genomic instability and functional diversity. In general, WGD beyond tetraploidy limits proliferative and tumorigenic potential, but an increasing number of studies suggest that polyploid giant cancer cells (PGCCs)-large, highly polyploid (≥8N) cells formed in response to chemotherapy-produce daughter cells with reduced DNA content that drive cancer progression. In this opinion article, we examine the literature on tetraploid cells and PGCCs from a cell biology perspective. It is our opinion that the role of tetraploidy in cancer is supported by findings from cell lines, animal models, and tumor sequencing data, while definitive evidence that viable progeny from PGCCs can promote cancer progression in human tumors is lacking.