Abstract
Chromosomal aneuploidies are a major cause of developmental failure and pregnancy loss. To investigate the possible consequences of aneuploidy on early embryonic development in vitro, we focused on primed pluripotent stem cells that are relatable to the epiblast of post-implantation embryos in vivo. We used human induced pluripotent stem cells (iPSCs) as an epiblast model and altered chromosome numbers by treating with reversine, a small-molecule inhibitor of monopolar spindle 1 kinase (MSP1) that inactivates the spindle assembly checkpoint, which has been strongly implicated in chromosome mis-segregation and aneuploidy generation. Upon reversine treatment, we obtained cells with varied chromosomal content that retained pluripotency and potential to differentiate into cells of three germ lineages. However, these cells displayed lagging chromosomes, increased micronuclei content, high p53 expression and excessive apoptotic activity. Cell proliferation was not affected. Prolonged in vitro culture of these cells resulted in a selective pool of cells with supernumerary chromosomes, which exhibited cellular hypertrophy, enlarged nuclei, and overproduction of total RNAs and proteins. We conclude that increased DNA damage responses, apoptosis, and improper cellular mass and functions are possible mechanisms that contribute to abnormal epiblast development.
Published Version
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