Femtosecond laser-induced blastomere fusion results in embryo tetraploidy by common metaphase plate formation.

The cell fusion is a widespread process, which takes place in many systems in vivo and in vitro. Fusion of cells is frequently related to tetraploidy, which can be found within natural physiological conditions, e.g., placentation, and in pathophysiological conditions, such as cancer and early pregnancy failure in humans. Here we investigate the mechanism of tetraploidization with help of femtosecond laser-induced mouse blastomere fusion by the means of Hoechst staining, GFP, BODIPY dyes and fluorescent species generated intracellularly by a femtosecond laser. We establish diffusive mixing of cytosol, whereas the large components of a cytoplasm (organelles, cytoskeleton) are poorly diffusible and are not completely mixed after cell fusion and a subsequent division. We show that mechanisms which are responsible for the formation of a common metaphase plate triggered tetraploidization in fused mouse embryos and could be a significant factor in polyploidy formation in vivo. Thus, our results suggest that microtubules play a critical role in tetraploidization.