Mechanisms and Consequences of Mitotic Mis-Segregation During Early Embryogenesis
Summary
Investigations into the relatively high frequency of spontaneous miscarriages have revealed
that chromosomal instability (CIN) is common in human preimplantation embryos. This
instability is characterised by an elevated rate of missegregation of whole chromosomes or
parts of chromosomes during mitosis, often resulting in aneuploidy. Aneuploidy is a
condition marked by an aberrant chromosome number in a cell and is particularly evident in
the initial three cleavages following fertilization. Interestingly, these observations provide
valuable insight into the challenges associated with successful fertility rates. However, the
underlying mechanisms driving early-stage embryonic aneuploidy and the fate of aneuploid
embryos remain unclear. Suggestions of protective mechanisms that act against aneuploid
cells, including apoptosis, preferential allocation, and trisomic rescue, among others, have
been proposed. Here again, a comprehensive understanding of these mechanisms is still
lacking. This review therefore aims to elucidate the established and strongly indicated causal
mechanisms of preimplantation embryo aneuploidy known thus far and discuss the potential
consequences and outcomes of impacted embryos. Exploring these mechanisms is crucial for advancing our understanding of human fertility and is instrumental in improving the success rates of human IVF by unveiling potential targetable mechanisms that are capable of
mitigating aneuploidy.