Abstract
Retrotransposable elements are implicated in genome rearrangements and gene expression alterations that result in various human disorders. In the current study, we sought to investigate the potential effects of long interspersed elements-1 (LINE-1) overexpression on the integrity and methylation of DNA and on the expression of three major pluripotency factors (OCT4, SOX2, NANOG) during the preimplantation stages of human embryo development. Human MI oocytes were matured in vitro to MII and transfected through intracytoplasmic sperm injection (ICSI) either with an EGFP vector carrying a cloned active human LINE-1 retroelement or with the same EGFP vector without insert as control. The occurrence of retrotransposition events was screened by fluorescent microscopy. The in vitro preimplantation development as well as the methylation, pluripotency, and DNA double-strand breaks (DSBs) of the transfected embryos were examined. LINE-1 retrotransposons gave rise to new retrotransposition events in the transfected embryos. LINE-1 injected embryos were characterized by accelerated asymmetrical cell division, multiple cellular fragments, cleavage arrest, and degeneration. Early OCT4 expression remained unaltered, but cleavage arrest and a high fragmentation rate hindered the expression of SOX2/NANOG at the morula stage. Increased DNA DSBs were observed in cleavage-stage blastomeres, while no methylation changes were detected before the cleavage arrest. Our data provide evidence that LINE-1 retrotransposition in human preimplantation embryos may induce DNA DSBs, while at the same time, it appears to interfere with the expression patterns of pluripotency factors. The morphological, structural, and cleavage abnormalities of the transfected embryos show that aberrant retroelement expression may negatively affect human embryo development.