LAUSR

Significance To investigate the epigenetic mechanism of pregnancy failure in mammals, we exploited the high rate of fetal loss in pig induced pluripotent stem cell (iPSC) nuclear transfer. We generated methylomes of pig iPSCs and associated nuclear transfer embryos from reciprocal crosses between two distinct pig breeds. Our methylome analysis revealed that misregulation of RTL1 as the principal basis of pregnancy failure using pig iPSCs. Remarkably, RTL1 has broad fertility implications across mouse, rat, pig, cattle, and human from nuclear transfer cloning, tetraploid complementation, and artificial insemination, to natural fertilization. In all of these procedures, low RTL1 expression consistently corresponds to pregnancy failures. Substantial rates of fetal loss plague all in vitro procedures involving embryo manipulations, including human-assisted reproduction, and are especially problematic for mammalian cloning where over 90% of reconstructed nuclear transfer embryos are typically lost during pregnancy. However, the epigenetic mechanism of these pregnancy failures has not been well described. Here we performed methylome and transcriptome analyses of pig induced pluripotent stem cells and associated cloned embryos, and revealed that aberrant silencing of imprinted genes, in particular the retrotransposon-derived RTL1 gene, is the principal epigenetic cause of pregnancy failure. Remarkably, restoration of RTL1 expression in pig induced pluripotent stem cells rescued fetal loss. Furthermore, in other mammals, including humans, low RTL1 levels appear to be the main epigenetic cause of pregnancy failure.