Long-term phenotypic effects following vitrified-thawed embryo transfer in a rabbit model

Abstract

AbstractSince the first human was conceived through in vitro fertilisation in 1978, over 6.5 million babies have been born by assisted reproductive technologies (ARTs). Although most ART babies and children seem healthy, in recent years several studies have evidenced a potential impact of ARTs on long-term development and health. Herein, we have developed an animal model to determine whether vitrified embryo transfer procedure induces phenotypic changes over the growth performance and in the complementary transcriptomic and proteomic analyses at hepatic level. To this end, 2 populations were developed; vitrified embryos transferred to the surrogate mothers (VT) and naturally conceived animals (NC). After delivery, animals were weighed weekly from 1 to 20 weeks of age. In adulthood, animals were euthanized and organs were harvested and weighed. After that, liver tissue was used to identify changes in the transcriptomic and proteomic profile. At adulthood, VT group showed significant lower body, liver and heart weight. After functional analysis of RNA-Seq data, a subset of 96 differentially expressed transcripts in VT animal were related to alteration in zinc homeostasis, lipid metabolism, and hepatic immune pathways. After proteomic analysis, a subset of 76 differentially expressed proteins also revealed some disturbed metabolic pathways related with the lipid and glycan metabolism, and an impaired oxidative metabolism related to ATP synthesis in the mitochondria. Current findings suggest that progeny derived after transfer of vitrified embryos have long-term consequences on growth rate and vital organs weights in adulthood, correlated with molecular signatures at transcriptomic and proteomic level of hepatic tissue.