Sire modulates developmental kinetics and transcriptome of the bovine embryo.

Abstract

The first week of gestation is a period of major pregnancy loss in cattle, this study reveals that the male plays a key role in regulating embryonic development during this time. The impact of sire on preimplantation embryonic development in cattle remains poorly understood. This study evaluated differences in embryos produced in vitro from sires with varying capacities to produce blastocysts. Sires classified as high (HP) and low performing (LP) based on their ability to produce embryos were used to better understand how sire regulates embryonic development. By monitoring development, it was determined that the most common arrest stage was the five- to six-cell stage. Embryos (four to six cells) from HP and LP sires were then analyzed for autophagic activity, where embryos for LP sires exhibited increased autophagy than HP-derived embryos. Transcriptome analysis of four-cell embryos found that embryos from LP sires might have issues in sperm mitochondrial clearance, histone retention, and DNA damage, while HP sires had increased expression of genes involved in transcription, chromosome segregation, and cell division. In conclusion, LP sires had an increased proportion of embryos arresting at the five- to six-cell stage, and these embryos had higher rates of cellular stress due to paternal contributions from the spermatozoon.