HH5 double-carrier embryos fail to progress through early conceptus elongation.

ABSTRACT

Massive genotyping in cattle has uncovered several deleterious haplotypes that cause preterm mortality. Holstein haplotype 5 (HH5) is a deleterious haplotype present in the Holstein Friesian population that involves the ablation of the transcription factor B1 mitochondrial (TFB1M) gene. The developmental stage at which HH5 double-carrier (DC, homozygous) embryos or fetuses die remains unknown and this is a relevant information to estimate the economic losses associated with the inadvertent cross between carriers. To determine whether HH5 DC survive to maternal recognition of pregnancy, embryonic day (E) 14 embryos were flushed from superovulated carrier cows inseminated with a carrier bull. Double-carrier E14 conceptuses were recovered at Mendelian rates but they failed to achieve early elongation, as evidenced by a drastic reduction of their extra-embryonic membranes, which were >26-fold shorter than those of carrier or noncarrier embryos. To assess development at earlier stages, TFB1M knockout (KO) embryos-functionally equivalent to DC embryos-were generated by clustered regularly interspaced short palindromic repeats (CRISPR) technology and cultured to the blastocyst stage, in vitro culture day (D) 8, and to the early embryonic disc stage, D12. No significant effect of TFB1M ablation was observed on the differentiation and proliferation of embryonic lineages and relative mitochondrial DNA (mtDNA) content up to D12. In conclusion, HH5 DC embryos are able to develop to early embryonic disc stage but fail to undergo early conceptus elongation, which is required for pregnancy recognition.