TEAD4 is Dispensable for Bovine Conceptus Elongation

Pérez-Gómez A., Tüten Sevim E., González-Brusi L., Lamas-Toranzo I., Gabriela Hamze J., Galiano-Cogolludo B., ...Daha Fazla

19th International Congress on Animal Reproduction, Bologna, İtalya, 26 - 30 Haziran 2022, ss.177

  • Yayın Türü: Bildiri / Özet Bildiri
  • Basıldığı Şehir: Bologna
  • Basıldığı Ülke: İtalya
  • Sayfa Sayıları: ss.177
  • Akdeniz Üniversitesi Adresli: Evet

Özet

BACKGROUND-AIM

TEAD4 plays an essential role on trophectoderm (TE) differentiation in mice, where its ablation impedes blastocyst formation. However, in a previous study we found that bovine embryos lacking TEAD4 (TEAD4 KO) develop to blastocyst. The aim of this study was to determine if subsequent preimplantation development was affected by the ablation.

 

METHODS

In vitro matured bovine oocytes were injected with mRNA encoding for Cas9 and sgRNA against TEAD4 (C+G group). Following fertilization and embryo culture to D7, blastocysts were transferred to a Day 6.5 recipient ewe. Nine days after ET, conceptuses were recovered at a stage developmentally equivalent to bovine E14. Recovered conceptuses were measured, fixed and subjected to immunocytochemistry (ICC) to determine lineage development using antibodies for CDX2 (TE), SOX17 (hypoblast) and SOX2 (epiblast). Following ICC embryos

from C+G group were genotyped by clonal sequencing to determine which harbored only frame-disrupting alleles on TEAD4 sequence (i.e. KO alleles).

 

RESULTS

32 Day 7 bovine blastocyst developed in vitro following microinjection were transferred to both sides of the uterus (16+16) of a recipient ewe. Nine days after ET 14 conceptuses (7+7) were recovered by uterine flushing. All conceptuses were edited, 3 harbored at least one in-frame (non-KO) allele and 11/14 were KO. The development of extraembryonic membranes (TE+hypoblast) was not affected by the ablation, as conceptus length was comparable between KO and non-KO conceptuses (10.9±3 vs. 9.8±2.3 mm, mean±s.e.m. for non-KO vs. KO, respectively, t-test p>0.05) and all conceptuses but one KO (the smallest embryo) showed complete hypoblast migration along the inner surface of the TE. A SOX2+ embryonic disc (ED) was detected in all conceptuses but one KO (the same smallest embryo), and ED diameter was similar in both groups (260±82 vs. 229±33 μm, mean±s.e.m. for non-KO and KO, respectively, t-test p>0.05).

 

CONCLUSIONS


In contrast with the crucial role observed in murine embryos, bovine embryos do not require TEAD4 for trophectoderm specification and maintenance up to tubular stages.