Effect of arachidonic acid on pre- and post-hatching in vitro bovine embryo development.

CONTEXT: Arachidonic acid (AA) is the precursor of prostaglandins, which may play autocrine roles during early embryo development. AIMS: To test the developmental effects of addition of AA to pre- and post-hatching culture media on in vitro -produced bovine embryos. METHODS: Pre-hatching effects of AA were tested by culturing bovine zygotes in synthetic oviductal fluid (SOF) supplemented with 100 or 333µM AA. Post-hatching effects of AA were tested by culturing Day 7 blastocysts in N2B27 supplemented with 5, 10, 20 or 100µM AA up to Day 12. KEY RESULTS: Pre-hatching development to blastocyst was completely abrogated at 333µM AA, whereas blastocyst rates and cell numbers were not altered at 100µM AA. Impaired post-hatching development was observed at 100µM AA, whereas no effect on survival rates was noted at 5, 10 and 20µM AA. However, a significant reduction in Day 12 embryo size was observed at 10 and 20µM AA. Hypoblast migration, epiblast survival and formation of embryonic-disc-like structures were unaffected at 5-10µM AA. AA exposure downregulated the genes PTGIS , PPARG , LDHA and SCD in Day 12 embryos. CONCLUSIONS: Pre-hatching embryos are mostly irresponsive to AA, whereas AA was observed to have negative effects during early post-hatching development. IMPLICATIONS: AA does not improve in vitro bovine embryo development and is not required up to early post-hatching stages.

Pre-hatching exposure to N2B27 medium improves post-hatching development of bovine embryos in vitro.

Ungulate embryos undergo critical cell differentiation and proliferation events around and after blastocyst hatching. Failures in these processes lead to early pregnancy losses, which generate an important economic impact on farming. Conventional embryo culture media, such as SOF, are unable to support embryo development beyond hatching. In contrast, N2B27 medium supports early post-hatching development, evidencing a swift in embryonic nutritional requirements during this developmental window. Here, we investigate if earlier exposure to N2B27 could improve embryo development after hatching. Embryo culture in N2B27 from day (D) 5, 6 or 7 significantly enhanced complete hypoblast migration (>45 vs. ∼24%) and epiblast development into an embryonic disc (ED)-like structure at D12 (>40 vs. 23%), compared to embryos cultured in SOF up to D9. Culture in N2B27 from D5 significantly increased epiblast and hypoblast cell number in D8 blastocysts, but post-hatching embryos cultured in N2B27 from D5 or 6 frequently showed a disorganized distribution of epiblast cells. In conclusion, bovine embryo culture in N2B27 from D7 onwards improves subsequent post-hatching development. This improved fully in vitro system will be very useful to functionally explore cell differentiation mechanisms and the bases of early pregnancy failures without requiring animal experimentation.