Modulation of sperm capacitation enhances blastocyst hatching in bovine in vitro fertilization
Briski, O.; Fagali Franchi, F.; Piga, E.; Franciosi, F.; Nag Bonumallu, S. K.; Baro Graf, c.; Lode, V.; Luciano, A. M.; Krapf, D.
Show abstract
In vitro fertilization (IVF) is key for genetic improvement programs in bovine. However, embryos produced through IVF have lower developmental competence than those produced under in vivo conditions. Conventional sperm preparation for IVF typically relies on heparin for sperm capacitation but fails to replicate the finely tuned molecular environment of the oviduct, resulting in compromised embryonic competence. Here, we evaluated the effect of HyperBull, a novel capacitation technology, on bovine IVF outcomes using unsorted cryopreserved semen. In a split-sample design, 528 cumulus-oocyte complexes were co-incubated with either control or HyperBull capacitated spermatozoa from the same bull. While overall blastocyst rates were not significantly different between groups (34.21% HyperBull vs. 28.63% control, p=0.148), the proportion of hatched embryos was significantly higher in the HyperBull group (15.82% vs. 9.13%, p=0.016). These findings suggest that modulating capacitation signals prior to insemination enhances embryonic developmental competence, thereby improving readiness for implantation. HyperBull may thus represent a valuable tool to increase the efficiency of IVF programs.
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