Estrous sheep serum as a potent agent for ovine IVF: Effect on cholesterol efflux from spermatozoa and the acrosome reaction

Abstract

The aim of the present study was to evaluate the effect of heat-inactivated estrous sheep serum (ESS) on sheep IVF. When the capacitation and the fertilization media contained 20% ESS, a fertilization rate of 85% was achieved. The beneficial effect of ESS on sheep IVF was further demonstrated since the fertilization rate was null when ESS was omitted during sperm capacitation and fertilization. Estrous sheep serum supported both sperm capacitation and fertilization as shown by the results of experiments in which it was omitted during one of these steps: sperm capacitation in serum-free medium resulted in delayed sperm-oocyte penetration, while fertilization in serum-free medium significantly decreased the percentage of fertilized oocytes. To investigate the influence of serum on sperm ability to undergo the acrosome reaction, salt-stored follicular sheep oocytes were inseminated, and the acrosomal status of spermatozoa attached to zonae was examined by electron microscopy after a 4-h period of coincubation. Quantitative analysis on thin sections demonstrated that fewer acrosome-reacted spermatozoa were observed when the capacitation and insemination steps were carried out in DM-H medium without serum than in DM-H-SS supplemented with 20% ESS (0.08, [0; 0.34], (median, range)/100μm zona vs 1.32, [0.90; 2.28]/100μm zona; P < 0.01). Since a higher number of spermatozoa attached to the zona surface in DM-H medium, the proportion of acrosome-reacted spermatozoa was much lower (0.7%, [0%; 2.2%], (median, range) vs 54%, [25%; 100%]; P < 0.01) in the absence of serum. These results indicate that in our IVF system the development of the acrosome reaction depended on serum. Sperm cholesterol efflux during in vitro capacitation was measured on [ 3H] cholesterol labeled spermatozoa resuspended in DM-H or DM-H-SS medium. A time-dependent cholesterol removal was observed in the presence of serum (60 ± 5%, mean ± SD, after 5 h), whereas it was limited to 14 ± 3 % in DM-H medium; hence addition of serum to the capacitation medium efficiently supports cholesterol efflux, which is thought to be a key-event in the capacitation process.