The association of resveratrol and AFPI did not enhance the cryoresistance of ram sperm.
Viviane Lopes BrairLucas Francisco Leodido CorreiaNathalia Oliveira BarbosaRachel Ferreira BragaAugusto Ryonosuke TairaAndreza Amaral da SilvaFelipe Zandonadi BrandãoRodolfo UngerfeldJoanna Maria Gonçalves Souza-FabjanPublished in: Animal reproduction (2024)
Cryoprotectants are required to reduce damage caused to the cells due to low temperatures during the cryopreservation. Antifreeze proteins (AFP) have a well-known role in cell membrane protection, while resveratrol is a potent antioxidant. This study assessed the effect of the association of resveratrol concentrations and AFP I in a ram semen extender. Pooled semen of four rams was allocated into six treatments in a factorial arrangement: (CONT, only the semen extender); only AFP I (ANT: 0.1 µg/mL of AFP I), only resveratrol, one treatment with two levels (10 µM/mL or 50 µM/mL of resveratrol); and two treatments with the interactions, with one AFP I and one of the two levels of resveratrol (0.1 µg/mL of AFP I with 10 µM/mL resveratrol; 0.1 µg/mL of AFP I with 50 µM/mL resveratrol). No interaction between factors was observed on sperm kinetics, plasma membrane integrity, hypo-osmotic test, and mitochondrial activity parameters. There was a high probability ( P = 0.06) of reducing sperm cells with functional membrane percentage in the hypo-osmotic test and increasing the percentage of sperm with high mitochondrial activity ( P = 0.07) was observed in AFP presence. An interaction of AFP and resveratrol was observed in non-capacitated sperm ( P = 0.009), acrosomal reaction ( P = 0.034), and sperm binding ( P = 0.04). In conclusion, the association of resveratrol and AFP did not improve the quality of frozen-thawed semen and even promoted deleterious effects compared to their single addition in the semen extender. The supplementation of 50 µM/mL of resveratrol improved the outcomes of frozen-thawed ram sperm, being a potential cryoprotectant.