Horse epididymal sperm has satisfactory motility activation (Mot-Act) after harvesting and cryopreservation; however, donkeys typically display poor Mot-Act despite high-plasma-membrane integrity (PMI) with high-mitochondrial-membrane-potential (ΔΨM). Mot-Act can be achieved in murine epididymal sperm with centrifugation by removal of sperm-bound seminal plasma (SP) proteins; also, in other mammals, the dilution of epididymal sperm with SP promotes Mot-Act. Dilution of cryopreserved sperm with an extender without cryoprotectants aids Mot-Act in other species. It is possible that all these methods can enhance donkey and horse epididymal Mot-Act and that there might be positive interactions between methods; however, these hypotheses have yet to be tested. Single-layer colloid-centrifugation (SLC) is a powerful tool to remove sperm-bound particles. Thus, this study sought to assess methods and potential interactions to promote Mot-Act in epididymal sperm by comparing an equid with satisfactory Mot-Act (i.e., the horse) with another poor Mot-Act (i.e., the donkey). Mot-Act, PMI, and ΔΨM were assessed by submitting horse and donkey cryopreserved sperm to re-extension (1:3) on the same egg-yolk extender used for cryopreservation (BC), also the same extender lacking CPA, and donkey- and horse-SP. The Mot-Act, PMI, and ΔΨM were carried out 10-, 30-, and 60-min after incubation. Results showed that donkey and horse epididymal sperm had lower Mot-Act, PMI, and ΔΨM when dilutedwith donkey- and horse-SP (P<0.05). Conversely, Mot-Act was similar between horse-SP, BC, and CPA (P>0.05), and it all increased after 10 min of incubation (P<0.05). PMI and ΔΨM were not different across groups in horse epididymal sperm (P>0.05). Then the same processing methods were applied before and after SLC for cryopreserved horse and donkey epididymal sperm, and then Mot-Act, PMI, and ΔΨM were assessed. The results showed that donkey epididymal sperm had higher Mot-Act when diluted in the same egg-yolk extender compared to donkey-SP or CPA (P<0.05); Horse epididymal sperm had lower PMI and ΔΨM when diluted in donkey-SP compared to BC and horse-SP (P<0.05). The sperm recovery after SLC was similar between donkey and horse epididymal sperm (P>0.05). Next, zona-pellucida binding was carried out as an in vitro functional assessment of Mot-Act, as it is necessary for fertilization. Dilution with SP from either species' sperm did not enhance zona-pellucida binding (P>0.05) as it does for other mammals. Previously, it was suggested that donkey sperm does not bind to heterologous zona-pellucida (i.e., bovine); however, herein, it did bind similarly to horse sperm (P<0.05). This study is a foundation to expand the knowledge in equine sperm biology, showing that donkey epididymal sperm can have Mot-Act enhanced using re-extension with BC, and other standard methods cannot. Also, this is the first report to demonstrate that donkey sperm binds to heterologous zona-pellucida.
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