Characterization and identification of epididymal factors that protect ejaculated bovine sperm during in vitro storage.

The role of secretory epididymal factors on sperm survival and storage in bovine cauda epididymides is poorly understood. Thus, the effects of bovine epididymal epithelium fluid (BEEF) on frozen-thawed bovine sperm motility have been evaluated in vitro. Sperm motion parameters were assessed by computer-assisted sperm analysis. Compared with serum bovine proteins, BEEF efficiently sustained bovine sperm motility after a 6-h incubation period. The positive effect of BEEF on sperm motility was even more apparent using a fractionated BEEF extract (>10 kDa, 2 mg/ml). This beneficial effect was abolished when the BEEF active fraction was heat treated before incubation. A minimal 2-h BEEF preincubation period was necessary to maintain sperm motility activity and to protect sperm against oxidative injury caused by 150 microM hydrogen peroxide. The proteins from the BEEF >10-kDa fractions were biotinylated to identify the proteins that bind to the sperm surface. Five specific sperm-surface-binding proteins were revealed by Western blot analysis probed with avidin-horseradish peroxidase conjugate. These proteins were digested with trypsin for identification by matrix-assisted laser desorption ionization time-of-flight peptide mass spectrometric analyzer. Under reducing conditions, 5 bovine proteins were identified: the beta (36-kDa spot) and alpha (38-kDa spot) chains of clusterin, the beta-adrenergic receptor kinase 2 (48-kDa spot), and the antithrombin-III and the fibrinogen gamma-B chains, both corresponding to a doublet of about 50-52 kDa. These proteins are known to be present at the sperm surface in other species and could play a role in sperm protection in vivo. These results provide new insights to explain how secretory epididymal proteins sustain sperm motility during storage in vitro.