Characterization of Gelatinolytic Activity in Seminal Plasma of Some Teleost Fish

Abstract

Gelatin-containing SDS-PAGE combined with the incubation of gels in buffers containing protease inhibitors was performed for the visualization and characterization of proteolytic activity in teleost fish seminal plasma. To demonstrate the class of detected enzymes we used serine protease inhibitor – benzamidine or EDTA which inhibits metalloproteases activity. Additionally the effects of calcium ions on protease activity were investigated. Multiple gelatinolytic activities in seminal plasma of 10 teleost fish species from three orders (Cypriniformes, Salmoniformes, Perciformes) were found. Most proteases were either stimulated by Ca2+ and inhibited by EDTA or inhibited by benzamidine. This suggests that metalloproteases and serine proteases are major gelatinolytic proteases of fish seminal plasma. In cyprinid species we found a common profile of two gelatinolytic activities; the first band (60–66 kDa) belonged to metalloproteases, and the second one (76–81 kDa) belonged to serine proteases. Other bands were also visible and they represented mostly serine protease activity. Species from the Salmoniformes order showed a similarity in metalloproteases with molecular weights of about 64 and 75 kDa. Salmonid species also had similar serine proteases with molecular weights of about 102 and 165 kDa. In European grayling seminal plasma we found metalloproteases with molecular weight of 51, 57, 64, 70 kDa and two serine proteases activities of 35 and 125 kDa. Percid species had metalloproteases activities of 53 and 63 kDa and serine protease activity of 100 kDa. Protease of other, presently unknown classes were also found in seminal plasma of asp, chub, European grayling and pikeperch. The physiological role of seminal plasma proteases is still unknown.