| Abstract: | Direct isolation of the sea urchin egg vitelline envelope with intact sperm receptors is difficult because the envelope is firmly attached to the egg plasma membrane. We now report a method for producing an inseminated egg preparation in Strongylocentrotus purpuratus (using soybean trypsin inhibitor [STI] and Ca2+, Mg2+-free seawater) that contains an elevated vitelline envelope (VE*-STI). The VE*-STI is devoid of cortical granule material, and supernumerary sperm do not detach postinsemination, suggesting that the VE*-STI contains active sperm receptors. VE*-STIs contain a 305-kD polypeptide and additional components that range from 225 to 31 kD, whereas the 305-kD polypeptide was considerably reduced in VE*s. Electrophoresis of sperm receptor hydrolase digests of VE*-STIs showed that the 305-kD polypeptide and several other envelope polypeptides are protease substrates. Univalent Fab fragments against VE*s, VE*-STIs, and 305 and 225-kD polypeptides blocked sperm binding and fertilization in an Fab concentration-dependent manner. The 305 and 225-kD polypeptides were localized in the VE*-STI using indirect immunofluorescence. Enzyme-linked immunosorbent assays showed that the 305 and 225-kD polypeptides share determinants, suggesting that the 225-kD polypeptide may be derived from the 305-kD polypeptide by the proteolysis that occurs at the cell surface during fertilization. Fab fragments against S purpuratus VE*-STI antigens neither bound to nor blocked homologous sperm binding and fertilization of Lytechinus variegatus eggs. Cross fertilizability occurred to the extent of 5% or less between L variegatus and S purpuratus, therefore, we conclude that the 305 kD-polypeptide isolated from S purpuratus is a species-specific vitelline envelope sperm receptor. |
