Sea urchin embryo fertilization envelope: immunological evidence that soluble envelope proteins are derived from cortical granule secretions

Although structural studies support the hypothesis that the sea urchin embryo fertilization envelope is derived from the preexisting vitelline envelope template and structural proteins secreted during the cortical reaction, biochemical evidence is minimal. We used an immunological approach to determine the subcellular origin of proteins which were extracted from the fertilization envelope. Fertilization envelopes were isolated from Stronglyocentrotus purpuratus embryos 30 min postinsemination and extracted with 6.0 M urea-0.15 M 2-mercaptoethanol, pH 10.5, for 10 min at 80°C. Extracted proteins were exhaustively dialyzed against 0.015 M 2-mercaptoethanol-0.100 M Tris-HCl at pH 8.6 and mixed with Fruend's complete adjuvant prior to injection into female New Zealand white rabbits. The antiserum which was prepared contained antibodies to six major and two minor polypeptides in the soluble fertilization envelope fraction based on two-dimensional sodium dodecyl sulfate immunoelectrophoresis. Extracts of vitelline envelopes and extracts of unfertilized egg surfaces which are known to contain viteline envelope proteins did not form immunoprecipitates with antiserum against soluble fertilization envelope polypeptides. Extracts of isolated cortical granules and the secreted paracystalline protein fraction formed four and three immunoprecipitates, respectively, which showed complete identity with the soluble fertilization envelope polypeptides based on rocket-line immunoelectrophoresis. Two-dimensional sodium dodecyl sulfate immunoelectrophoresis of cortical granule extract and the secreted paracrystalline protein fraction showed a complex pattern of immunoprecipitates, but a major finding was that cortical granules contain a 193,000-dalton polypeptide which was not found in the paracrystalline protein fraction. These results suggest that proteolytic processing of a cortical granule precursor of the paracrystalline protein fraction occurs during fertilization and that not all of the cortical granule polypeptides are incorporated into the fertilization envelope by means of di- and trityrosine crosslinks with the vitelline envelope proteins.