Abstract
The pH versus proteinase activity curve (casein or hemoglobin plus urea substrate) for homogenates of unfertilized Lytechinus eggs reveals two regions of maximum activity: one between pH 3.5 and 4.3, and another of far greater magnitude from pH 8.0 to 11.0. The two classes of proteinases can be separated on a sucrose density gradient. Both the acid and alkaline proteinases in homogenates prepared in isotonic monovalent salt solutions are remarkably stable at pH 7.4 and 0ยฐC. Using synthetic peptide substrates, an enzyme with the specific esterase activity of chymotrypsin was demonstrated; this enzyme accounts for the major part of the proteinase activity at alkaline pH. In addition, an enzyme with specific esterase activity of trypsin was shown to be present, but of low activity. The proteinase activity at acid pH is largely due to an enzyme resembling cathepsin D. The data also suggest the presence of cathepsin B and cathepsin IV (or catheptic carboxypeptidase).
When eggs are homogenized in isotonic NaCl plus KCl at pH 7.4, 0.02 M tris buffer at 0ยฐC, all of the alkaline proteinase, and 85โ90% of the acid proteinase activity is sedimented at 10,000 g. The presence of any proteinase activity in the supernatant phase represents an artifact of the preparative procedures used. The granules which possess the proteinase activity are contained entirely in the yolk fractions; and the acid proteinase is contained in a population of granules which sediment more readily than those which contain the alkaline proteinase. The acid proteinase resembles the lysosomal acid hydrolases in that it is readily released from the particulates; in contrast, the alkaline proteinase is bound relatively firmly.
In contradistinction to reports in the literature, no changes in proteinase activity nor intracellular distribution could be detected following fertilization.