Probable Contribution of Protein Phosphorylation by Protein Kinase C to Spicule Formation in Sea Urchin Embryos

The formation of spicules and development of pluteus arms in sea urchin embryos were strongly blocked by H‐7 (1‐(5‐isoquinolinesulfonyl)‐2‐methylpiperazine dihydrochloride) but were not affected by HA1004 ( N ‐(2‐guanidinoethyl)‐5‐isoquinolinesulfonamide hydrochloride). Archenteron formation occurred normally in the presence of these compounds. Late gastrulae (28 hr after fertilization) were exposed to 32 Pi for 30 min at 20°C, and then dissociated and their primary mesenchyme cells with spicules, embryo‐wall cells and archenteron cells were separated. Then, the radioactivities in the protein fractions of these separated cells were measured. Results showed that culture of embryos with H‐7 strongly inhibited 32 p incorporation into proteins in primary mesenchyme cells but caused little inhibition of its incorporations in embryo‐wall cells and archenteron cells. The effective concentrations of H‐7 for inhibition of 32 p incorporation were within the range that blocked spicule formation and growth of pluteus arms in embryos. HA1004 only slightly inhibited 32 p incorporation into protein in mesenchyme cells, embryo‐wall cells and archenteron cells of embryos exposed to 32 Pi. Protein kinase C activity was detectable only in isolated primary mesenchyme cells associated with spicule structures. These suggest that phosphorylation of proteins by protein kinase C contributes to the formation of spicule structures.