Patterns of embryonic cell secretion with special reference to double yolk function during early development of the starfish Pisaster ochraceus

Abstract

The patterns of secretion utilized by embryonic cells during early development in the starfish Pisaster ochraceus were studied by transmission electron microscopy and morphometry. In addition to exocytosis of cortical granules, exocytosis and micro-apocrine secretion-like blebbing were performed by secretory vacuoles and secretory vesicles. In 2-cell and 4-cell embryos, as well the 22-hour blastula, secretory vacuole exocytosis (VAE) was the most frequent of the secretory types. In the early to middle gastrula, VAE declined and secretory vacuole blebbing (VAB) appeared. Both VAE and VAB almost disappeared in 5-day gastrulae, and secretory vesicle exocytosis (VEE) as well as the secretory vesicle blebbing (VEB) became dominant. VEB was the only mechanism of secretion in bipinnaria. With regard to yolk granules, Y1, Y2, and Y3 granules underwent lysosome-induced utilization (LIU). In addition, Y3 yolk underwent lysosome-induced sparseness (LIS), followed by Y3-Y5B, the pathway that assumes the formation of Y4 and Y5 intermediate yolk patterns and is completed by the blebbing of Y5 granules in the early to middle gastrulae and 5-day gastrulae. These findings demonstrated the high complexity of the embryonic secretion machinery in sea stars.