Effects of A23187 upon cortical granule exocytosis in eggs of Brachydanio

Abstract

The effects of the divalent ionophore A23187 upon unfertilized eggs of the freshwater teleost fish, Brachydanio rerio, have been examined by light, scanning (SEM) and transmission (TEM) electron microscopy. Treatment of eggs with micromolar amounts (1 μM, 10 μM) of A23187 triggers cortical granule exocytosis and elevation of the chorion. However, the exocytosis of cortical granules in ionophore-activated eggs is explosive and occurs more rapidly than in eggs naturally activated in conditioned tap water. Eggs treated with A23187 in a medium lacking extra-cellular calcium also show cortical granule exocytosis, suggesting strongly that egg activation in Brachydanio results from release of calcium primarily from intracellular stores; however, there is a distinct delay in the onset of cortical granule breakdown. Unfertilized eggs exposed to A23187 for 1-5 min show noticeable disturbances in cell surface topography, including loss of microplicae and the appearance of prominent membrane-limited blebs.To determine if cortical granule exocytosis is self-propagating once initiated, A23187 was applied to a localized portion of the unfertilized egg surface, using either a G-50 sephadex gel bead or a 1 mm glass capillary tube. Eggs placed in continuous contact for 15 min with a bead coated with 10 μM A23187 show neither exocytosis of cortical granules nor elevation of the chorion. All eggs exhibit exocytosis when positioned against a glass rod coated with 1 μM A23187. The cortical granule breakdown is partial and restricted to less than 50% of the egg surface in most cells. The complete exocytosis of cortical granules in the zebra danio egg appears to require the stimulation and release of calcium from multiple sites over the cortex.