Fertilization in Oikopleura dioica (Tunicata,Appendicularia): Acrosome reaction,cortical reaction and sperm-egg fusion

Summary Fine structural changes in the egg and sperm are described during gamete interaction in Oikopleura dioica, an appendicularian tunicate. The unfertilized egg has a vitelline layer 80 nm thick and a perivitelline space about 5 m wide. In the peripheral cytoplasm are a few cortical granules 0.6×0.7 m in diameter and areas rich in parallel cisternae of rough endoplasmic reticulum alternating with areas rich in long mitochondria. In the deeper cytoplasm the predominant organelles are multivesicular bodies. From 25 s to 60 s after insemination, the egg transiently elongates, although with no obvious cytoplasmic rearrangement, and the egg surface becomes bumpy. During this interval sperm enter the egg, and the cortical granules undergo exocytosis. After expulsion into the perivitelline space, the cortical granule contents do not appear to change their shape or blend with the vitelline layer, which neither elevates further nor loses its ability to bind sperm. On encountering the egg, the sperm undergoes an acrosome reaction involving exocytosis of the acrosome and production of an acrosomal tubule. The acrosomal contents bind the sperm to the vitelline layer, and the posterior portion of the acrosomal membrane and the anterior portion of the nuclear envelope evaginate together to form an acrosomal tubule, which fuses with the egg plasma membrane to form a fertilization cone. By 45 s after insemination, the sperm nucleus, centriole, mitochondrion and at least the anterior portion of the axoneme are within the fertilization cone. By 60 s sperm entry is complete. In having eggs with a cortical reaction and sperm with an acrosome reaction, O. dioica resembles echinoderms and enteropneusts and differs markedly from ascidian tunicates, which lack both these features. The relatively unmodified pattern of gamete interaction in O. dioica in comparison with the highly modified pattern in ascidians is difficult to reconcile with the neoteny theory that appendicularians have evolved via ascidian ancestors. The present results are more consistent with the idea that an appendicularian-like ancestor gave rise to ascidians.