CHANGES IN THE SPERMATOZOON DURING FERTILIZATION IN HYDROIDES HEXAGONUS (ANNELIDA): I. Passage of the Acrosomal Region through the Vitelline Membrane

doi:10.1083/jcb.10.2.231

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CHANGES IN THE SPERMATOZOON DURING FERTILIZATION IN HYDROIDES HEXAGONUS (ANNELIDA) : I. Passage of the Acrosomal Region through the Vitelline Membrane

Laura Hunter Colwin Ph.D.¹ and Arthur L. Colwin Ph.D.¹

¹ From the Department of Biology, Queens College, Flushing, New York, and The Marine Biological Laboratory, Woods Hole, Massachusetts

In the previous paper the structure of the acrosomal regionof the spermatozoon was described. The present paper describesthe changes which this region undergoes during passage throughthe vitelline membrane. The material used consisted of moderatelypolyspermic eggs of Hydroides hexagonus, osmium-fixed usually9 seconds after insemination. There are essentially four majorchanges in the acrosome during passage of the sperm head throughthe vitelline membrane. First, the acrosome breaks open apicallyby a kind of dehiscence which results in the formation of awell defined orifice. Around the lips of the orifice the edgesof the plasma and acrosomal membranes are then found to be fusedto form a continuous membranous sheet. Second, the walls ofthe acrosomal vesicle are completely everted, and this appearsto be the means by which the apex of the sperm head is movedthrough the vitelline membrane. The lip of the orifice comesto lie deeper and deeper within the vitelline membrane. At thesame time the lip itself is made up of constantly changing materialas first the material of the outer zone and then that of theintermediate zone everts. One is reminded of the lip of an amphibianblastopore, which during gastrulation maintains its morphologicalidentity as a lip but is nevertheless made up of constantlychanging cells, with constantly changing outline and even constantlychanging position. Third, the large acrosomal granule rapidlydisappears. This disappearance is closely correlated with acorresponding disappearance of a part of the principal materialof the vitelline membrane from before it, and the suggestionis made that the acrosomal granule is the source of the lysinwhich dissolves this part of the vitelline membrane. Fourth,in the inner zone the fifteen or so short tubular invaginationsof the acrosomal membrane, present in the normal unreacted spermatozoon,lengthen considerably to become a tuft of acrosomal tubules.These tubules are the first structures of the advancing spermhead to touch the plasma membrane of the egg. It is notablethat the surface of the acrosomal tubules which once faced intothe closed acrosomal cavity becomes the first part of the spermplasma membrane to meet the plasma membrane of the egg. Theacrosomal tubules of Hydroides, which arise simply by lengtheningof already existing shorter tubules, are considered to representthe acrosome filaments of other species.

Submitted on September 12, 1960

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