Observations of hamster sperm‐egg fusion in freeze‐fracture replicas including the use of filipin as a sterol marker

Abstract We have extended the observations of previous transmission electron microscopy studies of sperm‐egg fusion to include those of freeze‐fracture replicas showing sperm‐egg interactions before, during, and following sperm head fusion with the egg membrane. Hamster eggs were incubated with hamster sperm under polyspermic conditions and were observed after a period of 5–30 minutes. After fixation, the eggs and sperm were exposed to filipin, which binds β‐OH‐sterols to form visible complexes in freeze‐fracture replicas. Filipin can act as a marker for egg plasma membrane wherein it is abundant, while filipin is relatively scarce in the acrosome‐reacted hamster sperm membrane, found only in the plasma membrane of the equatorial segment. The earliest sperm‐egg interactions are observed between the egg microvilli and the perforatorium and the equatorial segment of the sperm, and the initial fusion between egg and sperm occurs in the vicinity of the equatorial segment. At later stages of fusion involving the postacrosomal segment, a clear line of demarcation is observed between the filipin‐rich egg membrane and the filipin‐poor sperm postacrosomal segment, suggesting that filipin binding lipids from the egg intercalate into the sperm membrane following membrane fusion. The anterior segment of the sperm does not fuse with the egg but is instead incorporated into a cytoplasmic vesicle derived from both sperm and egg membranes. In this latter step, filipin‐sterol complexes are not found in sperm‐derived membranes suggesting that there may be barriers to the movement of filipin binding lipids from the egg into these sperm membranes.