A cell surface block to polyspermy occurs in golden hamster eggs

Abstract

We have examined the frequency and fate of supernumerary sperm in the perivitelline space (PVS) of in vitro fertilized hamster eggs to determine if there is a cell surface block to polyspermy. The zona pellucida block to polyspermy is very effective since only one sperm penetrated the zona pellucida in 72.8% of the 876 fertilized eggs examined. Of the polypenetrated eggs, 41.6% had a supernumerary sperm within the PVS. The proportion of polypenetrated eggs with PVS sperm did not change when the duration of coincubation was increased from 3 to 6 hr. PVS sperm were found in 67% of the inseminations. From these data we conclude that there is a cell surface block to polyspermy in the hamster. To investigate the mechanism of the cell surface block, we used the Hoechst-transfer technique ( R. Hinkley, B. Wright, and J. Lynn, 1986, Dev. Biol. 118, 148–154) to monitor sperm-egg fusion. We first demonstrated that dye transfer from zona pellucida-free eggs to sperm only occurred when fusion was possible, i.e., in the presence of calcium, and that dye was transferred to all fused sperm. When cumulus-free, zona-intact eggs were preloaded with Hoechst dye and viewed 3 hr postinsemination, three classes of eggs with supernumerary sperm in the PVS were observed: eggs with only Hoechst-positive sperm (62%), eggs with only Hoechst-negative sperm (27%), and eggs with both a Hoechst-positive and a Hoechst-negative sperm (11%). Because of the limited time resolution of the Hoechst-transfer technique, the cell surface block could operate by preventing sperm fusion (Hoechst-negative), by the failure of the eggs to incorporate fused sperm (Hoechst-positive), and/or by the “unfusing” of fused sperm (Hoechst-positive and Hoechst-negative). We are unable at this time to differentiate between these mechanisms.