An improved method for isolation of fertile zona-free mouse eggs

Studies of sperm-egg fusion using zona-free mouse eggs are impaired by the procedures used for removal of the zona pellucida. Methods involving proteolytic digestion or mechanical aspiration through micropipettes are limited in that proteases can adversely affect fertility and mechanical removal often results in low egg yields. An efficient procedure for preparation of zona-free mouse eggs was developed using a combined enzymatic (chymotrypsin) mechanical approach (CT-M procedure). Zona-intact eggs, obtained after hyaluronidase treatment, were exposed to 0.001% α-chymotrypsin in medium containing 0.5% bovine serum albumin (BSA). Brief (2 minute) exposure to chymotrypsin under these conditions caused pronounced zona distention in a majority (80-90%) of the eggs, facilitating mechanical removal and resulting in a high yield of zona-free eggs. Eggs prepared by the CT-M method displayed identical penetration levels relative to mechanically denuded eggs. CT-M prepared eggs also showed sperm concentration dependent penetration levels and demonstrated a plasma membrane block to polyspermy, qualities previously observed in mechanically prepared eggs [Wolf DP, 1978, Dev Biol 64:1–10]. Eggs could be exposed to 0.001% CT for zona distention over a 2-10-minute time period with no detrimental effects on fertility. The effect of chymotrypsin was also studied by treating zona-free eggs for 30 minutes over a 1-1,000–μg/ml range of enzyme, and a concentration-dependent reduction in penetration levels was observed. These results indicate that the CT-M method is a useful procedure for the isolation of large numbers of zona-free mouse eggs.     

Enzymatic alteration of the ability of mouse egg plasma membrane to interact with sperm

The effect of a variety of proteolytic, glycosidic and lipid hydrolyzing enzymes on the ability of mouse egg plasma membrane to interact with sperm was evaluated in this study. Zona-free mouse eggs were exposed to enzymes at various concentrations, washed, and inseminated; the number of sperm attached to or having penetrated the egg plasma membrane was determined at 20 and 180 min post-insemination, respectively. The proteases trypsin and chymotrypsin caused concentration-dependent reductions in both sperm attachment and sperm penetration levels when eggs were incubated at enzyme concentrations ranging from 1- to 1000 micrograms/ml for 30 min prior to insemination. Time-course studies revealed significant inhibition of both sperm attachment and sperm penetration levels after treating zona-free eggs for 5 min at 1000 micrograms/ml of either trypsin or chymotrypsin. Several of the phospholipases tested, including phospholipases C, D, and A2, had no inhibitory effect on sperm penetration levels, with phospholipase C and A2 (100 micrograms/ml) causing inhibition of sperm attachment. Of the glycosidic enzymes evaluated, glucuronidase (1000 micrograms/ml) caused significant inhibition of sperm binding but not sperm penetration, and glucosidase, galactosidase, and neuraminidase had no effect on either sperm attachment or sperm penetration. These findings indicate that the ability of the mouse egg plasma membrane to fuse with sperm can be preferentially altered by treatment with proteases.     

Interspecies interaction of zona-free ova with spermatozoa in mouse,rat and hamster

Mouse, rat and hamster zona-free eggs were penetrated in vitro by spermatozoa of their own species and by alien spermatozoa of mouse, rat and hamster. The tested combinations showed very distinct differences in penetration ability. Mouse zona-free eggs were penetrated by spermatozoa of their own species only. Rat zona-free eggs were penetrated by their own and mouse spermatozoa. Hamster zona-free eggs were penetrated by their own, mouse and rat spermatozoa. Several proteolytic enzymes used for lysis of zona pellucida, time of sperm preincubation and sperm concentration did not affect sperm-egg interaction. It is concluded that the species specificity of egg plasma membrane in the rodents tested is probably based on some specific surface components.     

The block to sperm penetration in zonal-free mouse eggs

The rate of sperm penetration and the number of sperm penetrating zona-free mouse eggs were found to be dependent on sperm concentration. At the lowest sperm concentrations examined (10² cells/ml, sperm-egg ratios of approximately 1:1), most eggs were penetrated (75%), and polyspermy was low (19%) following 3 hr of incubation. The number of sperm penetrating the egg was logarithmically related to sperm concentration. All eggs showed a delay of at least 20 min between insemination and penetration, and penetration was complete in approximately 2 hr at 10⁴ sperm/ml; this penetration block was attributed to egg-related changes. The existence and timing of the egg plasma membrane block to polyspermy were evaluated by reinsemination experiments. In this approach, the block was triggered in zona-free eggs with a low concentration of capacitated epididymal sperm at time 0, and the eggs were subsequently challenged with high sperm concentrations. The presence or absence of a block was inferred from the degree of polyspermy observed in these eggs after 3 hr of incubation. Adjusting for sperm concentration-dependent delays between insemination and sperm penetration, a blocking time of approximately 40 min was obtained.     

Potassium dependence for sperm-egg fusion in mice

In this study, we examined the potassium requirements for sperm-egg fusion in mouse. Zona-free mouse eggs prepared by the method described by Boldt and Wolf were inseminated with capacitated sperm in culture media containing 0-6 mM extracellular K+, and scored for penetration. Penetration of zona-free eggs was dependent on extracellular K+, with no penetration observed under K(+)-free conditions. Media transfer experiments indicated that the lack of penetration observed was due to effects on fusion, and not on postpenetration events such as sperm head decondensation. To analyze whether the K+ effect was attributable to an effect on the sperm (i.e., occurrence of acrosome reactions), sperm were treated with the Ca2+ ionophore A23187 before insemination. Less than 5% of zona-free eggs were penetrated with ionophore-treated sperm under K(+)-free conditions, suggesting that K+ is required for fusion per se. Addition of ionophore to insemination cultures similarly did not overcome the block to fusion observed under K(+)-free conditions. The potassium channel blockers 4-aminopyridine (0.1-5 mM) and tetraethyl ammonium chloride (5-50 mM) had no inhibitory effect on fusion. These data indicate that extracellular K+ is required for sperm-egg fusion and that this requirement may not involve membrane K+ channels.     

Evidence that human epididymal protein ARP plays a role in gamete fusion through complementary sites on the surface of the human egg

Human epididymal sperm protein ARP, a member of the cysteine-rich secretory proteins (CRISP) family, exhibits significant homology with rat epididymal protein DE, a candidate molecule for mediating sperm-egg fusion in rodents. The aim of this study was to investigate the involvement of ARP in human gamete fusion. Sequential extraction of proteins from ejaculated human sperm revealed the existence of a population of ARP that is tightly associated with the sperm surface and thus, potentially capable of participating in gamete interaction. Exposure of capacitated human sperm to a polyclonal antibody against recombinant ARP (anti-ARP) produced a significant and concentration-dependent inhibition in the ability of human sperm to penetrate zona-free hamster eggs. This inhibition was not due to a deleterious effect on the gametes because anti-ARP affected neither sperm viability or motility, nor egg penetrability. The antibody did not inhibit the occurrence of spontaneous or Ca(2+) ionophore-induced acrosome reaction, nor did it inhibit the ability of sperm to bind to the oolema, supporting a specific inhibition of the antibody at the sperm-egg fusion level. As a relevant evidence for a role of ARP in gamete fusion, the existence of complementary sites for this protein on the surface of human eggs was investigated. Experiments in which zona-free human oocytes discarded from in vitro fertilization programs were exposed to ARP, fixed, and subjected to indirect immunofluorescence revealed the presence of specific ARP-binding sites on the entire surface of the human egg, in agreement with the fusogenic properties of the human oolema. Together, these results strongly support the participation of ARP in the sperm-egg fusion process, suggesting that this protein would be the functional homologue of DE in humans.     

Mouse sperm capacitation assessed by kinetics and morphology of fertilization in vitro

Epididymal mouse spermatozoa were preincubated for periods of 5-120 min and then tested for their ability to penetrate freshly ovulated eggs synchronously and rapidly. When zona-intact eggs were used, only suspensions preincubated for 120 min gave consistently high rates of fertilization, but suspensions preincubated for 30 min were functionally equivalent to those incubated for 120 min when used with zona-free eggs; the only major observable differences were a 15-min lag in sperm-egg interaction and an increased incidence of asynchrony with multiple sperm penetrations. A morphological study of sperm-egg interactions using zona-intact eggs indicated that, within 35 min of gamete mixing, egg microvilli could be detected by SEM in association with the fertilizing sperm head. Using conventional light microscopic examination of fixed and stained preparations, initial stages of sperm head decondensation could be detected in the majority of eggs after 45-60 min and the process was essentially completed, with the egg at the telophase-second polar body stage of meiosis II, after 75 min. Similar kinetics were observed with sperm concentrations of 10(5) and 10(6)/ml. The time required for penetration by capacitated sperm suspensions is therefore relatively short and the most accurate information regarding state of capacitation and rate of sperm penetration can be obtained by choosing an appropriately short interval for sperm-egg interaction before assessment.     

Carbohydrate involvement in sperm-egg fusion in mice

The potential involvement of cell-surface carbohydrates in sperm-egg fusion in mice was evaluated in this study. Zona-free mouse eggs were inseminated in the presence of a variety of simple saccharides to determine if certain sugars would act as competitive inhibitors of sperm-egg fusion. Of the sugars tested, L-fucose, galactose, and N-acetylglucosamine caused the greatest inhibition of sperm penetration levels relative to controls. A number of complex saccharides or glycoproteins with differing carbohydrate structures, including fucoidan, ascophyllan, ovomucoid, ovalbumin, fetuin, asialofetuin, and chondroitin sulfate, were also tested as competitive inhibitors of fusion. Only the L-fucose containing saccharides fucoidan and ascophyllan caused significant inhibition of fusion at concentrations of 0.05-1.0 mg/ml and 0.1-5.0 mg/ml, respectively. None of the other compounds tested had any inhibitory effect on fusion when tested at concentrations up to 5 mg/ml. The effect of the inhibitory saccharides was not due to the presence of residual zona material on the surface of the zona-free eggs, since zona-free eggs did not bind an 125I-labeled antibody directed against the ZP3 protein of the mouse zona pellucida. Pretreatment of either sperm or eggs with fucoidan (1 mg/ml) for 60 min prior to insemination caused only small decreases in sperm penetration levels, indicating that fucoidan exerted its major inhibitory effect on fusion only when present during insemination. Treatment of sperm, but not zona-free eggs, with fucosidase prior to insemination caused significant reductions in sperm penetration levels. Other glycosidic enzymes, including glucosidase, galactosidase, and N-acetylglucosaminidase, had no inhibitory effect on the sperm. These data suggest that an L-fucose component of the sperm surface is involved in sperm-egg fusion in the mouse.     

Role of egg sulfolipidimmobilizing protein 1 on mouse sperm-egg plasma membrane binding.

We have shown that sperm sulfolipidimmobilizing protein 1 (SLIP1, molecular mass of 68 kDa), a sulfogalactosylglycerolipid (SGG)-binding protein, is significant in sperm-zona pellucida (ZP) interaction. The objective of this study was to localize SLIP1 on the egg and determine its role in gamete interaction. Immunofluorescence and immunoprotein A gold electron microscopy localized SLIP1 to the egg plasma membrane. In vitro gamete binding, using zona-free eggs preincubated with antiSLIP1 Fab before coincubation with sperm, showed a significant, dose-dependent decrease in sperm-egg plasma membrane binding. Similar results were obtained when affinity-purified antiSLIP1 IgG was used for egg pretreatment. The significance of egg SLIP1 in sperm-egg plasma membrane binding was further demonstrated by a decrease (36-52%) in in vitro fertilization when zona-intact eggs were pretreated with antiSLIP1 IgG. Since SLIP1 has been shown to bind SGG in vitro, we investigated the possibility that sperm SGG may participate in sperm-egg plasma membrane binding through egg SLIP1. Pretreatment of sperm with antiSGG Fab prior to coincubation with zona-free eggs resulted in a dose-dependent decrease in sperm-egg plasma membrane binding. Collectively, these findings strongly suggest a role for egg SLIP1 in sperm-egg plasma membrane interaction, which may be through its binding to sperm SGG.     

Evidence for the involvement of testicular protein CRISP2 in mouse sperm-egg fusion

CRISP2, originally known as Tpx-1, is a cysteine-rich secretory protein specifically expressed in male haploid germ cells. Although likely to be involved in gamete interaction, evidence for a functional role of CRISP2 in fertilization still remains poor. In the present study, we used a mouse model to examine the subcellular localization of CRISP2 in sperm and its involvement in the different stages of fertilization. Results from indirect immunofluorescence and protein extraction experiments indicated that mouse CRISP2 is an intraacrosomal component that remains associated with sperm after capacitation and the acrosome reaction (AR). In vitro fertilization assays using zona pellucida-intact mouse eggs showed that an antibody against the protein significantly decreased the percentage of penetrated eggs, with a coincident accumulation of perivitelline sperm. The failure to inhibit zona pellucida penetration excludes a detrimental effect of the antibody on sperm motility or the AR, supporting a specific participation of CRISP2 at the sperm-egg fusion step. In agreement with this evidence, recombinant mouse CRISP2 (recCRISP2) specifically bound to the fusogenic area of mouse eggs, as previously reported for rat CRISP1, an epididymal protein involved in gamete fusion. In vitro competition investigations showed that incubation of mouse zona-free eggs with a fixed concentration of recCRISP2 and increasing amounts of rat CRISP1 reduced the binding of recCRISP2 to the egg, suggesting that the proteins interact with common complementary sites on the egg surface. Our findings indicate that testicular CRISP2, as observed for epididymal CRISP1, is involved in sperm-egg fusion through its binding to complementary sites on the egg surface, supporting the idea of functional cooperation between homologous molecules to ensure the success of fertilization.     

Fusion of hamster and pig zona-free eggs stimulated by boar and guinea pig sperm at fertilization in vitro

In the course of in vitro fertilization of zona-free hamster and pig eggs by boar and guinea-pig spermatozoa it was observed that homologous and heterologous eggs fused together, forming cell hybrids between two or more cells. The fusogenic activity was attributed to spermatozoa and this was the hypothesis tested. The fusogenic activity (coinciding with sperm penetration activity) was dependent on the duration of sperm preincubation, which may be regarded as capacitation in vitro. Fusion occurred only after 3 hr of sperm preincubation and a narrow optimum was detected at 4–4.5 hr. Fusion of eggs was also dependent on sperm concentration. A relatively high proportion of fusions was observed at a sperm concentration of 4.0 × 10⁴ per ml and an optimum was attained at a concentration of 5.0 × 10⁵ per ml. The first fusions were observed at 90 min after semination. After 3 hr more than a half of the eggs reacted, and by 20 hr of incubation 80% of ova were fused. The fusability of eggs was tested and found to occur at 14 hr after ovulation. The fusion process was also studied using transmission electron microscopy. It is supposed that the process of egg fusion may be caused either by a similar mechanism to sperm-egg fusion, or by products released during the sperm acrosome reaction.     

Treatment of mouse oocytes with PI-PLC releases 70-kDa (pI 5) and 35- to 45-kDa (pI 5.5) protein clusters from the egg surface and inhibits sperm-oolemma binding and fusion

The effect of phosphatidyinositol-specific phospholipase C (PI-PLC) on mouse sperm-egg interaction was investigated in this study to determine if glycosyl-phosphatidylinositol (GPI)-anchored proteins are involved in mammalian fertilization. When both sperm and zona-intact oocytes were pretreated with a highly purified preparation of PI-PLC and coincubated, there was no significant effect on sperm-zona pellucida binding; however, fertilization was reduced from 59.6% (control group) to 2.8% (treatment group). A similar reduction in fertilization rates was found when zona-intact oocytes were treated with PI-PLC and washed prior to incubation with untreated sperm. The effect of PI-PLC on sperm binding and fusion with zona-free oocytes was then investigated. Treatment of sperm with PI-PLC had no significant effect on sperm-egg binding or fusion. However, treatment of eggs with PI-PLC significantly reduced sperm-egg binding and fusion from 6.2 bound and 2.1 fused sperm per egg in the control group to 2.1 bound and 0.02 fused sperm per egg in the treatment group. This decrease in sperm-egg binding and fusion depended on the dose of PI-PLC employed, with a maximal inhibitory effect on binding and fusion at 5 and 1 U/ml, respectively. PI-PLC-treated oocytes could be artificially activated by calcium ionophore, demonstrating that the oocytes were functionally viable following treatment. Furthermore, treatment of oocytes with PI-PLC did not reduce the immunoreactivity of the non-GPI-anchored egg surface integrin, alpha6beta1. Taken together, these observations support the hypothesis that PI-PLC affects fertilization by specifically releasing GPI-anchored proteins from the oolemma. In order to identify the oolemmal GPI-anchored proteins involved in fertilization, egg surface proteins were labeled with sulfo-NHS biotin, treated with PI-PLC, and analyzed by two-dimensional gel electrophoresis followed by avidin blotting. A prominent high-molecular-weight protein cluster (approximately 70 kDa, pI 5) and a lower molecular weight (approximately 35-45 kDa, pI 5.5) protein cluster were released from the oolemmal surface as a result of PI-PLC treatment. It is likely that these GPI-anchored egg surface proteins are required for sperm-egg binding and fusion.     

Mammalian sperm-egg fusion: evidence that epididymal protein DE plays a role in mouse gamete fusion

Rat epididymal protein DE associates with the sperm surface during epididymal maturation and is a candidate molecule for mediating gamete membrane fusion in the rat. Here, we provide evidence supporting a role for DE in mouse sperm-egg fusion. Western blot studies indicated that the antibody against rat protein DE can recognize the mouse homologue in both epididymal tissue and sperm extracts. Indirect immunofluorescence studies using this antibody localized the protein on the dorsal region of the acrosome. Experiments in which zona-free mouse eggs were coincubated with mouse capacitated sperm in the presence of DE showed a significant and concentration-dependent inhibition in the percentage of penetrated eggs, with no effect on either the percentage of oocytes with bound sperm or the number of sperm bound per egg. Immunofluorescence experiments revealed specific DE-binding sites on the fusogenic region of mouse eggs. Because mouse sperm can penetrate zona-free rat eggs, the participation of DE in this interaction was also investigated. The presence of the protein during gamete coincubation produced a significant reduction in the percentage of penetrated eggs, without affecting the binding of sperm to the oolemma. These observations support the involvement of DE in an event subsequent to sperm-egg binding and leading to fusion in both homologous (mouse-mouse) and heterologous (mouse-rat) sperm-egg interaction. The lack of disintegrin domains in DE indicates that the protein interacts with its egg-binding sites through a novel mechanism that does not involve the reported disintegrin-integrin interaction.     

Does phospholipase C inhibit fusion between hamster sperm and zona-free eggs?

Previous studies (Hirao and Yanagimachi: Gamete Res. 1:3–12, 1978) have found that phospholipase C (PLC) preparations inhibit sperm-egg fusion. We have attempted to duplicate these results with PLC, as well as with a more specific enzyme, phosphatidyl-inositol-specific PLC. PLC preparations were applied externally to zona-free hamster eggs prior to incubation with sperm. Phosphatidylinositol-specific PLC did not inhibit sperm penetration. The degree of sperm-egg fusion observed after egg exposure to PLC, however, was dependent upon the purity of the commercial preparation. An impure sample of PLC inhibited sperm penetration, while a more purified preparation did not. The morphology of eggs was unaffected by exposure to phosphatidylinositol-specific PLC and the more purified PLC preparation. The impure preparation, however, was disruptive primarily to the egg plasma membrane as well as to internal organelle organization. The degree of damage by the impure PLC preparation was concentration dependent. The results suggest that as purity of the PLC preparation is increased, the adverse effects of PLC on sperm-egg fusion become negligible.     

Effect of fertility regulating agents on motility and zona-free hamster egg penetration by spermatozoa of bonnet monkey.

Administration of STS-557 (17 alpha-cyanomethyl-17 beta-hydroxyestra 4,9(10)-dien-3-one; 12 mg/monkey daily) for 4 weeks either alone or in combination with 20 Aet-1 (testosterone-trans-4-n-butyl cyclohexyl carboxylate; code CDB 1781; 40 mg/monkey single administration) had no significant effect on motility and zona free hamster egg penetration by spermatozoa of bonnet monkey, but continuation of the treatment for 12 weeks reduced (in one monkey treated with STS-557) or abolished (one treated with STS-557 and two with STS-557 + 20 Aet-1) the motility as well as zona-free hamster egg penetration (by spermatozoa of all treated monkeys). Motility and the ability to penetrate zona-free hamster egg returned to normalcy after 10 weeks of withdrawal of treatments. Active immunization of monkeys with ovine FSH (4 weeks after booster) had no adverse effect on motility of spermatozoa but none of the zona-free hamster eggs was fertilized. The correlation between motility and the capacity to penetrate the zona-free hamster eggs by monkey spermatozoa varies with the treatment. Such correlation was apparent in monkeys treated with STS-557 but not in monkeys immunized with ovine FSH.     

Identification and purification of a sperm surface protein with a potential role in sperm-egg membrane fusion

Sperm-egg plasma membrane fusion during fertilization was studied using guinea pig gametes and mAbs to sperm surface antigens. The mAb, PH-30, strongly inhibited sperm-egg fusion in a concentration-dependent fashion. When zona-free eggs were inseminated with acrosome-reacted sperm preincubated in saturating (140 micrograms/ml) PH-30 mAb, the percent of eggs showing fusion was reduced 75%. The average number of sperm fused per egg was also reduced by 75%. In contrast a control mAb, PH-1, preincubated with sperm at 400 micrograms/ml, caused no inhibition. The PH-30 and PH-1 mAbs apparently recognize the same antigen but bind to two different determinants. Both mAbs immunoprecipitated the same two 125I-labeled polypeptides with Mr 60,000 (60 kD) and Mr 44,000 (44 kD). Boiling a detergent extract of sperm severely reduced the binding of PH-30 but had essentially no effect on the binding of PH-1, indicating that the two mAbs recognize different epitopes. Immunoelectron microscopy revealed that PH-30 mAb binding was restricted to the sperm posterior head surface and was absent from the equatorial region. The PH-30 and PH-1 mAbs did not bind to sperm from the testis, the caput, or the corpus epididymis. PH-30 mAb binding was first detectable on sperm from the proximal cauda epididymis, i.e., sperm at the developmental stage where fertilization competence appears. After purification by mAb affinity chromatography, the PH-30 protein retained antigenic activity, binding both the PH-30 and PH-1 mAbs. The purified protein showed two polypeptide bands of 60 and 44 kD on reducing SDS PAGE. The two polypeptides migrated further (to approximately 49 kD and approximately 33 kD) on nonreducing SDS PAGE, showing that they do not contain interchain disulfide bonds, but probably have intrachain disulfides. 44 kD appears not to be a proteolytic fragment of 60 kD because V8 protease digestion patterns did not reveal related peptide patterns from the 44- and 60-kD bands. In the absence of detergent, the purified protein precipitates, suggesting that either 60 or 44 kD could be an integral membrane polypeptide.     

Mammalian sperm-egg fusion: the rat egg has complementary sites for a sperm protein that mediates gamete fusion.

Rat epididymal protein DE is localized on the fusogenic region of the acrosome-reacted spermatozoa and has a potential role in sperm-egg fusion. We investigated the presence of DE binding sites on the egg surface by co-incubating zona-free eggs and capacitated sperm in different concentrations of pure DE. Results indicate that DE produced a concentration-dependent decrease in egg penetration by sperm (fusion), with almost complete inhibition at 200 micrograms/ml. This inhibition was not due to an effect of DE on initial sperm binding to the egg membrane, since the presence of this protein did not affect the percentage of oocytes with bound sperm nor the number of bound sperm per egg. Those sperm that failed to penetrate the egg in the presence of DE became able to do so after transfer of the eggs to protein- and sperm-free medium, indicating a role for DE in an event subsequent to binding and leading to fusion. Indirect immunofluorescence using a polyclonal antibody against DE revealed a patchy labeling over the entire egg surface, with the exception of the area overlying the second metaphase spindle. This conclusion was supported by the disappearance of the DE-negative area on the fertilized egg. Zona-free eggs, incubated with DE at 4 degrees C or fixed before exposure to DE, displayed a uniform staining, suggesting that the patchy labeling resulted from aggregation of DE binding sites by the purified protein. The aggregation of these egg components may represent a necessary step of the fusion process. To our knowledge, this is the first study reporting the existence and localization of complementary sites to a specific sperm protein on the plasma membrane of the mammalian egg.     

The penetrability of rabbit ova treated with enzymes or anti-progesterone antibody: a probe into the nature of a mammalian fertilizin.

The acrosome reaction of rabbit spermatozoa, an essential prerequiste for penetration of the zona, occurs usually in the vicinity of the egg, suggesting that the rabbit may produce a factor akin to the 'fertilizin' of some invertebrates. Specific inactivation of such a factor should render eggs impenetrable and possibly point to the nature of a 'fertilizin' in mammals. Rabbit eggs with granulosa cells removed were treated for different periods with trypsin, chymotrypsin, neuraminidase or anti-progesterone antiserum, and then transferred alone, or together with control eggs (one group labelled with fluorescein isothiocyanate), to the oviducts of inseminated recipients. Three hours later the eggs were recovered and the experimental and control groups were compared for penetration of the vitellus and for numbers of spermatozoa within the perivitelline space or in the zona pellucida. None of these treatments affected the penetrability of the zona pellucida significantly since the number of spermatozoa within treated eggs in any one experiment was always comparable to that of untreated eggs exposed to the same fertilization environment. If there is a specific substance emanating from or present on the surface of the rabbit egg which induces the acrosome reaction, its activity seems unaffected by trypsin or chymotrypsin; the charged radicals of N-acetyl neuraminic acid or local concentrations of progesterone do not appear to be involved.     

Rat eggs normally exhibit a variety of surface phenomena during fertilization

The surface topography of the rat egg was examined during fertilization in vitro and in vivo. Using phase optics, 348 in vitro fertilized and 50 in vivo fertilized eggs were continuously monitored throughout the 7-hour period of sperm incorporation. A myriad of different surface configurations were seen, with each egg exhibiting one or more of the following changes. A small number of eggs (4–6%) formed surface elevations over the sperm head after its detachment from the flagellum, 15–30 min after sperm-egg fusion; 1 to 1.5 hr after fusion, 40–50% of the eggs produced the so-called incorporation cone, a prominent surface elevation over the decondensing sperm nucleus. The vast majority of eggs (74–82%) formed surface elevations over the proximal tip of the flagellum 2–3 hr after sperm-egg fusion. These had no association with the decondensing sperm nucleus. A few eggs (11–12%) exhibited multiple protrusions that were distributed randomly about the egg surface, whereas 14–20% did not manifest any surface elevations and remained spherical throughout the sperm incorporation period. Regardless of the type of surface change, all of the eggs resumed a spherical shape by the time sperm incorporation was complete. These observations are in contrast to the conclusions by previous authors that formation of the so-called incorporation cone over the decondensing sperm nucleus is a ubiquitous event.     

Studies on the participation of epididymal sperm protein DE/CRISP-1 in egg activation.

Protein DE (32 kDa) associates with sperm during epididymal maturation and participates in sperm-egg fusion through its binding to complementary sites on the egg surface. In the present work we investigated the participation of DE in two mechanisms probably involved in egg activation: the ability of DE to trigger activation by its interaction with the binding sites on the egg surface (receptor model) and its ability to regulate intracellular calcium channels (sperm factor model). The incubation of eggs with DE did not promote activation parameters such as calcium oscillations or meiosis resumption. Secondly, microinjection of DE into eggs was ineffective in either eliciting calcium release or modifying oscillations induced by an activating sperm extract. Together, these results argue against the participation of DE in egg activation, restricting the activity of this protein and its egg binding sites to the sperm-egg fusion process.