Mouse Egg Zona Pellucida Research Articles

Egg-induced modifications of the zona pellucida of mouse eggs: Effects of microinjected inositol 1,4,5-trisphosphate

Mouse eggs microinjected with physiological concentrations of inositol 1,4,5-trisphosphate (IP 3) do not emit the second polar body, form a pronucleus, or display a fertilization-associated set of changes in the pattern of protein synthesis. IP 3-injected eggs, however, display a conversion of the zona pellucida glycoprotein ZP2 to ZP2 f. The effect is concentration-dependent with an EC 50 (effective concentration, 50%) of 5–10 n M and also occurs in the presence of reduced levels of extracellular calcium. The egg-induced zona pellucida modification is not elicited by several other inositol phosphates that are not able to release calcium from intracellular stores in other systems. Analysis of individual eggs microinjected with IP 3 reveals a strong correlation between a reduced binding of sperm to the zona pellucida and the ZP2 to ZP2 f conversion. In addition, solubilized zonae pellucidae isolated from IP 3-injected eggs possess reduced levels of acrosome reaction-inducing activity. These egg-induced modifications of the zona pellucida—reduced sperm receptor and acrosome reaction-inducing activities and the ZP2 to ZP2 f conversion—elicited by microinjected-IP 3 are similar to those that occur following fertilization. Results of these experiments suggest that IP 3 generated in response to fertilization may play a role in the egg-induced modifications of the zona pellucida that result in the polyspermy block.

Galactose at the nonreducing terminus of O-linked oligosaccharides of mouse egg zona pellucida glycoprotein ZP3 is essential for the glycoprotein's sperm receptor activity

Galactose at the nonreducing terminus of O-linked oligosaccharides of mouse egg zona pellucida glycoprotein ZP3 is essential for the glycoprotein's sperm receptor activity

Galactose at the nonreducing terminus of O-linked oligosaccharides of mouse egg zona pellucida glycoprotein ZP3 is essential for the glycoprotein's sperm receptor activity.

During fertilization in mice, zona pellucida glycoprotein ZP3 mediates initial sperm-egg interactions by serving as receptor for sperm. Purified egg ZP3, as well as ZP3-derived O-linked oligosaccharides, exhibit sperm receptor activity in vitro. We report that treatment of purified egg ZP3 and ZP3-derived O-linked oligosaccharides with either alpha-galactosidase or galactose oxidase results in loss of sperm receptor activity. In the latter case, sperm receptor activity can be restored to the oxidized glycoprotein and O-linked oligosaccharides by treatment with sodium borohydride. We conclude that galactose, located in alpha-linkage at the nonreducing terminus of O-linked oligosaccharides, is at least one of the sugar determinants on ZP3 responsible for binding of sperm to the zona pellucida.

Relationship between two types of mouse sperm surface sites that mediate binding of sperm to the zona pellucida.

There are at least two binding sites for the mouse egg zona pellucida on the surface of mouse sperm: a site with galactosyltransferase (GT) activity inhibitable by uridine-5'-diphosphate-dialdehyde (UDPd) and alpha-lactalbumin, and a trypsin inhibitor-sensitive (TI) site that hydrolyzes guanidinobenzoate (GB) esters. Characterization of GT activity gave the Km for UDP galactose as 37 microM with N-acetylglucosamine as galactose acceptor, and Vmax as 0.37 pmol/min/10(6) sperm. UDP galactose from 12.5-100 microM inhibited sperm binding to zona-intact eggs in a concentration-dependent manner with close correlation to GT activity (r = 0.95). To assess the independence and spatial relationship of the two types of site, cross-perturbation studies were performed. p-Nitrophenyl-GB, a low molecular mass inhibitor specific for the TI site, had no effect on the enzyme activity of the GT site. Conversely, UDPd, a specific inhibitor of GT, had no effect on GB hydrolysis. Weak inhibitions were found when soybean trypsin inhibitor (SBTI) was included with the GT assay and when GB hydrolysis was assayed in the presence of alpha-lactalbumin or asialo-agalacto-(alpha 1-acid glycoprotein). Acid-solubilized zona protein (ASZP) weakly inhibited the GT reaction, while stronger inhibition was seen with chymotrypsin-solubilized zona protein (CSZP). ASZP inhibited sperm binding to zonae with the same concentration dependence associated with inhibition of GB hydrolysis, but the inhibition of GT enzyme activity was on the same order as that found with SBTI, indicating that ASZP was only binding to the TI site under enzyme assay conditions. The results support the hypothesis that the two types of site are independent in binding their specific zona ligands, but are close enough for steric perturbation of the enzyme activity of one site by macromolecules bound to the other. The different interactions of solubilized zona preparations with the GT site under enzyme assay conditions are an indication that conditions which favor the enzyme activity of the site may interfere with the physiological binding functions of the site.

Identification of a secondary sperm receptor in the mouse egg zona pellucida: Role in maintenance of binding of acrosome-reacted sperm to eggs

During fertilization in mice, acrosome-intact sperm bind via plasma membrane overlying their head to a glycoprotein, called ZP3, present in the egg extracellular coat or zona pellucida. Bound sperm then undergo the acrosome reaction, which results in exposure of inner acrosomal membrane, penetrate through the zona pellucida, and fuse with egg plasma membrane. Thus, in the normal course of events, acrosome-reacted sperm must remain bound to eggs, despite loss of plasma membrane from the anterior region of the head and exposure of inner acrosomal membrane. Here, we examined maintenance of binding of sperm to the zona pellucida following the acrosome reaction. We found that polycolonal antisera and monoclonal antibodies directed against ZP2, another zona pellucida glycoprotein, did not affect initial binding of sperm to eggs, but inhibited maintenance of binding of sperm that had undergone the acrosome reaction on the zona pellucida. On the other hand, polyclonal antisera and monoclonal antibodies directed against ZP3 did not affect either initial binding of acrosome-intact sperm to eggs or maintenance of binding following the acrosome reaction. We also found that soybean trypsin inhibitor, a protein reported to prevent binding of mouse sperm to eggs, did not affect initial binding of sperm to eggs, but, like antibodies directed against ZP2, inhibited maintenance of binding of sperm that had undergone the acrosome reaction on the zona pellucida. These and other observations suggest that ZP2 serves as a secondary receptor for sperm during the fertilization process in mice and that maintenance of binding of acrosome-reacted sperm to eggs may involve a sperm, trypsin-like proteinase.

Inhibitory effects of monoclonal sperm antibodies on the fertilization of mouse oocytes in vitro and in vivo

The inhibitory effects of monoclonal antibodies on the fertilization of mouse oocytes were evaluated in vitro and in vivo. Among the 40 sperm-specific monoclonal antibodies that had been examined, nine showed significant inhibition of the fertilization of mouse oocytes in vitro. MS 204 was shown to cause a high incidence of penetration of the zona pellucida of mouse eggs by multiple sperm, when the sperm concentration for insemination exceeds 1 × 10 5/ml. This antibody prevented further penetration of the vitelline membrane by sperm. On the other hand, sperm penetration to zona was inhibited in the presence of MS 207. However, neither MS 204 nor MS 207 caused significant inhibition of penetration of zona-free mouse or hamster eggs by sperm. MS 204 and MS 207 were also found to inhibit the fertilization of mouse oocytes in vivo and embryo development in vitro, when superovulated mice were injected intraperitoneally with given doses of antibodies prior to the mating. Further in vitro culture of the recovered 2-cell oocytes revealed little or no further embryo development beyond two- to four-cell stages. In the controls, > 80% of the retrieved oocytes were fertilized and successively developed to the blastocyst stages in vitro when the ascites fluid from NS-1 cells was administered. Two of the monoclonal antibodies generated against human sperm antigens. HS11 and HS 63, were shown to cross-react specifically with mouse sperm acrosomal antigens and also inhibited the fertilization of mouse oocytes in vitro and in vivo. The results of this study suggest that some monoclonal antibodies to sperm acrosomal antigens exhibit strongly inhibitory effects on the in vitro and in vivo fertilization of mouse oocytes as well as subsequent development of early embryos. As a comparative control, rabbit antisera against sperm-specific enzymes, lactate dehydrogenase-X and 3-phosphoglycerate kinase-2, showed little or no inhibition on the fertilization of mouse oocytes in vitro or in vivo or the subsequent embryo development.

O-linked oligosaccharides of mouse egg ZP3 account for its sperm receptor activity

Previously, we reported that ZP3, one of three different glycoproteins present in the mouse egg's zona pellucida, serves as a sperm receptor. Furthermore, small glycopeptides derived from egg ZP3 retain full sperm receptor activity, suggesting a role for carbohydrate, rather than polypeptide chain in receptor function. Here, we report that removal of O-linked oligosaccharides from ZP3 destroys its sperm receptor activity, whereas removal of O-linked oligosaccharides has no effect. A specific size class of O-linked oligosaccharides, recovered following mild alkaline hydrolysis and reduction of ZP3, is shown to possess sperm receptor activity and to bind to sperm. The results presented strongly suggest that mouse sperm bind to eggs via O-linked oligosaccharides present on ZP3.

Movement characteristics of hamster and guinea pig spermatozoa upon attachment to the zona pellucida.

Movement characteristics of hamster and guinea pig spermatozoa were studied by high-speed cinemicrography before and after initial binding to the zona pellucida. Hamster spermatozoa that had previously undergone motility activation in vivo or in vitro maintained vigorous behavior upon zona attachment. They continued to propagate flagellar waves of large amplitude and curvature, although these waves were much more symmetrical than when prior to zona attachment. The hamster sperm activated in vitro appeared slightly stimulated upon zona attachment. Such spermatozoa also bound to the zonae pellucidae of mouse eggs, and they exhibited similar movements. Preactivated hamster spermatozoa, fresh from the epididymis, did attach to the hamster zona, but exhibited relatively weak flagellar beats of low amplitude and frequency. Guinea pig spermatozoa, activated in vitro, also continued such movement and appeared somewhat stimulated upon attachment to the zona pellucida of their species.

Mammalian sperm-egg interaction: Identification of a glycoprotein in mouse egg zonae pellucidae possessing receptor activity for sperm

Sperm-egg interaction in mammals is initiated by binding of sperm to the zona pellucida, an acellular coat completely surrounding the plasma membrane of unfertilized eggs. Zonae pellucidae of mouse eggs are composed of three different glycoproteins, designated ZP1, ZP2 and ZP3, having apparent molecular weights of 200,000, 120,000 and 83,000, respectively (Bleil and Wassarman, 1978, 1980a, 1980b). In this investigation, ZP1, ZP2 and ZP3 were purified from zonae pellucidae isolated individually from unfertilized mouse eggs and 2-cell embryos. Each of the glycoproteins was then tested for its ability to interfere with the binding of sperm to eggs in vitro. Solubilized zonae pellucidae isolated from unfertilized eggs, but not from 2-cell embryos, reduced binding of sperm to as little as 10% of control values. Similarly, ZP3 purified from zonae pellucidae of unfertilized eggs reduced the binding of sperm to eggs in vitro to an extent comparable to that observed with solubilized zonae pellucidae. On the other hand, ZP3 purified from zonae pellucidae of 2-cell embryos had no significant effect on the extent of sperm binding, consistent with the inability of solubilized zonae pellucidae from 2-cell embryos to affect sperm binding. In no case did purified ZP1 and ZP2 interfere significantly with the binding of sperm to eggs in vitro. These results suggest that ZP3 possesses the receptor activity responsible for the binding of sperm to zonae pellucidae of unfertilized mouse eggs. Fertilization apparently results in modification of ZP3 such that it can no longer serve as a receptor for sperm.

Cell fusion induced by a virus within the zona pellucida of mouse eggs.

MAMMALIAN egg cells, like other cells, can be fused in culture in the presence of a virus1,2. But because many viruses do not infect eggs which possess a zona pellucida3, fusion of egg cells has been performed after its removal. This manipulation reduces the rate of successful development in early cleavage eggs4, which if transferred to recipient oviducts adhere to the epithelium and degenerate5. Now we report multinucleation and nuclear fusion within the zona pellucida of mouse eggs injected with a suspension of Sendai virus and somatic cells into the perivitelline cavity.