Disulfide formation in bovine zona pellucida glycoproteins during fertilization: evidence for the involvement of cystine cross-linkages in hardening of the zona pellucida

The time for solubilization of the bovine zona pellucida in a hypotonic buffer containing 5% (v/v) beta-mercaptoethanol and 7 mol urea l-1 increased by 10% after fertilization. Coupling with a specific fluorescent thiol probe, monobromobimane (mBBr), was markedly greater in the zona pellucida of ovarian eggs compared with fertilized eggs, indicating that the cysteine residues in the zona pellucida of unfertilized eggs are oxidized to cystines during fertilization. After endo-beta-galactosidase digestion to remove N-acetyllactosamine repeats of the carbohydrate chains, three zona pellucida glycoproteins (ZPA, ZPB and ZPC) coupled with the fluorescent bimane groups were fractionated efficiently by reverse-phase HPLC. Estimation of bimane groups in the three components and SDS-PAGE revealed that intramolecular disulfide bonds in ZPA and intra- and intermolecular disulfide bonds in ZPB were formed during fertilization, but oxidation of cysteine residues in ZPC was low. Specific proteolysis of ZPA during fertilization was also observed. These results indicate that the formation of disulfide linkages together with specific proteolysis result in the construction of a rigid zona pellucida structure, which is responsible for hardening of the zona pellucida.     

Structure and function of the mammalian egg zona pellucida.

The zona pellucida is a thick extracellular coat that surrounds all mammalian eggs and preimplantation embryos. The zona pellucida supports communication between oocytes and follicle cells during oogenesis; protects oocytes, eggs, and embryos during development, and regulates interactions between ovulated eggs and free-swimming sperm during and following fertilization. Mutant females that produce eggs that lack a zona pellucida are infertile. The functions of the zona pellucida during fertilization now can be ascribed to certain of its glycoproteins. Here we describe some aspects of zona pellucida structure and function as they relate to mammalian fertilization. J. Exp. Zool. (Mol. Dev. Evol.) 285:251-258, 1999.     

Follicular dysfunction induced by autoimmunity to zona pellucida

The mammalian zona pellucida is an extracellular matrix that occurs in growing oocytes, ovulated eggs and pre-implantation embryos, and is known to be involved in several important events during ovarian folliculogenesis and fertilization. Since the zona pellucida is formed at an early stage of oocyte growth, circulating antibodies against zona pellucida may impair ovarian function. In this article we discuss whether anti-zona antibodies cause ovarian dysfunction and infertility. The discussion is based on clinical examination and animal experiments including the following approaches: 1/ immunological method using solubilized human zona pellucida detected anti-zona antibody with a high frequency in infertile patients, especially premature ovarian failure syndrome; 2/ in vivo experiment using hamsters showed that some, but not all, animals experienced ovarian failure after immunization with hamster recombinant zona proteins; 3/ in vitro experiment using mouse isolated ovarian follicles showed significant inhibitory effects on follicular growth and oocyte development. We concluded that anti-zona antibody may be involved in causing ovarian failure.     

Predominance of beta-structure in solubilized zona pellucida from porcine ova

The isolated zona pellucida from porcine ova was effectively solubilized in water at 60 degrees C within one hour. The circular dichroic spectra of zona in water with and without dithiothreitol showed the beta-form. Although sodium dodecyl sulfate partially induced helical structure, the beta-form was considerably retained. These results indicate that the zona glycoproteins have a structure-forming potential for the beta-structure and the hydrogen bonds of the beta-structure stabilize the supramolecular complex of the zona pellucida. The beta-form was also detected in zona solubilized by tryptic digestion. Porcine acrosin, however, did not solubilize the zona.     

A role for mouse sperm surface galactosyltransferase in sperm binding to the egg zona pellucida

Past studies have suggested that mouse sperm surface galactosyltransferase may participate during fertilization by binding N- acetylglucosamine (GlcNAc) residues in the zona pellucida. In this paper, we examined further the role of sperm surface galactosyltransferase in mouse fertilization. Two reagents that specifically perturb sperm surface galactosyltransferase activity both inhibit sperm-zona binding. The presence of the milk protein alpha- lactalbumin specifically modifies the substrate specificity of sperm galactosyltransferase away from GlcNAc and towards glucose and simultaneously inhibits sperm binding to the zona pellucida. Similarly, UDP-dialdehyde inhibits sperm binding to the zona pellucida and sperm surface galactosyl-transferase activity to identical degrees. Of five other sperm enzymes assayed, four are unaffected by UDP-dialdehyde, and one is affected only slightly. Covalent linkage of UDP-dialdehyde to sperm dramatically inhibits binding to eggs, while treatment of eggs with UDP-dialdehyde has no effect on sperm binding. Heat-solubilized or pronase-digested zona pellucida inhibit sperm-zona binding, and they can be glycosylated by sperm with UDP-galactose. Sperm are also able to glycosylate intact zona pellucida with UDP-galactose. Thus, solubilized and intact zona pellucida act as substrates for sperm surface GlcNAc:galactosyltransferases. Finally, pretreatment of eggs with beta- N-acetylglucosaminidase inhibits sperm binding by up to 86%, while under identical conditions, pretreatment with beta-galactosidase increases sperm binding by 55%. These studies, in conjunction with those of the preceding paper dealing with surface galactosyltransferase changes during capacitation, directly suggest that galactosyltransferase is at least one of the components necessary for sperm binding to the zona pellucida.     

Changes in the properties and composition of zona pellucida of pigs during fertilization in vitro.

Several hundred fertilized pig eggs were prepared by an in vitro fertilization (IVF) technique in which follicular phase ovarian eggs were matured in vitro to metaphase II before incubation with capacitated epididymal spermatozoa for 12 h at 39 degrees C. Parthenogenetic eggs were also prepared by stimulation of the mature eggs with an electric pulse. The zonae were solubilized with 0.2% pronase/phosphate-buffered saline (PBS) or lactic acid/PBS. The time taken for solubilization was 30-40% shorter than for unfertilized eggs, indicating that zona hardening was induced during fertilization. At the same time, the sperm receptor activity of the zona was reduced. Electrophoretic analyses of zona glycoproteins from the ovarian, mature and fertilized eggs revealed that the amount of 90 kDa proteins decreased substantially during fertilization. This fraction could barely be detected in the zonae from parthenogenetic eggs. However, modification with a fluorescent probe showed that the general architecture of the zona remained unchanged during fertilization. These results suggest that the minor 90 kDa proteins are specifically degraded by the protease(s) released from the oocyte at fertilization, thereby leading to the block to polyspermy.     

Sperm binding to the zona pellucida is not sufficient to induce acrosome exocytosis

At fertilization, spermatozoa bind to the zona pellucida (ZP1, ZP2, ZP3) surrounding ovulated mouse eggs, undergo acrosome exocytosis and penetrate the zona matrix before gamete fusion. Following fertilization, ZP2 is proteolytically cleaved and sperm no longer bind to embryos. We assessed Acr3-EGFP sperm binding to wild-type and huZP2 rescue eggs in which human ZP2 replaces mouse ZP2 but remains uncleaved after fertilization. The observed de novo binding of Acr3-EGFP sperm to embryos derived from huZP2 rescue mice supports a ;zona scaffold' model of sperm-egg recognition in which intact ZP2 dictates a three-dimensional structure supportive of sperm binding, independent of fertilization and cortical granule exocytosis. Surprisingly, the acrosomes of the bound sperm remain intact for at least 24 hours in the presence of uncleaved human ZP2 regardless of whether sperm are added before or after fertilization. The persistence of intact acrosomes indicates that sperm binding to the zona pellucida is not sufficient to induce acrosome exocytosis. A filter penetration assay suggests an alternative mechanism in which penetration into the zona matrix initiates a mechanosensory signal transduction necessary to trigger the acrosome reaction.     

Ovoperoxidase activity in ionophore treated mouse eggs. II. Evidence for the enzyme's role in hardening the zona pellucida

One consequence of fertilization or parthenogenetic activation of mammalian eggs is an altaration in the solubility proprieties of the zona pellucida, known as zona hardening. Several lines of evidence indicate that an ovoperoxidase, which is activated and/or secreted from mouse eggs. Following parthenogenetic activation, corss-links tyrosine residues in the zona pellucida and results in hardening of the zona. First, zona hardening, as determined by decreased solubility of the zona in pronase, is inhibited by several compounds known to inhibit peroxidases. Inhibitors of hardening include phenylhydrazine, sodium sulfite, sodium azide, and glycine ethyl ester. Second, tyrosine analogs inhibit zona hardening, unless the phenolic hydroxyl group or ortho position is blocked. That is, O-methyltyrosine (methyl substitution of phenolic hydroxyl) does not inhibit hardening; o-methyltyrosine (methyl substitution of one ortho position) partially inhibits, whereas tyramine and N-acetyltyrosine (free hydroxyl and ortho positions) effectively block hardening. Finally, exogenous horseradish peroxidasepromotes limited hardening of the zona in unactivated eggs. These results are consistent with a peroxidase catalyzed cross-linking of tyrosines in the zona that results in hardening of the zona pellucida.     

Ultrastructural study of cat zona pellucida during oocyte maturation and fertilization

The mammalian zona pellucida (ZP) is an extracellular glycoprotein structure formed around growing oocytes, ovulated eggs and preimplantation embryos. The specific functions of ZP are highly determined by its morphological structure. Studies on cat oocytes during maturation and after fertilization were undertaken, using routine transmission (TEM) and scanning electron microscopy (SEM). Two basic ZP layers – outer with rough spongy appearance and inner with smaller fenestrations and smooth fibrous network – were visible. Deposits, secreted by oviductal cells formed new layer, the so called oviductal ZP. After fertilization outer ZP showed rougher meshed network due to fusion between filaments as a consequence from sperm penetration while the inner was smoother with melted appearance. The presented data on the SEM and TEM characteristics of cat oocytes, together with our previous studies on carbohydrate distribution suggest that during oocyte maturation and fertilization ZP undergoes structural and functional rearrangements related to sperm binding and penetration.     

Structure and function of the zona pellucida: Identification and characterization of the proteins of the mouse oocyte's zona pellucida

The zona pellucida is an acellular coat which surrounds the plasma membrane of fully grown mammalian oocytes and which performs a variety of important functions during oogenesis, fertilization, and preimplantation development. In this investigation the proteins of the mouse oocyte's zona pellucida have been identified and characterized by using zonae pellucidae isolated individually from fully grown oocytes with mouth-operated micropipets. Various morphological and biochemical criteria were employed to assess the purity of the isolated zonae pellucidae and, in most cases, they were found to be virtually free of contamination by other oocyte proteins. It was determined that each zona pellucida contains 4.8 ng of protein, which represents 80% or more of the dry weight of the zona pellucida and about 17% of the oocyte's total protein. Electrophoretic analyses of as few as five isolated zonae pellucidae treated with diazotized [¹²⁵I]iodosulfanilic acid revealed the presence of only three radiolabeled proteins, designated ZP1, ZP2, and ZP3. The same three proteins were identified by Coomassie blue staining when large numbers of isolated zonae pellucidae (approximately 750) were subjected to SDS-polyacrylamide gel electrophoresis. These three proteins migrate as broad bands on SDS-polyacrylamide gels, consistent with their being glycoproteins, with apparent molecular weights of 200,000 (ZP1), 120,000 (ZP2), and 83,000 (ZP3). The same proteins were radiolabeled when intact oocytes were treated with diazotized [¹²⁵I]iodosulfanilic acid, a reagent which does not penetrate the oocyte's plasma membrane, or when isolated zonae pellucidae were treated with ³H-labeled 1-dimethylaminonaphthalene-5-sulfonyl chloride. Results of amino acid analysis and high-resolution two-dimensional electrophoresis of the individual proteins suggest that each protein represents a unique polypeptide chain. The proteins ZP1, ZP2, and ZP3 represent about 36, 47, and 17%, respectively, of the total protein of the zona pellucida. In the presence of reducing agents which cause dissolution of the zona pellucida, ZP1 is converted into a species which migrates with an apparent molecular weight of 130,000, suggesting that it exists as an oligomer, stabilized by disulfide bonds, in the unreduced state. The results of these experiments are discussed in terms of the properties of the zona pellucida before and after fertilization and are compared with results obtained using vitelline envelopes of eggs from nonmammalian animal species.     

Mouse gamete interactions: The zona pellucida is the site of the acrosome reaction leading to fertilization in vitro

The question of whether the acrosome reaction, which leads to fertilization, occurs in intact sperm bound to the zona pellucida of the egg or in intact sperm before contact with the egg, was addressed by assessing the effect of 3-quinuclidinyl benzilate (QNB) on the two types of acrosome reaction. QNB is a specific inhibitor of the fertilization of zona-intact mouse eggs by mouse sperm. Mouse spermatozoa in suspension underwent acrosome reactions at a low rate, which could be accelerated by addition of 5 μM divalent cation ionophore A23187; the occurrence of such acrosome reactions was not inhibited by QNB. The rate at which acrosome reactions occurred in sperm bound to the zona pellucida of cumulus-free eggs, bound to isolated zonae, or exposed to acid-solubilized zona components, was greatly accelerated relative to that observed in the absence of zonae. These acrosome reactions were strongly inhibited by QNB at concentrations which inhibit the fertilization of zona-intact mouse eggs in vitro. These data suggest that the zona pellucida can induce acrosome reactions in mouse spermatozoa and that these acrosome reactions are the ones which lead to the fertilization of zona-intact eggs. In contrast, the acrosome rection in sperm which are not in contact with the zona is not associated with fertilization of zona-intact eggs.     

The cytochemistry of glycoconjugates in the zona pellucida of murine ovarian oocytes and two-cell embryos

Summary Changes in glycoconjugates of the zona pellucida induced by maturation, ovulation and fertilization of mouse oocytes have been studied by means of light microscopic methods of cytochemistry. These methods consisted of periodic acid-Schiff (PAS), Alcian Blue pH 1.0 and pH 2.5, and peroxidase-labelled lectin diaminobenzidine (PO—LT—DAB) procedures in combination with the digestion technique with neuraminidase. According to the results obtained, glycoconjugates of the zona pellucida of fertilized eggs contained a smaller amount of sulphate groupings than that in ovarian oocytes, whereas their reactions for sialic acid and fucose residues were significantly stronger in intensity in the former, as compared with those in the latter. The cytophysiological significance of such cytochemical changes in glycoconjugates of the zona pellucida has been discussed with special reference to its functional alterations following maturation, ovulation and fertilization.     

Porcine sperm surface beta1,4galactosyltransferase binds to the zona pellucida but is not necessary or sufficient to mediate sperm-zona pellucida binding.

The binding of sperm to the zona pellucida is an integral part of the mammalian fertilization process, investigated most extensively in the mouse. Several sperm receptors for the murine zona pellucida have been studied (Snell WJ, White JM. 1996. Cell 85:629-637; Wassarman PM. 1999. Cell 96:175-183), but the most compelling evidence exists for beta-1,4-galactosyltransferase (GalTase). Considering that GalTase is present on the surface of porcine sperm (Larson JL, Miller DJ. 1997. Biol Reprod 57:442-453), we investigated the role of GalTase in porcine sperm-zona binding. Sperm surface GalTase catalyzed the addition of uridine diphosphate-[(3)H]galactose to the 55 kDa group of the porcine zona pellucida proteins implicated in sperm binding, demonstrating that GalTase binds the porcine zona. The functional importance of GalTase-zona pellucida binding was tested. Addition of uridine diphosphate galactose, a substrate that completes the GalTase enzymatic reaction and disrupts GalTase mediated adhesion, had no effect on binding of sperm to porcine oocytes. Furthermore, removal of the GalTase zona ligand by incubation of oocytes with N-acetylglucosaminidase had no effect on binding of sperm to oocytes. These results suggest that GalTase is not necessary for sperm to bind to the zona pellucida. Digestion of isolated porcine zona proteins with N-acetylglucosaminidase did not affect the biological activity of soluble porcine zona proteins in competitive sperm-zona binding assays, suggesting that GalTase alone is not sufficient to mediate sperm-zona attachment. From these results, it appears that, although GalTase is able to bind porcine zona proteins, its function in porcine sperm-zona binding is not necessary or sufficient for sperm-zona binding. This supports the contention that porcine sperm-zona binding requires redundant gamete receptors.     

Properties of the zona pellucida of cytochalasin B-induced triploid mouse eggs

The hardening of the zona pellucida as a result of the cortical reaction was estimated in triploid oocytes produced with cytochalasin B by two different procedures. Triploid oocytes resulting from fertilization in the presence of cytochalasin B did not reveal hardening of the zona pellucida unlike triploids obtained by inhibiting in-vitro extrusion of the second polar body in oocytes fertilized in vivo.     

The zona pellucida: a coat of many colors

The zona pellucida is an extracellular coat that surrounds all mammalian eggs. It is a porous matrix of interconnected filaments that are assembled from glycoproteins synthesized and secreted by growing oocytes. The zona pellucida is responsible both for species-specific binding of sperm to unfertilized eggs and inducing bound sperm to undergo the acrosome reaction. The latter enables sperm to penetrate the extracellular coat and fertilize the egg. The zona pellucida also aids in prevention of polyspermy following fertilization and in protection of preimplantation embryos. In mice, several of these important functions can now be ascribed to specific zona pellucida glycoproteins that have been purified and characterized. Furthermore, the enzyme responsible for hatching of embryos from the zona pellucida, just prior to implantation, has been identified and characterized.     

Mechanical properties of zona pellucida hardening

We have investigated the changes in the mechanical properties of the zona pellucida (ZP), a multilayer glycoprotein coat that surrounds mammalian eggs, that occur after the maturation and fertilization process of the bovine oocyte by using atomic force spectroscopy. The response of the ZP to mechanical stress has been recovered according to a modified Hertz model. ZP of immature oocytes shows a pure elastic behavior. However, for ZPs of matured and fertilized oocyte, a transition from a purely elastic behavior, which occurs when low stress forces are applied, towards a plastic behavior has been observed. The high critical force necessary to induce deformations, which supports the noncovalent long interaction lifetimes of polymers, increases after the cortical reaction. Atomic force microscopy (AFM) images show that oocyte ZP surface appears to be composed mainly of a dense, random meshwork of nonuniformly arranged fibril bundles. More wrinkled surface characterizes matured oocytes compared with immature and fertilized oocytes. From a mechanical point of view, the transition of the matured ZP membrane toward fertilized ZP, through the hardening process, consists of the recovery of the elasticity of the immature ZP while maintaining a plastic transition that, however, occurs with a much higher force compared with that required in matured ZP.     

Proteolytic processing of human zona pellucida proteins.

Formation of the egg's extracellular matrix, the zona pellucida, is critical for fertilization and development of growing embryos. Zona pellucida glycoproteins, ZP1, ZP2, and ZP3, are secreted to form an insoluble extracellular matrix surrounding mammalian eggs. All cloned mammalian zona pellucida sequences contain a furin consensus cleavage site, RX(K)/(R)R, upstream of a putative transmembrane domain, which suggests processing by an endoprotease of the furin-proprotein-convertase family. Recombinant expression of human (h) ZP1, ZP2, and ZP3 produces glycoproteins that are secreted and have migration patterns in SDS-PAGE identical to those of native human zona pellucida proteins. Because a C-terminal epitope tag that is present in the cell-associated zona proteins is, however, absent from the secreted zona proteins, secreted recombinant zona pellucida proteins lack their C-terminal regions. Three different strategies were used to explore processing events in the C-terminal region: site-directed mutagenesis of the furin cleavage site, treatment with a competitive inhibitor of all furin family members, and interference with Golgi modifications by Brefeldin A. All treatments altered the SDS-PAGE migration of recombinant hZP3, concordant with cleavage by a furin family member and Golgi glycosylation of secreted hZP3. Furthermore, cleavage of cell-associated hZP3 by exogenous furin converts the migration of cell-associated hZP3 to that of secreted hZP3. To determine whether a similar cleavage pattern exists in zona pellucida proteins that are assembled in the zona matrix, "hZP3 rescue" mouse zonae pellucidae were employed. Immunoblotting experiments revealed that hZP3, assembled and functional in the "hZP3 rescue" mouse zona pellucida, lacks the furin cleavage site, supporting the hypothesis that formation of the zona pellucida matrix involves regulated proteolysis by a member of the furin convertase family.     

Incorporation of mouse zona pellucida proteins into the envelope of Xenopus laevis oocytes

 All vertebrate eggs have extracellular matrices, referred to as the zona pellucida in Mus musculus and the vitelline envelope in Xenopus laevis. The mouse zona, composed of three sulfated glycoproteins (ZP1, ZP2, ZP3), is critical for fertilization and early development, and mice lacking a zona pellucida produce no live offspring. The primary structures of mouse ZP1 (623 amino acids), ZP2 (713 amino acids) and ZP3 (424 amino acids) have been deduced from full-length cDNAs, but posttranslational modifications result in mature zona proteins with molecular masses of 200–180 kDa, 140–120 kDa, and 83 kDa, respectively. The vitelline envelope forms a similar structure around Xenopus eggs and contains three glycoproteins that are structurally related (39–48% amino acid similarity) to the three mouse zona proteins. To investigate whether the structural semblances are sufficient to allow incorporation of the mouse zona proteins into the Xenopus vitelline envelope, capped synthetic mRNAs encoding ZP1, ZP2, and ZP3 proteins were injected into the cytoplasm of stage VI Xenopus oocytes. After 20 h of incubation the oocytes were harvested, and posttranslationally modified zona proteins were detected with monoclonal antibodies specific to mouse ZP1, ZP2, and ZP3. The oocytes were imaged with confocal microscopy to detect individual zona proteins in the extracellular matrix of the oocytes, and this localization was confirmed biochemically. Thus the mouse zona proteins appear to have been sufficiently conserved through 350 million years of evolution to be incorporated into the extracellular envelope surrounding Xenopus eggs. Received: 5 January 1999 / Accepted: 12 February 1999     

Ultrastructural and histochemical changes in the murine zona pellucida during the final stages of oocyte maturation prior to ovulation

The ultrastructural morphology of the mouse zona pellucida was studied in preovulatory follicles from the ovaries of immature mice treated with exogenous gonadotrophins. The ovaries were fixed in the presence of cetylpyridinium chloride, which precipitates carbohydrates, so that their loss during fixation and processing is substantially reduced. The semi-thin araldite sections obtained from osmicated material were viewed by conventional light microscopy, while the ultra-thin sections were examined by transmission electron microscopy. A parallel series of semi-thin sections of non-osmicated ovaries was deresined and subsequently stained with periodic acid Schiff (PAS). The morphological appearance of the zona pellucida in preovulatory oocytes changed during the final stages of oocyte maturation. A close correlation was observed between the ultrastructural appearance of the zona pellucida and that observed following PAS staining during the period studied. Real differences were observed in the location, density, and distribution of glycoconjugates within the zona pellucida during the final stages of oocyte maturation prior to and immediately following germinal vesicle breakdown. Similar changes in the zona were observed in adult females autopsied during proestrus and oestrus. The changes in the density and distribution of glycoconjugates are likely to have important consequences for fertilization by affecting sperm-zona binding and sperm-egg interactions.     

The interaction of living boar sperm and sperm plasma membrane vesicles with the porcine zona pellucida

Enzymological, morphological, and immunological methods were used to characterize further the interaction of noncapacitated boar spermatozoa with the porcine zona pellucida. Transmission electron microscopy showed that sperm usually bind to the zona over the head region of the cell. Only the plasma membrane is involved in this binding. Bound sperm will undergo the acrosome reaction when treated with calcium and the ionophore A23187. The ability of intact sperm to bind to porcine eggs in vitro and the ability of sperm plasma membrane vesicles to absorb univalent antibody to the sperm binding site for the zona were used to determine the effects of various physical, chemical, and enzymological treatments on the sperm binding sites. These sites were resistant to a number of enzymes including proteases and polysaccharidases, but were inactivated by heat and trichloroacetic acid. Binding sites on the zona were inactivated by extracts from small quantities of sperm. Binding was also blocked by Fab antibody to whole zonae absorbed to other swine tissue and by similarly absorbed Fab antibody to sperm plasma membranes. These data provide further support for the presence of zona recognition sites on the plasma membrane of noncapacitated boar sperm. The binding sites on the sperm plasma membrane do not appear to be peripheral membrane proteins nor major constituents of a surface glycocalyx.