Human sperm bind to the N-terminal domain of ZP2 in humanized zonae pellucidae in transgenic mice

Fertilization requires taxon-specific gamete recognition, and human sperm do not bind to zonae pellucidae (ZP1-3) surrounding mouse eggs. Using transgenesis to replace endogenous mouse proteins with human homologues, gain-of-function sperm-binding assays were established to evaluate human gamete recognition. Human sperm bound only to zonae pellucidae containing human ZP2, either alone or coexpressed with other human zona proteins. Binding to the humanized matrix was a dominant effect that resulted in human sperm penetration of the zona pellucida and accumulation in the perivitelline space, where they were unable to fuse with mouse eggs. Using recombinant peptides, the site of gamete recognition was located to a defined domain in the N terminus of ZP2. These results provide experimental evidence for the role of ZP2 in mediating sperm binding to the zona pellucida and support a model in which human sperm-egg recognition is dependent on an N-terminal domain of ZP2, which is degraded after fertilization to provide a definitive block to polyspermy.     

Mouse sperm antigens that participate in fertilization. IV. A monoclonal antibody prevents zona penetration by inhibition of the acrosome reaction

To investigate the molecular basis of gamete interaction in mammals, monoclonal antibodies (mAbs) have been generated by syngeneic immunization with mouse testis. Previous work has described two particular mAbs, M41 and M42, which localize indistinguishably to the plasma membrane overlying a restricted portion of the acrosome, but recognize different antigens. One of the mAbs, M42, inhibits mouse fertilization in vitro significantly, but only in the presence of the zona pellucida, whereas M41 has no apparent effect upon any assayable event in the fertilization process. The experiments described here were performed to identify the precise event of sperm-zona interaction (sperm-zona binding, induction of the acrosome reaction, or penetration through the zona) that is affected by M42 mAb. Capacitated mouse sperm binding to the zona pellucida was undiminished following pretreatment with M42 mAb, when compared to levels achieved using either no mAb- or to M41 mAb-treated control sperm. When the effect of mAbs on the zona-induced AR was examined, the percentage of acrosome reacted (AR) sperm at the zona surface increased with time, plateauing at approximately 90 min post-insemination, with 78% of the bound cells AR in the control and the M41 mAb-treated groups. M42-treated sperm never achieved greater than 23% AR cells over the 120-min interval assayed. To quantitate this effect, capacitated sperm were exposed to increasing concentrations of acid-solubilized zonae. Increased proportions of AR sperm were found in the control and M41 mAb-treated groups, up to a maximum of 70-76% AR cells with 8 or 12 zonae/microliter. In contrast, M42-treated sperm displayed only 21-28% AR cells over the entire range of zonae concentrations tested. An entirely different result emerged when acrosome reactions were induced with A23187: M42 was no longer able to prevent the AR. This ability of A23187 to override M42 mAb's inhibitory effect on the AR permitted specific examination of the possible effect of M42 mAb on sperm penetration through the zona pellucida. In the presence of A23187, zona penetration levels for M42 mAb-treated sperm were equivalent, both qualitatively and quantitatively, to control and to M41 mAb-treated sperm under the same conditions. It appears, therefore, that M42 mAb identifies a high molecular weight doublet (220-240 kDa) of mouse sperm that participates specifically in the induction of the sperm's acrosome reaction as it occurs under physiological conditions.     

Involvement of multimeric protein complexes in mediating the capacitation-dependent binding of human spermatozoa to homologous zonae pellucidae

The recognition and binding of a free-swimming spermatozoon to an ovulated oocyte is one of the most important cellular interactions in biology. While traditionally viewed as a simple lock and key mechanism, emerging evidence suggests that this event may require the concerted action of several sperm proteins. In this study we examine the hypothesis that the activity of such proteins may be coordinated by their assembly into multimeric recognition complexes on the sperm surface. Through the novel application of blue native polyacrylamide gel electrophoresis (BN-PAGE), we tender the first direct evidence that human spermatozoa do indeed express a number of high molecular weight protein complexes on their surface. Furthermore, we demonstrate that a subset of these complexes displays affinity for homologous zonae pellucidae. Proteomic analysis of two such complexes using electrospray ionization mass spectrometry identified several of the components of the multimeric 20S proteasome and chaperonin-containing TCP-1 (CCT) complexes. The latter complex was also shown to harbor at least one putative zona pellucida binding protein, ZPBP2. Consistent with a role in the mediation of sperm-zona pellucida interaction we demonstrated that antibodies directed against individual subunits of these complexes were able to inhibit sperm binding to zona-intact oocytes. Similarly, these results were able to be recapitulated using native sperm lysates, the zona affinity of which was dramatically reduced by antibody labeling of the complex receptors, or in the case of the 20S proteasome the ubiquitinated zonae ligands. Overall, the strategies employed in this study have provided novel, causal insights into the molecular mechanisms that govern sperm-egg interaction.     

Two-dimensional polyacrylamide gel electrophoresis characterization of APz, a sperm protein involved in zona binding in the pig and evidence for its binding to specific zona glycoproteins

A boar sperm integral plasma membrane protein (APz) involved in the adhesion of uncapacitated and capacitated sperm to the porcine zona pellucida (ZP) has been characterized by two-dimensional polyacrylamide gel electrophoresis (PAGE) and tested for its ability to bind to various zona glycopeptides. APz shows microheterogeneity and focuses over a wide pH range, with predominant forms focusing above pH 7. The protein, when excised from nonreducing polyacrylamide gels, inhibited sperm-egg binding and bound heat-solubilized zonae preventing these zonae from blocking sperm binding to eggs. In an indirect assay, a polyclonal monovalent antibody, which blocks sperm-egg binding and which is absorbed by APz, was used to determine the ability of zona glycopeptides to prevent the sperm-egg blocking activity of the antibody from being absorbed by intact sperm. When whole heat-solubilized ZP was added to sperm at doses that block sperm-egg binding and the excess ZP was removed, the sperm-egg blocking activity of the antibody was not absorbed by these sperm, and antibody-containing supernatants blocked the binding of untreated sperm to eggs as effectively as antibody that was not mixed with fresh sperm. When alpha ZP3 was used in the same manner, sperm-egg blocking activity again was not absorbed by antibody-treated cells. Beta ZP3, however, failed to block sperm-egg binding and failed to absorb the sperm-egg blocking activity of the antibody. These findings support the argument that the action of APz is physiologically significant and involves specific binding sites on the ZP3 component of the ZP.     

Evidence for specific binding of uncapacitated boar spermatozoa to porcine zonae pellucidae in vitro

Washed ejaculated boar sperm and sperm from the cauda epididymis bind to the zona pellucida of fixed porcine eggs in large numbers. Sperm incubated in the presence of dextran sulfate (8 K daltons or 500 K daltons) or fucoidan and then washed no longer bind to eggs. Other acid carbohydrates (heparin, chondroitin sulfates, inositol hexasulfate, carboxymethylcellulose) fail to block sperm-egg binding even when added directly to sperm-egg suspensions. Seminal plasma and the seminal vesicle secretion contain basic proteins which bind tightly to sperm and bind reversibly to eggs preventing sperm from binding to eggs. When dextran sulfate or fucoidan are mixed with the vesicular secretion, from which seminal plasma basic proteins originate (Hunt et al., '83), the secretion loses the capacity to prevent sperm from binding to eggs; this suggests that seminal vesicle proteins can bind to the same site on zonae as do sperm and thus seminal plasma may modify sperm-egg interactions. Corpus and cauda epididymal sperm also bind in large numbers to the zona pellucida of isolated eggs but high concentrations of caput sperm, which exhibit high motility in the presence of caffeine, bind only in few numbers. Thus a component that enhances sperm-zona binding is apparently formed on the plasma membranes of uncapacitated sperm during passage through the epididymis. This finding, and an earlier observation that antibodies raised against uncapacitated sperm plasma membranes block sperm-egg binding in vivo (Peterson et al., '83) suggest that this component may be involved in sperm zona interaction in vivo.     

Release of a factor during early stages of contact between hamster sperm and eggs in vitro

A sensitive bioassay was devised which detected the release of a factor resulting from contact between the surfaces of sperm and zona pellucida of the golden hamster in vitro. This assay is based upon the ability of the factor to induce premature binding between the gametes. Release of the factor occurred in a dose-dependent manner as a function of increasing concentration of sperm, but only after they were capacitated, i.e., subjecting sperm to those conditions which endow them with the ability to penetrate the egg. The factor was released, in what appeared to be pulses of activity, throughout the 40-minutes prepenetration period, and this release culminated in a large pulse which was rapidly terminated soon after penetration began. The factor was also detected following contact with homologous zonae pellucidae from which the vitellus had been mechanically removed. Thus, factor release and cessation of its release occurred independently of the vitellus. When hamster eggs or isolated zonae were replaced by those of the mouse, the factor was not detected even though hamster sperm attached to them; nor was it recovered when isolated zonae or eggs of the hamster were treated with trypsin before exposure to sperm. Factor release and penetration of eggs were inhibited in a similar manner as a function of increasing concentrations of trypsin. This finding and the observation that the factor was not detected when the sperm were not capacitated, and therefore incapable of penetration, suggests that a relationship may exist between factor release and penetration.     

精子膜麦芽凝集素结合糖蛋白抗原某些特性的研究

应用自制的抗牛精子膜麦芽凝集素结合糖蛋白血清,对兔、人、小鼠和仓鼠精子进行了免疫细胞化学定位,结果各种动物精子均呈阳性反应,且以精子顶体区标记最强,与麦芽凝集素亲和细胞化学的标记结果相似。用抗血清处理地鼠精子,再与同种卵子进行体外结合试验,结果精子与卵于透明带的结合受到显著抑制、本实验的结果提示,牛精子膜麦芽凝集素结合糖蛋白抗原具有种间交叉反应性,并可能在精子与卵子透明带结合过程中具有重要作用。     

Sperm-egg interactions in the mouse: sequence of events and induction of the acrosome reaction by a zona pellucida glycoprotein

In this investigation, the interaction of mouse sperm with unfertilized eggs and embryos, solubilized zonae pellucidae isolated from eggs and embryos, and purified zona pellucida glycoproteins ZP1, 2, and 3 (J. D. Bleil, and P. M. Wassarman, (1980b) Dev. Biol. 76, 185-202) has been examined in vitro by light and electron microscopy. The experiments described were carried out in order to determine the temporal sequence of events during sperm-egg interaction in vitro and to identify the component(s) of zonae pellucidae responsible for inducing mouse sperm to undergo the acrosome reaction. "Pulse-chase" analysis of the sequence of sperm-egg interactions revealed that mouse sperm first "attach" loosely and then "bind" tightly to the unfertilized egg's zona pellucida. Binding of sperm to egg zonae pellucidae is followed by induction of the acrosome reaction. Induction of the acrosome reaction can be mediated by the zona pellucida, since solubilized zonae pellucidae isolated from unfertilized eggs were found to be just as effective as the calcium ionophore A23187 in inducing the reaction in vitro. Furthermore, ZP3 purified from zonae pellucidae isolated from unfertilized eggs, but not from two-cell embryos, was also just as effective as either solubilized zonae pellucidae from eggs or ionophore A23187 in inducing the acrosome reaction. ZP1 and 2 from both eggs and embryos, and ZP3 from embryos, had little effect on the extent of the acrosome reaction as compared to control samples. The results of these and other experiments (J. D. Bleil, and P. M. Wassarman, (1980b) Cell 20, 873-882) strongly suggest that, at least in vitro, mouse sperm recognize and bind to ZP3 of egg zonae pellucidae, and that such binding leads to the induction of the acrosome reaction. Modification of ZP3 following fertilization eliminates sperm binding to zonae pellucidae and, consequently, induction of the acrosome reaction is precluded.     

In vivo fertility of rams in relation to sperm-zona pellucida binding and sperm-zona pellucida penetration of ovine oocytes

Sperm-zona pellucida (zona) binding and sperm-zona penetration have been suggested for use as in vitro bioassays of fertility since both are essential steps in the fertilization process. The correlations of sperm-zona binding and sperm-zona penetration with the in vivo fertility of sheep were investigated in this study. In vivo fertility was estimated from a heterospermic insemination trial using cryopreserved ram semen. Neither zona binding, zona penetration nor the ability to undergo an acrosome reaction was significantly correlated with the in vivo fertility of the rams (P = 0.78, P = 0.66, and P = 0.85, respectively). These results suggest that the zona binding and zona penetration bioassays may not be useful estimators for assessing cryopreserved ram sperm fertility.     

Behaviour and role of an intra-acrosomal antigenic molecule, acrin 3, during mouse fertilisation in vitro

In this study we examined the behaviour and role of an intra-acrosomal antigenic molecule, acrin 3, during mouse fertilisation in vitro by assessing the effect of its pertinent monoclonal antibody mMC101. Experiments were designed to assess the effect of mMC101 on sperm-zona pellucida binding, the acrosome reaction, zona pellucida penetration, sperm-egg fusion, and fertilisation in vitro. mMC101 did not affect sperm motility or primary and secondary binding to the zona pellucida, but significantly inhibited fertilisation of zona-pellucida-intact oocytes in a dose-dependent manner. In the presence of mMC101 at 100 microg/ml concentration in TYH medium, none of the oocytes developed to pronuclear stage by 5 h after co-incubation of the gametes, but the pronucleus formation rate recovered to some extent (45.3%) after 8 h, indicating a delay of early embryonic development. mMC101 also delayed and significantly suppressed zona pellucida penetration by sperm. Acrin 3 dispersed and did not remain on completely acrosome-reacted sperm. Although mMC101 did not influence the zona-pellucida-induced acrosome reaction, it significantly inhibited fertilisation when acrosome-reacted sperm in the presence of mMC101 inseminated zona-pellucida-free oocytes. However, fertilisation remained unaffected when acrosome-reacted sperm in the absence of mMC101 inseminated zona-pellucida-free oocytes even in its presence. Thus, acrin 3 appears to facilitate zona pellucida penetration and is also likely to be involved in sperm-oocyte fusion by modifying the sperm plasma membrane during the acrosome reaction.     

Ionic calcium levels in oviduct explant-conditioned media from an Australian marsupial, the brushtail possum (Trichosurus vulpecula) and its relevance to in vitro fertilization

Gametes from the brushtail possum (Trichosurus vulpecula), an Australian marsupial, require exposure to oviductal cells and/or their secretions before sperm binding and penetration of the zona pellucida can occur. Sperm-egg fusion, the next critical step in fertilization has not previously been reported in vitro. Here we describe the refinement of an oviduct epithelial cell (OEC) explant culture system using two different media to obtain in vitro sperm-egg fusion in the brushtail possum for the first time. Conditioned media from OEC explant cultures were supplemented with either 1% fetal calf serum (FCS) or 1 mg/ml polyvinyl alcohol and used for co-culture of epididymal sperm and superovulated eggs. Under these conditions zona penetration rates varied from 0 to 46% and sperm-egg fusion from 0 to 20%. Analysis of explant conditioned media indicated that qualitative and quantitative differences between batches could account, at least partially, for the large variability in zona penetration rates. Conditioned media that contained approximately 1 mM of ionic calcium were most effective for achieving sperm capacitation, zona binding, and penetration and sperm-egg fusion. The reorientation of the sperm head to T-shape, an indicator of capacitation in the brushtail possum, was closely linked with the concentration of calcium present in vitro.     

Localization of zona pellucida binding sites on rabbit spermatozoa and induction of the acrosome reaction by solubilized zonae

The binding of mammalian spermatozoa to the egg's extracellular coat, the zona pellucida, is a complex process which culminates in species-specific penetration of the sperm to the egg plasma membrane. To investigate where on the spermatozoon's surface the zona binding sites are located, whole rabbit zonae were labeled with FITC, heat solubilized and used to observe the surface binding patterns on live spermatozoa. Before the acrosome reaction the zona binding sites are located either over the entire head as well as the middle piece or alternatively in patches along the apical ridge of the head. After the acrosome reaction there is a 29% loss of fluorescence and the zona binding sites are present in the posterior aspect of the acrosomal region, the anterior postacrosomal region and the middle piece. These results demonstrate the presence of zona binding sites after the acrosome reaction which would account for the sperm's ability to remain bound to the zona after the acrosome reaction. Further, we report for the first time that solubilized rabbit zonae pellucidae will induce the acrosome reaction in in vitro capacitated rabbit sperm whereas solubilized pig zonae pellucidae will not. Since rabbit sperm bind pig zonae, the induction and specificity of the physiological acrosome reaction must reside in the affinity of the binding rather than the binding itself.     

Polypeptide backbone derived from carboxyl terminal of mouse ZP3 inhibits sperm-zona binding

For mammalian organism, fertilization begins with species-specific recognition between sperm and egg, a process depending upon egg zona pellucida glycoproteins and putative sperm interacting protein(s). In mouse, zona pellucida glycoprotein ZP3 is believed to be the primary receptor for sperm and inducer of sperm acrosomal reaction, and its function has been attributed to the specific O-linked oligosaccharides attached to polypeptide backbone. While lots of reports have focused on the role of ZP3's oligosaccharides in fertilization, there are few concerning its polypeptide backbone. To investigate whether mZP3 polypeptide backbone is involved in sperm-egg recognition, three partially overlapping cDNA fragments, together covering entire mouse ZP3, were cloned, expressed and purified under denaturing condition. Although all three refolded proteins possess native conformation, only one derived from the carboxyl terminal showed inhibitory effect to the sperm-zona binding during in vitro fertilization. This phenomenon could not be explained by enhanced acrosomal exocytosis rate, in that the acrosomal reaction assay demonstrated its inability to induce the acrosomal reaction. Our results suggest that the carboxyl terminal of mZP3 polypeptide backbone interacts with sperm and such interaction plays a significant role in sperm-zona binding, ultimately successful fertilization.     

Human sperm do not bind to rat zonae pellucidae despite the presence of four homologous glycoproteins

The specificity of sperm-egg recognition in mammals is mediated primarily by the zona pellucida surrounding ovulated eggs. Mouse sperm are quite promiscuous and bind to human eggs, but human spermatozoa will not bind to mouse eggs. The mouse zona pellucida contains three glycoproteins, ZP1, ZP2, and ZP3, which are conserved in rat and human. The recent observation that human zonae pellucidae contain a fourth protein raises the possibility that the presence of four zona proteins will support human sperm binding. Using mass spectrometry, four proteins that are similar in size and share 62-70% amino acid identity with human ZP1, ZP2, ZP3, and ZP4/ZPB were detected in rat zonae pellucidae. However, although mouse and rat spermatozoa bind to eggs from each rodent, human sperm bind to neither, and the presence of human follicular fluid did not alter the specificity of sperm binding. In addition, mutant mouse eggs lacking hybrid/complex N-glycans or deficient in Core 2 O-glycans were no more able to support human sperm binding than normal mouse eggs. These data suggest that the presence of four zona proteins are not sufficient to support human sperm binding to rodent eggs and that additional determinants must be responsible for taxon-specific fertilization among mammals.     

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.     

A preferential site for sperm-egg fusion in mammals

The tendency of mammalian sperm-egg fusion to occur at a site away from the first polar body was investigated in a homologous (mouse oocytes and mouse spermatozoa) and in a heterologous model (hamster oocytes and mouse spermatozoa). Following micromanipulation of the zona pellucida either in proximity to or opposite the first polar body, in vitro fertilization was performed and subsequent differences in sperm-egg interaction were evaluated. Since spermatozoa from random-bred mice do not readily penetrate intact zonae pellucidae in vitro, it is likely that zona penetration occurred through the artificial holes in both models. The creation of a gap in the zona pellucida opposite the first polar body was associated with levels of sperm fusion that were significantly higher than those resulting from manipulation near the first polar body. Spermatozoa were rarely found to penetrate the hole completely, and in general few spermatozoa were observed in the pervitelline space. The proximity between pronuclei following sperm penetration was correlated with the position of the incision with respect to the polar body. The findings suggest that breaching the zona pellucida for microsurgical fertilization should be performed away from the microvillus-free area of the oocyte.     

Time and process of sperm penetration into cumulus-free mouse eggs fertilized in vitro

Sperm penetration through the zona pellucida and fusion of the sperm head with the vitellus were observed continuously and filmed under phase optics in cumulus-free living mouse eggs inseminated in vitro with capacitated epididymal sperm. Most spermatozoa penetrated the zona pellucida, traversed the perivitelline space, and fused with the vitellus at an angle nearly perpendicular to the surface. The mean duration required for sperm to penetrate the zona pellucida was 20 minutes with a range of 15–26 minutes. Sperm traversed the perivitelline space in less than one second. The initial contact of sperm with the vitellus generally took place at the tip of the sperm head. When the tip of the sperm head contacted the vitellus there was an immediate reduction in the rate of flagellation, followed by the gradual sinking of the sperm head into the vitellus.     

Further characterization of boar sperm plasma membrane proteins with affinity for the porcine zona pellucida

Boar sperm plasma membrane proteins (PMPs) with affinity for the zona pellucida were partially purified from columns of dextran sulfate using a linear salt gradient and a buffered detergent that retained their ability to block directly the binding of uncapacitated and capacitated sperm to isolated porcine oocytes. PMPs that bound most strongly to dextran sulfate (fraction IV) were also most effective in blocking sperm binding to porcine oocytes. These tightly bound proteins also bound to isolated zonae to a greater extent than other fractions. Monovalent antibodies to fraction IV PMPs completely blocked sperm binding to isolated eggs. Fraction IV PMPs lost the ability to inhibit directly the binding to eggs when treated with chaotropic agents and trypsin; the fraction also displayed a tendency to aggregate in the absence of high salt. This property and the affinity of proteins in this fraction for sulfated polysaccharides indicate that specific hydrophilic interactions may play a significant role in sperm-zona attachments.     

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.