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     

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.     

Zona pellucida from fertilised human oocytes induces a voltage-dependent calcium influx and the acrosome reaction in spermatozoa, but cannot be penetrated by sperm

Background  

The functions of three zona glycoproteins, ZP1, ZP2 and ZP3 during the sperm-zona pellucida (ZP) interaction are now well established in mice. The expression of an additional zona glycoprotein, ZPB/4, in humans, led us to reconsider the classical mouse model of gamete interaction. We investigated the various functions of human ZP (hZP) during the interaction of spermatozoa with fertilised and unfertilised oocytes.     

Defective zonae pellucidae in Zp2-null mice disrupt folliculogenesis, fertility and development

All vertebrate eggs are surrounded by an extracellular matrix. This matrix is known as the zona pellucida in mammals and is critically important for the survival of growing oocytes, successful fertilization and the passage of early embryos through the oviduct. The mouse zona pellucida is composed of three glycoproteins (ZP1, ZP2 and ZP3), each encoded by a single copy gene. Using targeted mutagenesis in embryonic stem cells, Zp2-null mouse lines have been established. ZP1 and ZP3 proteins continue to be synthesized and form a thin zona matrix in early follicles that is not sustained in pre-ovulatory follicles. The abnormal zona matrix does not affect initial folliculogenesis, but there is a significant decrease in the number of antral stage follicles in ovaries isolated from mice lacking a zona pellucida. Few eggs are detected in the oviduct after stimulation with gonadotropins, and no two-cell embryos are recovered after mating Zp2-null females with normal male mice. The structural defect is more severe than that observed in Zp1-null mice, which have decreased fecundity, but not quite as severe as that observed in Zp3-null mice, which never form a visible zona pellucida and are sterile. Although zona-free oocytes matured and fertilized in vitro can progress to the blastocyst stage, the developmental potential of blastocysts derived from either Zp2- or Zp3-null eggs appears compromised and, after transfer to foster mothers, live births have not been observed. Thus, in addition to its role in fertilization and protection of early embryos, these data are consistent with the zona pellucida maintaining interactions between granulosa cells and oocytes during folliculogenesis that are critical to maximize developmental competence of oocytes.     

Conserved furin cleavage site not essential for secretion and integration of ZP3 into the extracellular egg coat of transgenic mice

The extracellular zona pellucida surrounding mammalian eggs is formed by interactions of the ZP1, ZP2, and ZP3 glycoproteins. Female mice lacking ZP2 or ZP3 do not form a stable zona matrix and are sterile. The three zona proteins are synthesized in growing oocytes and secreted prior to incorporation into the zona pellucida. A well-conserved furin site upstream of a transmembrane domain near the carboxyl terminus of each has been implicated in the release of the zona ectodomains from oocytes. However, mutation of the furin site (RNRR --> ANAA) does not affect the intracellular trafficking or secretion of an enhanced green fluorescent protein (EGFP)-ZP3 fusion protein in heterologous somatic cells. After transient expression in growing oocytes, normal EGFP-ZP3 and mutant EGFP-ZP3 associate with the inner aspect of the zona pellucida, which is distinct from the plasma membrane. These in vitro results are confirmed in transgenic mice expressing EGFP-ZP3 with or without the mutant furin site. In each case, EGFP-ZP3 is incorporated throughout the width of the zona pellucida and the transgenic mice are fertile. These results indicate that the zona matrix accrues from the inside out and, unexpectedly, suggest that cleavage at the furin site is not required for formation of the extracellular zona pellucida surrounding mouse eggs.     

ZP2 and ZP3 traffic independently within oocytes prior to assembly into the extracellular zona pellucida

The extracellular zona pellucida surrounds mammalian eggs and mediates taxon-specific sperm-egg recognition at fertilization. In mice, the zona pellucida is composed of three glycoproteins, but the presence of ZP2 and ZP3 is sufficient to form a biologically functional structure. Each zona pellucida glycoprotein is synthesized in growing oocytes and traffics through the endomembrane system to the cell surface, where it is released from a transmembrane domain and assembled into the insoluble zona pellucida matrix. ZP2 and ZP3 colocalize in the endoplasmic reticulum and in 1- to 5-microm post-Golgi structures comprising multivesicular aggregates (MVA), but a coimmunoprecipitation assay does not detect physical interactions. In addition, ZP2 traffics normally in growing oocytes in the absence of ZP3 or if ZP3 has been mutated to prevent incorporation into the zona pellucida matrix, complementing earlier studies indicating the independence of ZP3 secretion in Zp2 null mice. N glycosylation has been implicated in correct protein folding and intracellular trafficking of secreted proteins. Although ZP3 contain five N-glycans, enhanced green fluorescent protein-tagged ZP3 lacking N glycosylation sites is present in MVA and is incorporated into the zona pellucida matrix of transgenic mice. Thus, ZP2 secretion is seemingly unaffected by ZP3 lacking N-glycans. Taken together, these observations indicate that ZP2 and ZP3 traffic independently through the oocyte prior to assembly into the zona pellucida.     

Distinct subtypes of zona pellucida morphology reflect canine oocyte viability and cumulus-oocyte complex quality

The aim of this study was to analyze surface morphology of the zona pellucida (ZP) and assess its relationship with oocyte viability, cumulus-oocyte complex (COC) quality, and oocyte donor age in dogs. Canine ovaries were sliced to release COCs for use in three experiments. In Experiment 1, oocytes from high-quality (grade I) COCs were viewed with scanning electron microscopy to visualize the zona surface. Four zonae, classified as types I, II, III, and IV, were detectable on high-quality oocytes. Most (95.5%) dog donors had oocytes with two or three ZP types. The ZP type I had a smooth compact surface with few pores. The ZP type II was less compact with many distinct circular or elliptical pores. The ZP type III had a rough surface with folds and many irregular shaped pores and hollows. The ZP type IV also had a rough surface with folds, but in addition, stringy filaments obscured the pores and hollows. The frequency of ZP type I in the oocyte population was low (2.7%), whereas ZP types II, III, and IV each occurred in approximately one-third of the oocyte population. In Experiment 2, oocytes from high-quality COCs were stained with propidium iodide (PI) before scanning electron microscopy to investigate the relationship of oocyte viability with ZP morphology. In Experiment 3, oocytes were collected from low-quality (grade 2) and high-quality (grade 1) COCs to investigate the role of COC quality on zona structure. Zonae types I and II were characteristic of PI-positive (dead) oocytes and oocytes from low-quality COCs, whereas ZP types III and IV were prevalent on PI-negative (living) oocytes and oocytes from high-quality COCs. We concluded that the heterogeneous ZP surface underwent structural rearrangements related to oocyte viability and COC quality. This warrants further investigation into ZP structure and may be useful for canine-assisted reproduction.     

Cell surface beta-1,4-galactosyltransferase-I activates G protein-dependent exocytotic signaling

ZP3 is a protein in the mammalian egg coat (zona pellucida) that binds sperm and stimulates acrosomal exocytosis, enabling sperm to penetrate the zona pellucida. The nature of the ZP3 receptor/s on sperm is a matter of considerable debate, but most evidence suggests that ZP3 binds to beta-1,4-galactosyltransferase-I (GalTase) on the sperm surface. It has been suggested that ZP3 induces the acrosome reaction by crosslinking GalTase, activating a heterotrimeric G protein. In this regard, acrosomal exocytosis is sensitive to pertussis toxin and the GalTase cytoplasmic domain can precipitate G(i) from sperm lysates. Sperm from mice that overexpress GalTase bind more soluble ZP3 and show accelerated G protein activation, whereas sperm from mice with a targeted deletion in GalTase have markedly less ability to bind soluble ZP3, undergo the ZP3-induced acrosome reaction, and penetrate the zona pellucida. We have examined the ability of GalTase to function as a ZP3 receptor and to activate heterotrimeric G proteins using Xenopus laevis oocytes as a heterologous expression system. Oocytes that express GalTase bound ZP3 but did not bind other zona pellucida glycoproteins. After oocyte maturation, ZP3 or GalTase antibodies were able to trigger cortical granule exocytosis and activation of GalTase-expressing eggs. Pertussis toxin inhibited GalTase-induced egg activation. Consistent with G protein activation, both ZP3 and anti-GalTase antibodies increased GTP-gamma[(35)S] binding as well as GTPase activity in membranes from eggs expressing GalTase. Finally, mutagenesis of a putative G protein activation motif within the GalTase cytoplasmic domain eliminated G protein activation in response to ZP3 or anti-GalTase antibodies. These results demonstrate directly that GalTase functions as a ZP3 receptor and following aggregation, is capable of activating pertussis toxin-sensitive G proteins leading to exocytosis.     

Involvement of carbohydrates in the hardening of the zona pellucida of mouse oocytes

The effect of lectins with different saccharide specificity (ConA, LCA, DBA, WGA and PNA) on enzymatic digestion of the zona pellucida (ZP) of mouse oocytes was studied. All lectins tested, except PNA, induced ZP hardening with different degrees of efficiency. Moreover, extensive ZP digestion with mixed exoglycosidase prevented "spontaneous" ZP hardening. These observations suggest that changes of the carbohydrate moieties can be involved in the hardening of the zona pellucida of mouse oocytes.     

The expression of genes encoding zona pellucida glycoproteins in canine cumulus-oocyte complexes cultured in vitro in media supplemented with progesterone and estradiol

The role of progesterone (P4) and estradiol-17beta (E2) on the efficiency of canine oocyte maturation in vitro is recognized, but little is known about the influence of both steroids on the expression of zona pellucida (ZP) glycoproteins. It has been shown that E2 and P4 used in the IVC significantly influenced canine oocytes meiotic competence, although the effect is specifically related to the combination of hormones used in the experiment. Because both of these steroids may stimulate or inhibit maturation competence of oocytes in a dose-dependent manner, there is a high possibility that they also influence the fertilization ability of canine oocytes. Our study was aimed to analyze whether genes, encoding ZP glycoproteins, are regulated by P4 or E2. Canine cumulus oocyte complexes (COCs) were recovered from anestrous mongrel bitches after ovariohysterectomy and cultured in serum-free tissue culture medium 199. The expression pattern of ZP glycoproteins 2 and 3 (ZP2 and ZP3) mRNAs, using quantitative real-time polymerase chain reaction (RQ-PCR), and of ZP3 and ZP4 proteins, using Western blot analyses, was examined in oocytes after the supplementation of the culture medium with (1) 0.5 μg/mL, 1.0 μg/mL, and 2.0 μg/mL of P4 (experiment 1), or with (2) 2.0 μg/mL E2, and with (3) a combination of E2 (2.0 μg/mL) and P4 (0.5, 1.0, or 2.0 μg/mL, respectively; experiment 2). The analysis revealed an inhibited expression of ZP2 mRNA in oocytes after in vitro maturation (IVM) with different P4 supplementations as compared with oocytes before IVM. The expression of ZP3 mRNA was stimulated (P < 0.01) by the supplementation of 1.0 μg/mL P4. The expression of both ZP3 and ZP4 proteins was also stimulated after the treatment with 1.0 μg/mL P4. On the other hand, the level of ZP2 mRNA was inhibited (P < 0.01) after the supplementation with E2 or with combinations of E2 and P4 as compared with control oocytes. The expression of ZP3 mRNA was significantly higher after the supplementation with E2 and 0.5 μg/mL P4. Similarly, ZP3 and ZP4 proteins were highly expressed (P < 0.01) after such hormone supplementation. The results clearly show that in vitro, P4 regulates the expression of ZP glycoproteins in a dose-dependent manner. We demonstrated that E2 used alone and in combination with P4 upregulates the expression of ZP3 mRNA as well as ZP3 and ZP4 protein in canine oocytes. ZP2 mRNA is downregulated by E2 alone and in combination with E2 and P4. Furthermore, ZP glycoproteins expression is regulated by E2 alone or in combination with P4, and such synergistic or adverse effect is P4 concentration-dependent.     

Actin synthesis is not regulated by granulosa cells in mouse growing and preovulatory oocytes

The synthesis and intracellular distribution of actin were studied in isolated dictyate and metaphase II mouse oocytes by (1) sodium dodecyl sulfate-polyacrylamide gel electrophoresis of newly synthetized oocyte protein and (2) cytochemical F-actin labeling by fluorescent phalloidin. Unpermeabilized, fully grown oocytes bound phalloidin intensely at the level of the zona pellucida (ZP), such ZP-associated actin representing a significant portion of total actin found in these cells. In contrast, phalloidin binding to ZP was very low in growing oocytes and was undetectable in ovulated, metaphase II eggs. When ZP-associated actin of fully grown oocytes was removed by prolongedly exposing oocytes to α-chymotrypsin, the amount of newly synthesized actin displayed by cumulus-enclosed oocytes was reduced to a level comparable to that shown by oocytes isolated from granulosa cells. We demonstrate that ZP-associated actin belongs to granulosa cell processes that remain within the ZP as a consequence of oocyte isolation procedures. We conclude that actin synthesis of mouse oocytes is not regulated by granulosa cells.     

Maturation-associated changes in the rat zona pellucida

Rat follicular oocytes, arrested at prophase I, cannot be fertilized in vitro. This capacity is acquired following resumption of meiosis and a series of changes involving both the oocyte and the cumulus cells surrounding it. Oocytes exposed to sperm at different hours before ovulation show a gradual increase in the permeability of their zona pellucida (ZP). Our study examined whether the ZP, in response to the physiological stimulus for maturation and concomitant with the other oocyte--cumulus components, undergoes maturational changes. Two ZP characteristics were assessed, sensitivity to proteolysis and sperm binding. ZP surrounding oocytes and eggs were collected from five sources: 1) germinal vesicle (GV)-intact oocytes, 2) preovulatory eggs, 3) ovulated eggs isolated from oviducts of immature females, 4) fertilized eggs, 5) ovulated eggs isolated from oviducts of mature females. All ZP surrounding oocytes/eggs from groups 1-5 were dissolved by trypsin. When solubility by pronase and alpha-chymotrypsin was examined, a large variation between groups was found. All ZP from group 2 were dissolved by 0.001% pronase, compared to 0% solubility in group 4. Only 10% of the ZP surrounding GV-intact oocytes (group 1) were dissolved by this enzyme, compared to 82% in group 3. Solubility in 0.01% alpha-chymotrypsin showed a similar pattern. Capacitated sperm were incubated with eggs from groups 1 and 3. The number of sperm binding to ZP in group 3 was repeatedly higher than that in group 1. In both tests it was found that the ZP surrounding the mature eggs differ in their characteristics from ZP of GV-intact oocytes.(ABSTRACT TRUNCATED AT 250 WORDS)     

Porcine zona pellucida: association of sperm receptor activity with the alpha-glycoprotein component of the Mr = 55,000 family

The immunogenicity and sperm receptor activity of five preparations of the major porcine zona pellucida glycoprotein family ZP3 (Mr = 55,000) were investigated. These included (1) ZP3, a chromatographically purified preparation of the 55,000 family; (2) ZP3 alpha, and (3) ZP3 beta, the two-component glycoproteins of the ZP3 family; (4) ZP3-EBGD, a partially deglycosylated preparation of ZP3 obtained by enzymatic treatment; and (5) ZP3-DG, a chemically deglycosylated preparation of ZP3. Titer studies using mouse and rabbit antisera prepared against each preparation yielded the following order of immunogenicity: ZP3 and ZP3 beta greater than ZP3-EBGD and ZP3 alpha greater than ZP3-DG, indicating that ZP3 becomes less immunogenic as more carbohydrate is removed. Pretreatment of intact zona with the various antisera prior to zona exposure to sperm resulted in an inhibition of sperm attachment to those zona treated with antibodies to ZP3, ZP3-EBGD, and ZP3 alpha. Pretreatment of zona with antibodies to ZP3 beta and ZP3-DG had no effect on sperm attachment. Studies involving pretreatment of boar sperm with the various ZP3 preparations prior to their use in a sperm-zona attachment assay and investigations involving displacement of the radiolabeled ZP3 preparations from sperm by unlabeled ZP3 preparations also yielded findings similar to the antibody studies. Collectively, these data indicate that ZP3 alpha probably functions as a zona receptor for boar sperm and that carbohydrate has an important role in maintaining the functional integrity of the ZP3 alpha glycoprotein.