Fertilization failure of frozen mouse oocytes is not due to premature cortical granule release.

The proportion of mouse oocytes that were fertilized in vitro after storage at -196 degrees C in the presence of 1.5 M dimethylsulfoxide (DMSO) was significantly lower than in unfrozen controls (39% vs. 81%). Sperm failed to penetrate the zona pellucida of approximately 80% of the frozen oocytes that remained unfertilized. Removal of the zona restored fertilization to control levels, indicating that changes induced in the zona during freezing and/or thawing were the primary cause of fertilization failure. Sperm-oocyte fusion, sperm nucleus decondensation, and the resumption of meiosis in frozen oocytes appeared to be delayed but subsequently fertilization progressed normally. No evidence was found to suggest zona modification by the premature release of fucosyl-rich glycoconjugates of cortical granule origin onto the surface of the plasma membrane of frozen oocytes stained immediately after thawing with fluorescently labeled Ulex europaeus lectin. Only a few frozen (less than 5%) and control (less than 3%) oocytes that failed to fertilize in vitro had fucosylated molecules on the plasma membrane. Prolonged exposure of fertilized oocytes to DMSO at 4 degrees C did not alter the pattern of lectin binding. In conclusion, fertilization is inhibited in frozen-thawed oocytes by as yet undefined modifications to the zona pellucida which do not involve the premature release of cortical granules.     

Precocious loss of cortical granules during mouse oocyte meiotic maturation and correlation with an egg-induced modification of the zona pellucida

Fertilization results in cortical granule exocytosis, which is thought to be involved in modifications of the zona pellucida that constitute the zona pellucida block to polyspermy. A previous report demonstrated that a decrease in the number of Lens culinaris agglutinin-staining granules, which are likely to be cortical granules, occurred during in vivo mouse oocyte maturation with arrest at metaphase II, as well as the formation of a cortical granule-free domain in the area of the metaphase II spindle (T. Ducibella, E. Anderson, D.F. Albertini, J. Aalberg, and S. Rangarajan, 1988, Dev. Biol. 130, 184-197). We extend these observations by reporting here that germinal vesicle-intact oocytes matured in vitro to metaphase II in either the absence or the presence of serum develop a cortical granule-free domain and have reduced numbers of cortical granules when compared to germinal vesicle-intact oocytes; these changes are similar to those of oocytes matured in vivo. The reduction in the number of cortical granules requires germinal vesicle breakdown, since it is prevented by dibutyryl cAMP, which inhibits germinal vesicle breakdown in vitro. The ability of oocytes to respond to the calcium ionophore A23187 with a reduction in the number of cortical granules is also associated with meiotic maturation and develops between 7 and 12 hr after initiation of maturation. The maturation-associated reduction in the number of cortical granules is likely to represent cortical granule exocytosis, since this reduction is accompanied by the formation of a cortical granule-free domain and a conversion of ZP2 to ZP2f when the oocytes are matured in vitro in serum-free medium; this zona pellucida modification occurs following fertilization and is thought to be due to cortical granule exocytosis. In contrast, the loss of cortical granules and development of the cortical granule-free domain of oocytes matured in vitro in the presence of serum is not accompanied by the modification of ZP2. The inhibitory effect of serum on the ZP2 modification may afford in vivo a physiological mechanism to prevent a precocious modification of the zona pellucida that could result in a premature block to polyspermy and hence inhibit fertilization.     

The hardening effect of dimethylsulphoxide on the mouse zona pellucida requires the presence of an oocyte and is associated with a reduction in the number of cortical granules present

When mouse ovulated oocytes were exposed to 1.5 M-dimethylsulphoxide (DMSO) the resultant hardening of the zona pellucida was not a direct effect but required the presence of an oocyte. The hardening of the zona pellucida when zonae used were aged in vitro was also dependent upon the presence of the oocyte. Protocols of DMSO exposure that induce zona-hardening also caused depletion of the numbers of cortical granules underlying the oocyte surface, whereas protocols without effect on the zona did not reduce significantly the cortical granule count. It is proposed that the effects of DMSO may be mediated by a release of cortical granule contents.     

Egg cortical granule N-acetylglucosaminidase is required for the mouse zona block to polyspermy

The mammalian egg must be fertilized by only one sperm to prevent polyploidy. In most mammals studied to date, the primary block to polyspermy occurs at the zona pellucida, the mammalian egg coat, after exocytosis of the contents of the cortical granules into the perivitelline space. The exudate acts on the zona, causing it to lose its ability to bind sperm and to be penetrated by sperm previously bound to the zona. However, the cortical granule components responsible for the zona block have not been identified. Studies described herein demonstrate that N-acetylglucosaminidase is localized in cortical granules and is responsible for the loss in sperm-binding activity leading to the zona block to polyspermy. Before fertilization, sperm initially bind to the zona by an interaction between sperm surface GalTase and terminal N-acetylglucosamine residues on specific oligosaccharides of the zona glycoprotein ZP3 (Miller, D. J., M. B. Macek, and B. D. Shur. 1992. Nature (Lond.). 357:589-593). These GalTase-binding sites are lost from ZP3 after fertilization, an effect that can be duplicated by N-acetylglucosaminidase treatment. Therefore, N-acetylglucosaminidase, or a related glycosidase, may be present in cortical granules and be responsible for ZP3's loss of sperm-binding activity at fertilization. Of eight glycosidases assayed in exudates of ionophore-activated eggs, N-acetylglucosaminidase was 10-fold higher than any other activity. The enzyme was localized to cortical granules using immunoelectron microscopy. Approximately 70 or 90% of the enzyme was released from cortical granules after ionophore activation or in vivo fertilization, respectively. The isoform of N- acetylglucosaminidase found in cortical granules was identified as beta- hexosaminidase B, the beta, beta homodimer. Inhibition of N- acetylglucosaminidase released from activated eggs, with either competitive inhibitors or with specific antibodies, resulted in polyspermic binding to the zona pellucida. Another glycosidase inhibitor or nonimmune antibodies had no effect on sperm binding to activated eggs. Therefore, egg cortical granule N-acetylglucosaminidase is released at fertilization, where it inactivates the sperm GalTase- binding site, accounting for the block in sperm binding to the zona pellucida.     

The secretions of the cumulus-oocyte complex in relation to fertilization and early mouse embryonic development: a histochemical study

Summary A study has been made of the histochemical composition of the murine cumulus—oocyte complex and zona pellucida following treatment of immature females with exogenous gonadotrophins. Selected developmental stages were studied in detail, namely (i) the ovulated and unfertilized egg, (ii) the fertilized oocyte and (iii) the preimplantation embryo. In addition, the histochemical features observed in normal fertilized embryos have been compared with those of haploid and diploid parthenogenetic embryos at comparable stages following activation. Shortly after fertilization, glycosaminoglycans, which form a major component of the extracellular matrix surrounding the cumulus cells, become incorporated into the zona pellucida of the fertilized egg. In oocytes with few or no attendant cumulus cells, there appeared to be a diminished uptake of glycosaminoglycans and a reduced intensity of the zona staining reaction to Alcian Blue. In these oocytes, uptake of glycosaminoglycans appeared to be from the secretions lining the oviduct. There was little incorporation of the glycosaminoglycans from the extra-cellular matrix of the surrounding cumulus cells into the zona pellucida in unfertilized or parthenogenetic eggs despite the activation stimulus. After fertilization or activation, the zona pellucida became increasingly PAS-positive. Enzymic studies clearly indicate that the composition of the zona pellucida of the early embryo is histochemically different from the zona that surrounds the oocyte in the preovulatory follicle. These findings are discussed in relation to the decreased viability of embryos from oocytes which have been ovulated.The death of Mrs Carol Grainge is sadly recorded.     

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.     

Cortical reaction and zona hardening in mouse oocytes following exposure to ethanol

Mouse oocytes were treated with 8% ethanol for 3-6 min. The rate and pathways of parthenogenetic activation, occurrence of cortical reaction, and zona solubility changes were assessed in alcohol-treated eggs. The incidence of parthenogenetic activation was greatest (91%) after 3-4-min exposure, and it was reduced (84%) after 5-6-min exposure to alcohol. Also, the rate of haploid single pronucleate parthenogenones decreased and the rate of fragmented ova increased with increase time of exposure to ethanol. Ultrastructural observations showed occurrence of cortical reaction, disappearance and subsequent reappearance of short microvilli. A slight damage occurred to the ER in alcohol-exposed ova. The zona dissolution assay utilizing alpha-chymotrypsin demonstrated decreased solubility of the zonae pellucidae after exposure to alcohol. The zona dissolution t50 increased from 0.5-2.5 min in nontreated unfertilized oocytes to about 4 h in activated ova. The t50 of in vivo fertilized eggs was 4 1/2 h. Empty zonae exposed to alcohol lysed at the same rate as nontreated control zonae did. The results indicate that activation of mouse oocytes with alcohol initiates completion of meiosis and triggers the cortical reaction, which results in subsequent hardening of the zona pellucida.     

Characterization, fate, and function of hamster cortical granule components

Little is known about the composition and function of mammalian cortical granules. In this study, lectins were used as tools to: (1) estimate the number and molecular weight of glycoconjugates in hamster cortical granules and show what sugars are associated with each glycoconjugate; (2) identify cortical granule components that remain associated with the oolemma, cortical granule envelope, and/or zona pellucida of fertilized oocytes and preimplantation embryos; and (3) examine the role of cortical granule glycoconjugates in preimplantation embryogenesis. Microscopic examination of unfertilized oocytes revealed that the lectins PNA, DBA, WGA, RCA(120), Con A, and LCA bound to hamster cortical granules. Moreover, LCA and Con A labeled the zona pellucida, cortical granule envelope, and plasma membrane of fertilized and artificially activated oocytes and two and eight cell embryos. Lectin blots of unfertilized oocytes had at least 12 glycoconjugates that were recognized by one or more lectins. Nine of these glycoconjugates are found in the cortical granule envelope and/or are associated with the zona pellucida and plasma membrane following fertilization. In vivo functional studies showed that the binding of Con A to one or more mannosylated cortical granule components inhibited blastomere cleavage in two-cell embryos. Our data show that hamster cortical granules contain approximately 12 glycoconjugates of which nine remain associated extracellularly with the fertilized oocyte after the cortical reaction and that one or more play a role in regulating cleavage divisions.     

Characterization of the human zona pellucida from fertilized and unfertilized eggs

Zonae pellucidae were isolated from a variety of human eggs collected from follicular aspirates for in-vitro fertilization. Zonae were removed from pools of eggs classified as fertilized but unsuitable for embryo transfer, inseminated but not fertilized, and immature and not inseminated. Isolated zonae were heat solubilized, iodinated and separated by two-dimensional electrophoresis. Under reducing conditions, zonae from unfertilized eggs separated into three acidic proteins with molecular weight ranges of 90,000-110,000 (ZP1), 64,000-78,000 (ZP2) and 57,000-73,000 (ZP3). Under non-reducing conditions, ZP1 and ZP2 co-migrated at Mr 92,000-120,000. An identical pattern was seen from zonae isolated from eggs that were not inseminated. Therefore, if chemical modification of the zona is effected by spermatozoa, these changes were not apparent in the electrophoretic patterns. The electrophoretic pattern of zonae isolated from eggs classified as fertilized revealed fertilization-associated modification of the zona pellucida. This was expressed as a modification of the ZP1 molecule, and was only evident after reduction of the sample. We suggest that this modification may be effected by egg cortical granule dehiscence after fertilization and that the chemical modification of the zona may be involved in a zona block to polyspermy.     

Mechanistic studies of the plasma membrane block to polyspermy in mouse eggs

The mechanisms responsible for the plasma membrane associated block to polyspermy in mouse eggs were studied. Reinsemination experiments using zona-free eggs indicated that, after fertilization, the egg plasma membrane is altered such that sperm binding to the egg plasma membrane is blocked, except in the region of the second polar body. Activation of the egg with either ethanol or strontium chloride did not result in a block to polyspermic penetration, as artificially activated eggs displayed identical penetration levels as to nonactivated control eggs. The penetrability of activated eggs was not altered by the presence or absence of the zona pellucida during activation. Lectin staining for egg cortical granule material indicated that activation did cause cortical granule exocytosis; however, activated eggs remained penetrable. These data support the following conclusions: (1) an alteration in the ability of the egg plasma membrane to allow sperm adherence accounts for the block to polyspermy; (2) establishment of the plasma membrane block to polyspermy is sperm dependent, since artificial egg activation does not result in a block response; (3) the contents of the egg's cortical granules do not play a role in the establishment of the plasmalemma block response. © 1993 Wiley-Liss, Inc.     

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.     

Mammalian sperm-egg interaction: fertilization of mouse eggs triggers modification of the major zona pellucida glycoprotein, ZP2

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 and preimplantation embryos. Fertilization results in transformation of the zona pellucida (“zona reaction”), such that additional sperm are unable to bind to the zona pellucida of fertilized eggs and embryos, and sperm that had partially penetrated the zona pellucida of eggs prior to fertilization are prevented from further penetration after fertilization. The failure of sperm to bind to fertilized mouse eggs and embryos is attributable to modification of the sperm receptor, ZP3, an 83,000-molecular weight glycoprotein present in zonae pellucidae isolated from both eggs and embryos [Bleil, J. D., and Wassarman, P. M. (1980). Cell, 20, 873–882]. In this investigation, ZP2, the major glycoprotein found in mouse zonae pellucidae [Bleil, J. D., and Wassarman, P. M. (1980). Develop. Biol., 76, 185–202] was analyzed by gel electrophoresis under a variety of conditions in order to determine whether or not it undergoes modification as a result of fertilization. Under nonreducing conditions, ZP2 present in solubilized zonae pellucidae that were isolated individually from mouse oocytes, eggs, and embryos migrates on SDS-polyacrylamide gels with an apparent molecular weight of 120,000. However, under reducing conditions, ZP2 from embryos, but not from oocytes or unfertilized eggs, migrates with an apparent molecular weight of 90,000 and has been designated ZP2_f. The evidence presented suggests that modification of ZP2 following fertilization involves proteolysis of the glycoprotein, but that intramolecular disulfide bonds prevent the release of peptide fragments. It is shown that the same change in ZP2 can be generated in vitro by artificial activation of unfertilized mouse eggs with the calcium ionophore A23187, thus eliminating the possibility that a sperm component is responsible for the modification of ZP2 following fertilization. These results suggest that some of the changes in the biochemical and biological properties of zonae pellucidae, observed following fertilization or activation of mouse eggs, result from modification of the major zona pellucida glycoprotein, ZP2.     

Accelerated modification of the zona pellucida is the primary cause of decreased fertilizability of oocytes in the 129 inbred mouse strain

We investigated whether the small litter size in the 129 inbred mouse strain results from a reduction in oocyte fertilizability. Sensitivity of the zona pellucida to α-chymotrypsin was examined for oocytes collected at 14 h (shortly after ovulation), 17 h, and 20 h after hCG injection. Passage of spermatozoa through the zona pellucida (using an in vitro fertilization (IVF) technique) and the density of cortical granules were examined for oocytes collected at 14 and 17 h after hCG injection. The capability of the oolemma to fuse with the sperm plasma membrane was also evaluated by IVF using zona-free eggs. The zona pellucida became markedly resistant to the enzyme 17 h after hCG injection. IVF rates significantly decreased at this time. In addition, there was a significant reduction in the density of cortical granules. When zona-free oocytes were inseminated, high fertilization rates were obtained at both 17 and 14 h after hCG injection. These results indicate that accelerated modification of the zona pellucida primarily causes a decreased fertilizability of oocytes in 129 mice, resulting in the low reproductive performance of this strain.     

Subnormal zona pellucida change in parthenogenetic mouse embryos

Parthenogenetic mouse embryos were obtained by the method of electrical stimulation of eggs in vivo(Tarkowski et al., 1970), and their developmental retardation and limited viability were confirmed. Very early deviations from normalcy seemed likely in these embryos, and we chose to investigate their “zona reaction,” as this is one of the earliest events identified (Braden, et al., 1954) in normal fertilization. The change, ordinarily triggered by sperm penetration of the egg, decreases the permeability of the zona pellucida to supernumerary sperms, and has been attributed (Austin and Braden, 1956) to products released by cortical granules.An indirect assay for the state of the zona pellucida is presented. It is based on the observation (Mintz, 1970) that pronase, other proteolytic enzymes, and the normal uterine zonalytic factor lyse zonas of fertilized eggs more slowly than those of unfertilized eggs. Comparative zona lysis times in pronase are thus employed as a test for the degree of zona change after parthenogenetic activation relative to that after activation by sperm.The zonas of parthenogenetic embryos in stages ranging from 2 to 14 cells varied in their lysis times in pronase and overlapped with those of unfertilized and fertilized egg zonas. As a population, the zonas of the parthenogenones had intermediate lysis times. Thus, in the strains tested, electrical shock evokes only a partial zona reaction and, in this respect, is not an adequate substitute for sperm penetration.A working hypothesis for future testing is that the subnormal zona change and retarded development may both be due to inadequate release of products from cortical granules, under these conditions of artificial activation of the mouse egg.     

The oocyte-cumulus complex: Ultrastructure of the extracellular components in hamsters and mice

To enhance preservation of the extracellular materials, we have fixed hamster and mouse oocyte cumulus complexes (OCC) for transmission electron microscopy in the presence of ruthenium red. Ruthenium red had four effects on the extracellular components of the freshly ovulated hamster OCC. It interacted with the surface of cumulus and corona radiata cells; it stabilized the extracellular matrix (ECM) that was comprised of granules and filaments; it produced moderate electron density and good structural definition in the zona pellucida, and it revealed occasional smalls granular depsits on the oolemma. The ECM observed between cells of the cumulus and corona radiata layers extended into the outer one third of the zona pellucida. The granule and filament matrix was removed from the cumulus layer, corona radiata, and pores of the zona pellucida by brief treatment with hyaluronidase. The extracellular components of oviducal OCC from hamsters and mice appeared similar to OCC removed from follicles of the hamster shortly before ovulation. However, oviducal OCC did show increased aggregation of granules in the ECM. In most cases where females had been mated and oocytes were fertilized, the extracellular components appeared similar to those seen in fresh OCC. Exceptions were noted in some oocytes that lacked cumulus and corona radiata cells. In these instances, the zona pellucida generally lacked the granule/filament matrix. After fertilization numerous small electrondense granules were noted in the perivitelline space. These were presumed to originate in the cortical granules and formed a new investing layer around the zygote. Our data suggest that the OCC becomes more difficult for a sperm to penetrate as it approaches the oocyte. The significance of these results is discussed with respect to sperm traffic in the OCC and the cortical reaction.     

Release of tissue-type plasminogen activator by activated rat eggs and its possible role in the zona reaction.

The resumption of meiosis results in synthesis of tissue-type plasminogen activator (tPA) in the rat and mouse oocytes (Haurte et al., Cell 43:551-558, 1985). The present study demonstrates that freshly ovulated rat oocytes released their tPA into the surrounding medium upon in vitro activation by sperm penetration or treatment with a calcium ionophore. The presence of a neutralizing monoclonal anti-tPA antibody during in vitro activation by the calcium ionophore inhibited the activation-induced zona hardening and also preserved the ability of the oocyte to be penetrated by sperm subsequent to activation. Rat oocytes undergo zona hardening during in vitro maturation in the absence of serum, presumably as a result of spontaneous cortical granule release, based on findings in mice and hamsters. In the present study, the anti-tPA antibody prevented the zona hardening and enhanced partition by spermatozoa of rat oocytes that were matured in vitro without serum. Collectively, the observations reported have suggest a possible role of tPA released during the cortical granule reaction in the zona reaction, which contributes to the block to polyspermy.     

Ultrastructure of cortical granule release and zona interaction in monospermic and polyspermic human ova fertilized in vitro

Cortical granule release and interaction with the zona pellucida are reported in monospermic and polyspermic fertilized ova and early human embryos cultured in vitro. Twenty-seven preovulatory oocytes from women with tubal or idiopathic infertility were recovered by laparoscopy, after induction of follicular maturation with clomid and human chorionic gonadotropin. These were then inseminated with husband's or donor sperm, cultured for 3–72 hr, routinely fixed in glutaraldehyde/osmium and examined ultrastructurally. Evidence of cortical granule release was observed in all ova and embryos investigated and their contents were identified either at the egg surface or in the perivitelline space or interacting with the inner zona, apparently reinforcing its structure. The latter is very likely the morphological expression of the zona reaction. Delayed release was seen in certain regions of normally fertilized ova and particularly in polyspermic ova, where massive “explosions” of granules occurred. This was attributed to delayed cortical maturation. The mechanics of release were similar in both monospermic and polyspermic ova. Spontaneous dehiscence was also described in one injured unfertilized oocyte. The significance of the cortical and zona reactions as an effective block to polyspermy at the level of the inner zona, which becomes more impenetrable to supplementary sperm, is discussed.     

Cortical granule exocytosis in hamster eggs requires microfilaments

Earlier work has demonstrated that hamster eggs that do not release a second polar body after fertilization in vitro lack a block to polyspermy (Stewart-Savage and Bavister, 1987: Gamete Res 18:333–338). Since polar body release requires microfilaments, the involvement of microfilaments in cortical granule exocytosis was examined. When hamster eggs were treated with cytochalsin B (CB) for 1 hr and then coincubated with sperm for 90 min, there was a dose-dependent increase in both the percentage of eggs with more than one sperm penetrating the zona pellucida and the mean number of sperm that penetrated the zona, with a maximum effect at 20 μg CB/ml (100% polypenetration, 3.0 ± 0.3 sperm/egg). Cytochalasin-treated eggs retained 85% of their cortical granules 55 min after insemination, as compared to unfertilized eggs. Longer time periods did not result in any further reduction. As seen with the scanning confocal microscope, an extensive microfilament network was present in the cortex of untreated eggs, with the cortical granules located within this cortical network. The cortical microfilament network was highly reduced in CB-treated eggs. When viewed with the electron microscope, the same number of cortical granules were located next to the plasma membrane in both cytochalasin-treated and untreated, unfertilized eggs. These data indicate that intact microfilaments are required for normal cortical granule exocytosis in the hamster egg, but the role of the microfilaments in exocytosis is unresolved. Mol. Reprod. Dev. 47:334–340, 1997. © 1997 Wiley-Liss, Inc.     

Fetuin inhibits zona pellucida hardening and conversion of ZP2 to ZP2f during spontaneous mouse oocyte maturation in vitro in the absence of serum.

The zona pellucida of mouse oocytes becomes resistant to chymotrypsin digestion, or "hardened", when spontaneous maturation occurs in serum-free medium (De Felici and Siracusa, Gam Res 1982; 6:107). The hardened zona pellucida is refractory to sperm penetration, thus preventing fertilization. Conversion of the zona pellucida glycoprotein ZP2 to ZP2f by a protease from precociously released oocyte cortical granules appears to be a major contributory factor of zona pellucida hardening (Ducibella et al., Dev Biol 1990; 137:46). Fetal bovine serum (FBS) prevents zona hardening and the ZP2 to ZP2f conversion during oocyte maturation in vitro (Downs et al., Gam Res 1986; 15:115; Ducibella et al., Dev Biol 1990; 137:46). This study was conducted to determine whether fetuin, a major glycoprotein constituent of FBS and a protease inhibitor, could prevent zona pellucida hardening during murine oocyte maturation in serum-free medium. Commercially available preparations of fetuin purified by three different methods were all active in inhibiting zona pellucida hardening in a concentration-dependent manner. Further chromatographic purification of one of these preparations indicated that the activity preventing zona pellucida hardening was associated specifically with fetuin. Fetuin also inhibited the conversion of ZP2 to ZP2f in a concentration-dependent manner during oocyte maturation in serum-free medium. Moreover, oocytes that matured in serum-free medium containing fetuin could be fertilized and could undergo preimplantation development to the blastocyst stage. These results indicate that fetuin, a component of FBS, inhibits zona pellucida hardening during oocyte maturation, and suggest that fetuin acts by preventing the proteolytic conversion of ZP2 to ZP2f by precociously released cortical granules.     

Fourier transform infrared spectroscopic analysis of the intact zona pellucida of the mammalian egg: changes in the secondary structure of bovine zona pellucida proteins during fertilization

The zona pellucida is the acellular transparent envelope surrounding the mammalian oocyte. An analysis of the changes in the structures of zona pellucida proteins is essential for understanding the molecular mechanisms underlying the important physiological roles of the zona during fertilization and preimplantation. The hardening of the zona caused by the structural changes during fertilization is generally accepted to be responsible for blocking polyspermy. In this study, we analyzed changes in the secondary structure of the zona during fertilization by Fourier transform infrared (FTIR) spectroscopy and transmission electron microscopy. The predominance of beta-sheet structure in porcine ovarian egg zona proteins in water was ascertained using FTIR spectra. Alpha-helix structure was also present. The attenuated total reflection (ATR)-FTIR spectrum of intact, unsolubilized porcine zonae pellucidae from ovarian eggs indicated that the zona proteins in the native zona pellucida also have beta-structure as the main constituent. Attenuated total reflection-FTIR spectroscopy of intact bovine zona pellucida obtained from ovarian and fertilized eggs at the blastocyst stage revealed that the beta-structure content increased during fertilization. Furthermore, a reduction of the thickness of the zona during fertilization was observed using transmission electron microscopy. Therefore, the change in the zona architecture that causes hardening of the zona during fertilization is accompanied by changes in the secondary structure of the zona proteins.