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.     

Effect of oviductal and cumulus cells on zona pellucida and cortical granules of porcine oocytes fertilized in vitro with epididymal spermatozoa

The objective of this study was to evaluate the effects of porcine oviductal epithelial cell (POEC) monolayers and cumulus cells on the zona pellucida (ZP) and cortical granules (CG) of in vitro matured porcine oocytes. Denuded and cumulus-enclosed oocytes were exposed to POEC before or during in vitro fertilization (IVF). The functional effects of the co-culture system were the tested on the ZP resistance, measured by the time necessary to dissolve the ZP with 0.1% pronase, and the distribution and density of the cortical granules. CG density in the equator and cortex of each oocyte was evaluated by confocal microscopy after staining with fluorescein isothiocyanate-labelled peanut agglutinin (FITC-PNA). Both variables were assessed immediately after an in vitro maturation period (IVM group), 3 and 6h after culture with or without (Control) oviductal cells (Experiment 1) and 3h after insemination with frozen-thawed epididymal spermatozoa in the presence or absence (Control) of oviductal cells (Experiment 2). The time to dissolve the ZP of oocytes from IVM group was 440.4 +/- 61.7 s and no difference was observed among groups in Experiment 1. In contrast, the density of CG was affected; oocytes pre-incubated for 6h had a higher density than those pre-incubated for 3 h (P <0.001). Oocytes fertilized in vitro in the presence of POEC (Experiment 2) had a similar ZP digestion time as control oocytes 3 h after insemination. The presence of POEC during IVF as well as the presence of cumulus cells had no effect on the density and distribution of CG. However, a significant decrease in the density of CG was observed in the fertilized oocytes compared to in vitro matured oocytes (P <0.001). It is concluded that under the conditions employed the oviductal and cumulus cells in the perifertilization period had no effect on ZP hardening and CG density. However, an increase in CG density was observed when oocytes were maintained in culture. In addition, no hardening of ZP was observed after IVF, and denuded and cumulus-enclosed oocytes showed similar cortical reactions after insemination with epididymal spermatozoa regardless of the presence of POEC.     

Reduced polyspermic penetration in porcine oocytes inseminated in a new in vitro fertilization (IVF) system: straw IVF

High incidence of polyspermy is still a major problem in the in vitro fertilization (IVF) of porcine oocytes matured in vitro. This study was designed to examine whether embryo cryopreservation straws can be used to conduct IVF in porcine oocytes. The efficiency of this system was further compared with traditional microdrop IVF. Immature oocytes were aspirated from antral follicles and matured in vitro. After maturation, oocytes were inseminated either in straws or in microdrops with frozen-thawed boar spermatozoa. For straw IVF, sperm concentration and the presence of air columns between insemination segment and oil column were examined. Sperm-oocyte binding and cortical granules (CGs) before and after sperm penetration were examined by confocal microscopy. When various sperm concentrations were used for IVF in the straws with air columns, it was found that 5 x 106 cells/ml of sperm concentration was the optimal concentration; a high penetration rate (94.0%) and normal fertilization (oocytes with both male and female pronuclei) rate (38.2%) were obtained. Increasing sperm concentration to 10 x 106 cells/ml increased polyspermic penetration (61.9%) without affecting sperm penetration (86.9%). Reducing sperm concentration to 1 x 106 cells/ml reduced polyspermic penetration (25.6%), but sperm penetration rate (69.9%) was also reduced. When IVF was conducted in the straws with or without air columns, and in the microdrops, it was found that sperm penetration in the straws with air columns (96.5%) was significantly (p < 0.05) higher than that in the straws without air columns (81.7%) and in the microdrop (72.9%). However, the incidence of polyspermic penetration in the straws with air columns (34.2%) and without air columns (36.6%) was significantly (p < 0.05) lower than that (52.4%) in the microdrops. The number of spermatozoa bound to the oocytes was increased gradually in the straws but not in the microdrops in which more spermatozoa bound to the oocytes soon after insemination. CG exocytosis was more complete and faster in the oocytes inseminated in the straws than in the microdrops. These findings indicate that IVF of porcine oocytes in the straws provides a better condition in which more oocytes are fertilized normally than that in the microdrop IVF.     

Influence of seminal plasma PSP-I/PSP-II spermadhesin on pig gamete interaction

The seminal plasma PSP-I/PSP-II spermadhesin is able to preserve, in vitro, the viability of highly extended boar spermatozoa, suggesting it might be used as a suitable ameliorator for the damaging effects of sperm handling, including in vitro fertilization. However, little is known about the ligand capability of PSP-I/PSP-II as regards the zona pellucida (ZP) or its possible role in gamete interaction. The present study evaluated the effect of the presence of PSP-I/PSP-II (1.5 mg/ml) during in vitro oocyte maturation and also during co-incubation of frozen-thawed boar spermatozoa with either immature (IM) or in vitro matured (IVM) oocytes, either enclosed by cumulus cells or denuded. Exposure of the gametes to the heterodimer during in vitro gamete co-incubation showed a significant blocking effect of sperm penetration rates and a decreased number of spermatozoa per oocyte in both IM and IVM denuded oocytes. Such an effect was not present in cumulus-enclosed oocytes, suggesting the effect could be mediated by exposed ZP receptors. In addition, when PSP-I/PSP-II was added to the IVM medium, oocyte maturation rates were significantly reduced. In conclusion, the results suggest that PSP-I/PSP-II, when present in vitro, blocks sperm-ZP binding.     

Protamine dissociation before decondensation of sperm nuclei during in vitro fertilization of pig oocytes

The correlation between morphological changes and the dynamics of protamine in boar sperm chromatin during in vitro fertilization of pig oocytes matured in vitro was assessed. For this purpose, protamine was purified from boar sperm nuclei and an antiserum against protamine was developed. After affinity purification, the antiserum reacted exclusively with boar protamine during western blotting, showing no crossreactivity with core histones. Immunohistochemical evaluation revealed that only fully developed spermatid nuclei in boar testes stained strongly with the antiserum. When pig oocytes matured in vitro were fertilized in vitro, sperm penetration was observed in 37% of oocytes at 2 h after insemination and the penetration rate increased to 99% by 5 h after insemination, accompanied by an increase in polyspermic penetration. Paraffin wax sections of the inseminated oocytes were examined by immunohistochemical analysis with the antiserum. The proportion of condensed sperm nuclei that reacted with the antiserum was 87% of the sperm nuclei that penetrated by 2 h after insemination, and this decreased to 20 and 13% at 3 and 5 h after insemination, respectively. However, none of the decondensing sperm nuclei or male pronuclei reacted with the antiserum during the entire insemination period. These results indicate that a specific antiserum against boar protamine can be raised and, using this serum, it has been demonstrated that protamine is dissociated from boar sperm nuclei before decondensation during in vitro fertilization.     

Zona pellucida characteristics and sperm-binding patterns of in vivo and in vitro produced porcine oocytes inseminated with differently prepared spermatozoa

IVF of porcine oocytes has been carried out in many laboratories. However, polyspermic fertilization is still a major issue to be solved. It is well known that besides the nucleus, oocyte organelles and the cytoplasm have to undergo a final maturation process before they become fully competent for fertilization. Until now, it is still uncertain whether the zona pellucida (ZP) must also undergo a maturation process and what impact the maturation status may have on sperm recognition and monospermic fertilization. Our data show that the ZP undergoes biochemical changes in the final maturation phase of the oocyte prior to fertilization. During zona maturation, the induction of the acrosome reaction in spermatozoa bound to the zona pellucida shows a different time pattern. Additionally, it was shown by 2D gel electrophoresis that after maturation, ZPA moved 0.8 pI units and ZPB/ZPC 1.3 pI units in the direction of the anode, indicating increased acidity. These preliminary studies indicate that the maturation processes of the oocyte involves biochemical and functional alterations in the zona pellucida. In addition, the morphology of the porcine ZP was investigated before and after maturation at the GVI and metaphase II stage as well as 1h after onset of IVF. No significant consistent structural changes were seen between immature oocytes and those matured in vitro for 48 h. However, at 24 h, the zona structures were more similar to those in in vivo matured oocytes. This phenomenon needs to be elucidated. So far, the only way to avoid polyspermic penetration is to reduce the number of spermatozoa per oocyte used for IVF. The amount depends on the treatment of the sperm and has to be set for each individual boar.     

Morphologic comparison of ovulated and in vitro–matured porcine oocytes,with particular reference to polyspermy after in vitro fertilization

This study was conducted to evaluate morphologic differences in pig oocytes matured in vivo and in vitro, with particular reference to the potential relationship between oocyte morphology and the occurrence of polyspermy after in vitro fertilization (IVF). In vivo–matured oocytes were surgically recovered from the oviducts of gilts with ovulated follicles on day 2 of estrus, and in vitro–matured oocytes were obtained by culturing follicular oocytes in a oocyte maturation system that has resulted previously in production of live offspring following IVF. Comparisons were made of the cytoplasm density, the diameter of oocytes with or without zona pellucida (ZP), the thickness of the ZP, the size of the perivitelline space (PVS), ZP dissolution time, and cortical granule (CG) distribution before IVF, and CG exocytosis and polyspermic penetration after IVF. Oviductal oocytes have clear areas in the cytoplasm cortex, while in vitro–matured oocytes have very dense cortex. The diameter of ovulated oocytes with ZPs was significantly (P < 0.001) greater than that of in vitro–matured oocytes. However, no difference was observed in the diameter of the oocyte proper. Significantly (P < 0.001) thicker ZPs and wider PVSs were observed in the ovulated oocytes. The ZPs of ovulated oocytes were not dissolved by exposure to 0.1% pronase within 2 hr, but the ZPs of in vitro–matured oocytes were dissolved within 131.7 ± 7.6 sec. The ZPs of ovulated oocytes, but not of in vitro–matured oocytes, were strongly labeled by a lectin from archis hypogaea that is specific for β-D-Gal(1–3)-D-GalNAc. Polyspermy rate was significantly (P < 0.01) higher for in vitro–matured oocytes (65%) than for ovulated oocytes (28%). CGs of oviductal oocytes appeared more aggregated than those of in vitro–matured oocytes. Most of CGs were released from both groups of oocytes 6 hr after IVF regardless of whether they were polyspermic or monospermic oocytes. These results indicate that in vitro–matured and in vivo–matured pig oocytes possess equal ability to release CGs on sperm penetration. Unknown changes in the extracellular matrix and/or cytoplasm of the oocytes while in the oviduct may play an important role(s) in the establishment of a functional block to polyspermy in pig oocytes. Mol. Reprod. Dev. 49:308–316, 1998. © 1998 Wiley-Liss, Inc.     

High oxygen tension during in vitro oocyte maturation improves in vitro development of porcine oocytes after fertilization

This study was conducted to evaluate the effect of oxygen tension during IVM and/or IVC on developmental competence of porcine follicular oocytes. Prospective, randomized experiments were designed, and oocytes were matured, inseminated and cultured in vitro in the designated condition. In experiment 1, either high (20%) or low (7%) oxygen tension was used for IVM. The high oxygen significantly improved blastocyst formation (23% versus 13%; P<0.01) after IVF than the low oxygen. Such treatment, however, did not significantly (P>0.05) improve the rates of nuclear maturation (89% in each treatment), sperm penetration (62-72%), monospermic fertilization (56-67%), pronuclear formation (90-96%), cleavage (49-53%) and blastocyst cell number (31-32 cells). In experiment 2, the combined effect of oxygen tension during IVM and IVC of embryos was evaluated by a 2 x 2 factorial arrangement. Again, the high oxygen tension during IVM supported blastocyst formation more efficiently (P<0.01) than the low oxygen, and this was independent of oxygen tension during IVC (26-28% versus 15-16%). In oocytes matured under the high oxygen, a tendency to increase blastomere number (P=0.0630) was found, when the low oxygen was used for IVC after insemination (39-45 cells/blastocyst). In conclusion, the use of high oxygen tension (20% maintained by exposure to 5% CO2 in air) for IVM of porcine oocytes promoted blastocyst formation in vitro.     

Modifications of the lectin binding pattern in the rat zona pellucida after in vivo fertilization

The zona pellucida (ZP) is an extracellular matrix surrounding the mammalian oocyte. It is involved in the sperm-egg adhesion phenomenon, induces the acrosome reaction, and participates in the late blockage to polyspermy. Thus, during the process of fertilization the cortical reaction is induced and the biochemical and biological properties of the ZP are modified. Some of these changes have been suggested to prevent the polyspermy. However, the mechanisms behind most of these changes are not well understood. Carbohydrate residues of the ZP glycoproteins have been shown to play a key role in the early step of fertilization. In the present study, the changes produced in the terminal oligosaccharide sequences of the rat ZP glycoproteins after in vivo fertilization were investigated by means of lectin-gold cytochemistry. A comparative quantitative analysis of the density of labeling in the ZP before and after fertilization was carried out by automatic counting of gold particles. The ZP of fertilized and unfertilized eggs were labeled by a battery of lectins including PNA, LFA, MAA, AAA, DSA, RCA I, and WGA. For all lectin studied in both fertilized and unfertilized eggs the labeling was preferentially located in the inner region of the ZP. After fertilization, binding of PNA, LFA, MAA, AAA, and DSA decreased in both inner and outer regions of the ZP. Labeling of RCA l-binding sites only decreased in the inner ZP, whereas reactivity to WGA was increased in the inner area of the ZP. Digestion of the thin-sections with neuraminidase prior to labeling with WGA resulted in a decrease of labeling for WGA binding sites. However, the labeling density of WGA binding sites was similar in both unfertilized and fertilized eggs upon treatment with neuraminidase. The present results demonstrate that the oligosaccharide chains contained in the rat ZP are modified after fertilization of the oocyte. Cortical granules of the oocytes might be involved in these modifications by two mechanisms: 1) by hydrolysis of terminal carbohydrate residues of ZP glycoproteins by specific glycosidases contained in the granules; and 2) by addition of new glycoproteins to the ZP after the exocytosis of the cortical granules (cortical reaction). © 1996 Wiley-Liss, Inc.     

Vitrification of bovine oocytes with the open pulled straw method: ultrastructural consequences

The objective of the present study was to investigate the ultrastructural consequences of vitrification of bovine oocytes at the metaphase II (MII) stage by the so-called "Open Pulled Straw" method. Oocytes were matured in vitro for 22 hr and cryopreserved by vitrification. After warming and additional 2 hr of culture, the oocytes were inseminated in vitro. Oocytes were fixed for transmission electron microscopy immediately after warming, at 4 hr after warming (i.e., 2 hr post insemination [hpi]), at 26 hr after warming (i.e., 24 hpi), and at 74 hr after warming (i.e., 72 hpi). Control oocytes (i.e., nonvitrified oocytes) were processed at 22 hr after in vitro maturation and at 2, 22, and 72 hpi. Compared to the controls, the vitrified oocytes fixed immediately after warming presented an additional category of small membrane-bound vesicles and lacked the typical compartment of solitary cortical granules aligned along the oolemma. Instead, they presented clusters of cortical granules that displayed varying degrees of degeneration. In vitrified oocytes fixed at 2 hpi, the small vesicles were less abundant, and more advanced degeneration of the cortical granule clusters was noted. In vitrified oocytes fixed at 24 hpi, the small vesicles were practically absent, and polyspermic penetration was observed as were vacuoles containing degraded cortical granule content. In vitrified oocytes fixed at 72 hpi, lack of cleavage as well as vacuolization and degeneration of blastomeres were noted. Moreover, the nucleolar ultrastructure signaled aberrant activation of the ribosomal RNA genes. In conclusion, vitrification of bovine oocytes at the MII stage resulted in cell biological alterations in the oocyte after warming that apparently were reflected in the subsequent fertilization and embryonic development.     

Sperm-oocyte membrane fusion in the human during monospermic fertilization

Sperm-oocyte membrane fusion has been observed during monospermic fertilization of a human oocyte in vitro. Women were stimulated with both clomiphene citrate and human menopausal gonadotropin and were given human chorionic gonadotropin before a LH-surge. Twelve oocytes, collected at laparoscopy from six women who became pregnant by IVF, were allowed to mature for 7–14 hours in vitro and inseminated with preincubated sperm, fixed between 1–3 hours after insemination, and examined by transmission electron microscopy. Membrane fusion had occurred in one ovum 2 hours after insemination, and the oocyte had resumed maturation and was at anaphase II of meiosis. Cortical granules had been exocytosed, and some of their contents were visible at the surface close to the oolemma all around the oocyte. The sperm that fused with this oocyte was acrosome-reacted and had been partly incorporated into the ooplasm, while the anterior two-thirds of its head was phagocytosed by a tongue of cortical ooplasm. Membrane fusion had occurred between the oolemma and the plasma membrane overlying the postacrosomal segment of the sperm head, posterior to the equatorial vestige. Sperm chromatin had not decondensed, and serial sections revealed a midpiece attached to the basal plate and a tail located deeper in the ooplasm, all devoid of plasma membrane. Supplementary sperm penetrating the inner zona, approaching the perivitelline space, had undergone the acrosome reaction but had a persistent vestige of the equatorial segment of the acrosome with intact plasma membrane. Evidence of sperm chromatin decondensation was seen in other oocytes, 3 hours after insemination, which were at telophase II of meiosis. Eight oocytes penetrated by sperm were monospermic, while four were unfertilized. The general pattern of sperm fusion and incorporation appears to conform to that seen in most other mammals. The study also reveals that sperm have to complete the acrosome reaction before fusing with the egg.     

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.     

Development of the competence of bovine oocytes to release cortical granules and block polyspermy after meiotic maturation

Bovine immature oocytes do not have the ability to block polyspermic penetration. The present study was conducted to determine whether this is correlated to cortical granule (CG) distribution and the competence of oocytes to release CG upon sperm penetration, and whether the ability of bovine oocytes to release CG develops during in vitro maturation. Fluorescein isothiocyanate-conjugated Lens culinaris agglutinin was used for detecting CG in immature and mature oocytes before and after sperm penetration and electric stimulation. The labeled oocytes were examined with laser confocal and fluorescent microscopes. The results show that CG exist as clusters in all immature oocytes. The CG were not released from immature oocytes exposed to electric pulse or penetrated by spermatozoa, resulting in 94% of oocytes being polyspermic. When immature oocytes were cultured for 22h in vitro , 81% extruded the first polar body and reached metaphase II. In mature oocytes, 25% of oocytes showed CG clusters, 42% and 33% of oocytes showed partial and complete CG dispersion, respectively. When mature oocytes were inseminated in vitro , only 15% of oocytes were polyspermic. Cortical granule exocytosis occurred in 97% of oocytes after sperm penetration and 84% of oocytes released all of the CG 18 h after insemination. Electric pulse induced all of the mature oocytes to release CG but only 55% released all of their CG 18 h post stimulation. These results indicate that polyspermy in immature bovine oocytes is the result of the complete failure of the oocyte to release CG after sperm penetration. Bovine oocytes became competent to release CG by sperm penetration and electric stimulation after meiotic maturation. These results provide evidence that CG exocytosis plays an important role(s) in the establishment of the block to polyspermy in bovine oocytes.     

Effect of duration of in vitro maturation on nuclear maturation and fertilizability of feline oocytes

This study was conducted to improve in vitro production of embryos from domestic cats using TCM-199 as an IVM medium. The time sequence of nuclear maturation and the optimal timing of in vitro insemination were examined. Most oocytes were at the germinal vesicle stage immediately after collection; however, 8.3% had already resumed meiosis before IVM culture. After 30 h of IVM culture, the percentage of oocytes at metaphase II (MII) reached a peak (75.5%) and did not change (P>0.05) from 30 to 48 h after IVM culture. The percentage of oocytes with two pronuclei was higher (P<0.05) for oocytes matured for 30 and 36 h (38.2 and 33.0%, respectively) than for those after IVM culture for only 24 h (18.5%). Total sperm penetration rate was highest (P<0.05) for oocytes that had been matured for 30 h (46.1%). After 30 h of IVM and 18 h of IVF culture, 66.3 and 24.8% of inseminated oocytes had cleaved and developed to the blastocyst stage, respectively. We concluded that IVM of feline oocytes for 30 h in TCM-199 resulted in optimal nuclear maturation and sperm penetration.     

Ovastacin, a cortical granule protease, cleaves ZP2 in the zona pellucida to prevent polyspermy

The mouse zona pellucida is composed of three glycoproteins (ZP1, ZP2, and ZP3), of which ZP2 is proteolytically cleaved after gamete fusion to prevent polyspermy. This cleavage is associated with exocytosis of cortical granules that are peripherally located subcellular organelles unique to ovulated eggs. Based on the cleavage site of ZP2, ovastacin was selected as a candidate protease. Encoded by the single-copy Astl gene, ovastacin is an oocyte-specific member of the astacin family of metalloendoproteases. Using specific antiserum, ovastacin was detected in cortical granules before, but not after, fertilization. Recombinant ovastacin cleaved ZP2 in native zonae pellucidae, documenting that ZP2 was a direct substrate of this metalloendoprotease. Female mice lacking ovastacin did not cleave ZP2 after fertilization, and mouse sperm bound as well to Astl-null two-cell embryos as they did to normal eggs. Ovastacin is a pioneer component of mouse cortical granules and plays a definitive role in the postfertilization block to sperm binding that ensures monospermic fertilization and successful development.     

Inhibitory effects of calcium ionophore pretreatment of porcine oocytes on polyspermic fertilization

The present study examined the inhibitory effects of various pretreatment concentrations (0-100 microM) of the calcium ionophore A23187 on polyspermic fertilization and then examined the effect of the maturation period and the time between calcium ionophore treatment and fertilization on the inhibitory effect of calcium ionophore on polyspermic fertilization. In experiment 1, a high concentration of calcium ionophore (100 microM) increased the rate of activated oocytes, but the rate of fertilization declined. On the other hand, when oocytes were treated with a low concentration of calcium ionophore (10 microM), monospermic fertilization was significantly increased (10 microM; 31.3%) (p < 0.05). In experiment 2, oocytes were cultured for various times (0, 0.5, 3, 6 h) after calcium ionophore treatment (10 microM) before fertilization. The highest rate of monospermic fertilization was detected in the oocytes cultured for 6 h after calcium ionophore treatment before fertilization. In experiments 3 and 4, we examined the effect of the maturation period (40 h or 44 h) on the rate of fertilization and blastulation of oocytes pretreated with calcium ionophore. The treatment of oocytes with calcium ionophore significantly decreased the rate of polyspermic fertilization regardless of the maturation period (44 h: with calcium ionophore 26.25% vs without 78.8%; 40 h: with calcium ionophore 37.5% vs without 77.5%); however, calcium ionophore treatment increased the rates of monospermic fertilization and blastulation of the oocytes matured for 44 h, but not those matured for 40 h. In conclusion, activation with a low concentration of calcium ionophore (10 microM) and a further 6 h of culture before fertilization improved the rate of monospermic fertilization and blastulation.     

Ultrastructural observations on cortical granules in human follicular oocytes cultured in vitro

The fine structure, distribution, and fate of cortical granules in human oocytes cultured in vitro are reported. Follicular maturation in women with blocked Fallopian tubes was induced by clomiphene citrate and human chorionic gonadotropin, and preovulatory eggs were obtained by improved methods of laproscopy and oocyte recovery. These oocytes were then inseminated and cultured in a modified Ham's F10 medium for 3 to 72 hr to assess their fertilizability. Cortical granules were observed in all 17 unfertilized oocytes investigated, which had completed various stages of meiotic maturation. A marked increase in their numbers was observed in oocytes cultured for 3 to 6 hr. There was no evidence of spontaneous cortical granule release in any of the oocytes studied. It is concluded that cortical maturation expressed by proliferation of cortical granules is as significant a criterion as nuclear maturation in assessing maturity and fertilizability of oocytes cultured in vitro. A short sojourn in culture before insemination could improve chances of normal fertilization and embryo development, which has been recently achieved in our laboratory.     

Effects of semen plasma from different fractions of individual ejaculates on IVF in pigs

We applied IVM/IVF techniques to investigate effects of preincubation of sperm with different fractions of semen plasma harvested from fresh ejaculates on in vitro penetration and fertilization of in vitro matured oocytes. Three fractions of semen plasma were separated from the complete ejaculate of three Landrace boars and used to coincubate sperm obtained from the first sperm-rich fraction of the same ejaculates. After 14 to 16 h coincubation at room temperature, sperm were preincubated in capacitation medium and then inseminated into fertilization medium containing porcine oocytes matured in vitro. The semen plasma used for coincubation affected penetration rate (P < 0.001); Sperm coincubated with Fraction 1 semen plasma had a higher penetration rate compared with sperm coincubated with Fraction 2 (P < 0.05), but not with Fraction 3. Boar affected male pronucleus formation rates after insemination (P < 0.05), but no difference among boars was found in monospermy rate, average number of sperm penetrating into each fertilized oocyte, or the average number of sperm attached. No boar by fraction interaction was found for any parameters studied.     

An ultrastructural examination of polyspermy induced by soybean trypsin inhibitor in the sea urchin Arbacia punctulata

Fine structural studies have been conducted to determine the role of the trypsinlike proteinase during fertilization which is localized within the cortical granules of sea urchin eggs. Eggs were treated with soybean trypsin inhibitor (SBTI), inseminated, and prepared for microscopic examination at various intervals during fertilization. In the presence of SBTI the breakdown of the cortical granules is delayed and the elevation of the vitelline layer is incomplete. Although all the cortical granules in SBTI-treated eggs are dehisced in a manner similar to controls, the rate at which their breakdown is propagated is reduced. Consequently, dehiscence of all the cortical granules in SBTI-treated specimens requires approximately 3 min to complete, vs. 1 min for controls. In addition the fertilization membrane has a blistered appearance owing to its attachment, at multiple loci, to the surface of the zygote. During the early stages of fertilization many of the treated eggs are monospermic, later all are polyspermic. Supernumerary sperm enter treated eggs (zygotes) up to 10 min after the initiation of the cortical granule reaction, apparently at those sites where the fertilization membrane has failed to separate from the zygote's surface.     

Regulation of in vitro penetration of frozen-thawed boar spermatozoa by caffeine and adenosine

Effects of caffeine and adenosine on the function and in vitro penetration of frozen-thawed boar spermatozoa were examined. First, the effect on sperm function was determined by the chlortetracycline fluorescence assessment. Both caffeine and adenosine stimulated capacitation of spermatozoa. However, adenosine, but not caffeine, inhibited spontaneous acrosome loss. Second, sperm penetration into in vitro matured oocytes was compared among spermatozoa cultured in the absence or presence of caffeine or adenosine. Both caffeine and adenosine increased the penetration rate (99.1 +/- 0.9% in caffeine, 72.4 +/- 2.0% in adenosine vs. 54.8 +/- 5.1% in controls) but only caffeine decreased drastically the monospermic penetration rate (8.0 +/- 2.3% in caffeine vs. 75.4 +/- 4.8% in adenosine and 78.6 +/- 4.8% in controls). When oocytes were cocultured in various sperm concentrations, the proportion of monospermy changed in inverse proportion to sperm concentration in the presence of caffeine, but did not change in the presence of adenosine. A relatively high number of spermatozoa at the early stage of spontaneous acrosome reaction in the presence of caffeine may be one of the main causes of polyspermic penetration in porcine IVF system. These results indicate that replacement of caffeine with adenosine in fertilization medium improves monospermic penetration by frozen-thawed boar spermatozoa.