Maturation and sperm penetration of canine ovarian oocytes in vitro.

Canine ovarian oocytes were cultured in a medium consisting of TC medium 199, fetal calf serum and antibiotics. Ninety-nine percent of the apparently healthy oocytes were in the germinal vesicle (dictyate) stage when recovered from the ovaries; 25% of them reached metaphase I or II by 72 hours of culture. Washed ejaculated spermatozoa were added to BWW medium containing oocytes which had either been removed directly from the follicles or which had been cultured for 24--72 hours. The earliest acrosome reaction and zona penetration by spermatozoa were seen at seven hours after insemination. Seventy-four percent of the oocytes examined between 11 and 24 hours after insemination showed evidence of zona penetration by spermatozoa. Neither the condition of the oocyte vitellus nor the stage of nuclear maturation influenced the incidence of zona penetration. Decondensing sperm nuclei were found in the vitellus of 27% of the oocytes which had not been cultured and in the vitellus of 20% of those which had been cultured for 24--72 hours and were in various stages of maturation. These results indicate that (1) canine ovarian oocytes can be matured in vitro, (2) the spermatozoa require capacitation which takes approximately seven hours in vitro and (3) maturation of the oocytes is not required for sperm passage through the zona pellucida or entry into the vitellus nor for sperm nuclear decondensation.     

Spontaneous and sperm-induced activation of oocytes in LT/Sv strain mice

The oocytes of LT/Sv strain mice are unique in that a high proportion of them (∼40% in this study) are ovulated before reaching metaphase of the second meiotic division (metaphase II). The remaining oocytes of LT/Sv mice are ovulated at metaphase II, as in other strains of mice. When recently ovulated oocytes were cultured in vitro for 11–12 h, those ovulated at metaphase II remained at this stage, whereas those ovulated at metaphase of the first meiotic division (metaphase I) commonly resumed meiosis during in vitro aging. These oocytes extrude the polar body and form a diploid pronucleus. This oocyte activation is not coupled with cortical granule exocytosis. The oocytes ovulated at metaphase II are fully capable of normal fertilization, whereas those ovulated at metaphase I are not. Approximately 50% of metaphase I oocytes penetrated by spermatozoa remain at this stage, and sperm nuclei frequently undergo premature chromosome condensation. Only 13% of spermpenetrated metaphase I oocytes formed a diploid female pronucleus and a haploid male pronucleus by 4 h after insemination. These results demonstrate that the two types of ovulated LT/Sv oocytes have different potentials to undergo either spontaneous or sperm-induced activation.     

Effect of oocyte-sperm co-incubation on acrosome reaction in the goat

The induction of acrosome reaction of goat spermatozoa was investigated. The acrosomal status of spermatozoa was determined by a triple-staining technique. The effect of the presence of goat oocytes on the proportion of acrosome-reacted spermatozoa was also determined. Ovulated oocytes were obtained from superstimulated adult goats. Other sources of oocytes were adult and prepubertal goats; oocytes from both sources were maturated in vitro. There was an increase in the percentage of acrosome-reacted spermatozoa from 4% +/- 0.98 to 9% +/- 1.41 when oocytes from adult females were used. Similar induction rates were measured with prepubertal and adult oocytes maturated in vitro (10.4% +/- 2.06 and 8.75% +/- 1.06, respectively). The influence of several qualities of cumulus oophorus as well as the presence of zona pellucida was also investigated. No significant differences were obtained with any cumulus oophorus or zona pellucida oocyte complexes. Although oocyte quality is important for high fertilization rates, it does not seem to be crucial for the induction of acrosome reaction.     

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.     

Reversible changes in dissolution of the zona pellucida of immature bovine oocytes

The influence of holding immature bovine oocytes in in vitro bovine oviducts on the dissolution of zona pellucida in 0.1% pronase, the role of cumulus cells in this process and the possibility of reversing the process were examined. For the study, 1,045 oocytes were obtained from 2 to 6 mm ovarian follicles. Cumulus-free oocytes were placed in isolated bovine oviducts at 37 degrees C. The average dissolution time of the zona pellucida increased in proportion to the holding time of oocytes in oviducts: 9.9, 13.8, 48.3, 239.3 and 788.3 min after 5, 20, 40, 80 and 120 min in the oviduct, respectively. For the control group, only 4.6 min were required for dissolution of the zona. When cumulus-free and cumulus enclosed oocytes were held for 120 min, no differences were seen in the average lytic time of the zona pellucida of cumulus enclosed oocytes compared with the control group. When cumulus-free oocytes were held in vitro for 120 min and then immersed in follicular fluid from 30 min to 18 h, there was a significant reversal in the sensitivity of the zona pellucida to proteolysis.     

Status of the rat acrosome during sperm-zona pellucida interactions

Over the past 40 years evidence from many sources has indicated that the mammalian acrosome reaction occurs within or near the cumulus oophorus. Recently, however, workers investigating in vitro fertilization in the mouse have concluded that in this system the acrosome reaction takes place on the surface of the zona pellucida. We have investigated the interaction of rat spermatozoa and the zona pellucida by using the scanning electron microscope (SEM) and two monoclonal antibodies which are directed to antigens of the rat sperm acrosome. When in vitro inseminated eggs from which the cumulus has been removed are viewed with the SEM some sperm heads on the surface of the zona pellucida appear unaltered whereas others appear to be undergoing changes. In vivo, all displayed altered head morphology. Using immunogold labeling we found that the two antibodies employed, 2C4 and 5B1, were directed to acrosomal content and vesiculating acrosomal membranes. Immunofluoresence staining of zonae pellucidae in in vitro fertilization studies revealed numerous small positive regions. These were presumably acrosomal content and membranes which had been left on the zona surface by spermatozoa which had been associated with the zona surface. Our results suggest that the rat acrosome interacts with the zona pellucida. During this interaction some acrosomal content and membranes detach from the spermatozoon and remain on the surface of the zona pellucida.     

Cumulus oophorus-associated glycodelin-C displaces sperm-bound glycodelin-A and -F and stimulates spermatozoa-zona pellucida binding

Spermatozoa have to swim through the oviduct and the cumulus oophorus before fertilization in vivo. In the oviduct, spermatozoa are exposed to glycodelin-A and -F that inhibit spermatozoa-zona pellucida binding. In this study, we determined whether these glycodelins would inhibit fertilization. The data showed that the spermatozoa without previous exposure to glycodelin-A and -F acquired glycodelin immunoreactivity during their passage through the cumulus oophorus. On the other hand, when glycodelin-A or -F-pretreated spermatozoa were exposed to the cumulus oophorus, the zona pellucida binding inhibitory activity of glycodelin-A and -F was not only removed, but the spermatozoa acquired enhanced zona pellucida binding ability. These actions of the cumulus oophorus were due to the presence of a cumulus isoform of glycodelin, designated as glycodelin-C. The cumulus cells could convert exogenous glycodelin-A and -F to glycodelin-C, which was then released into the surrounding medium. The protein core of glycodelin-C was identical to that in other glycodelin isoforms, as demonstrated by mass spectrum, peptide mapping, and affinity to anti-glycodelin antibody recognizing the protein core of glycodelin. In addition to having a smaller size and a higher isoelectric point, glycodelin-C also had lectin binding properties different from other isoforms. Glycodelin-C stimulated spermatozoazona pellucida binding in a dose-dependent manner, and it effectively displaced sperm-bound glycodelin-A and -F. In conclusion, the cumulus cells transform glycodelin-A and -F to glycodelin-C, which in turn removes the spermatozoazona binding inhibitory glycodelin isoforms and enhances the zona binding capacity of spermatozoa passing through the cumulus oophorus.     

Cytoplasmic maturation for activation of pig follicular oocytes cultured and arrested at metaphase I.

A large population (62-90%) of pig follicular oocytes can mature to metaphase II after culture for 48 h. However, a proportion (6-22%) remain in an immature stage at metaphase I (metaphase I-arrested). The main objective of this study was to determine whether the cytoplasm of metaphase I-arrested pig oocytes is capable of being activated by sperm penetration or parthenogenetic stimulation. After culture for 48 h, oocytes without a polar body (73% were shown to be at metaphase I after staining) and those with a polar body (94% were at metaphase II) were fertilized in vitro. A total of 69% and 62% of the oocytes were activated to form a female pronucleus, respectively, and the rate of polar body extrusion induced by fertilization in the activated oocytes was 90% (the first polar body) and 95% (the second polar body), respectively. When oocytes without and with a polar body were stimulated with an electric pulse, 53% and 81% of the oocytes were activated, respectively. The rate of polar body extrusion in the activated oocytes was 73% (the first polar body) and 79% (the second polar body), respectively. In contrast, young metaphase I oocytes cultured for 24 h had low (6%) or zero activation rate after in vitro fertilization or electric pulse stimulation. However, about one-third of the young metaphase I oocytes penetrated by spermatozoa after in vitro fertilization responded to electric pulse 12 h after insemination, and almost all (93%) were activated when they were stimulated 24 h after insemination. Patterns of polypeptide synthesis and histone H1 kinase activity were similar in metaphase I-arrested and metaphase II oocytes, and were characterized by increase in a 25 kDa polypeptide and by decrease in kinase activity. Although the first step of meiotic division is impaired, these results indicate that metaphase I-arrested oocytes are mature cytoplasmically.     

Maturation, fertilization, and development of dog oocytes in vitro.

Preovulatory oocytes were collected from ovaries of beagle bitches that had received superovulatory treatment. They were cultured in a modified Krebs-Ringer bicarbonate solution containing 10% fetal calf serum and 30 mg/L gentamicin sulfate for up to 72 h. About 32% of oocytes reached metaphase II by 72 h of culture. When these in vitro-matured oocytes were inseminated with ejaculated beagle spermatozoa that had been preincubated for 4 h, sperm penetration of the zona pellucida started about 1 h after insemination, and both male and female pronuclei were seen in the ooplasm at 8 h after insemination. At 18-20 h after insemination, oocytes were transferred to Whitten's medium and cultured for 76-78 h. The first cleavage was observed at 48 h after insemination, and 15 of 45 oocytes developed to the 2-8-cell stage. These results demonstrate that in vitro-matured canine oocytes can be fertilized and develop to the 8-cell stage in vitro.     

Acrosomal status and motility of guinea pig spermatozoa during in vitro penetration of the cumulus oophorus

Previous studies have suggested that both acrosome-intact and acrosome-reacted guinea pig sperm are capable of binding to the zona pellucida of cumulus-free oocytes, but the acrosomal status of guinea pig sperm during penetration of the cumulus has not been reported. We made video recordings of the interaction between capacitated guinea pig sperm and cumulus-invested guinea pig oocytes. The videotapes were analysed to identify sperm with hyperactivated motility and to classify the acrosomal status of sperm during penetration of the cumulus and after binding to the zona pellucida. The resolution of the video recordings was not sufficient to recognise sperm with swollen acrosomes. However, sperm that had completed the acrosome reaction were easily identified. Acrosome-reacted sperm were found adherent to the outer boundary of the cumulus, but were never observed to penetrate the cumulus. The percentage of acrosome-intact, hyperactivated sperm was higher in the cumulus oophorus than in culture medium, suggesting that changes in motility were elicited in response to contact with the cumulus. Fully acrosome-reacted sperm were found adherent to the zona pellucida, and solubilised guinea pig zona pellucida was capable of inducing acrosome reactions in capacitated guinea pig sperm. Acrosome-intact sperm were also observed on the zona, but they were not tightly bound and did not have hyperactivated motility, suggesting that these sperm were not functionally capacitated. Our observations demonstrate that guinea pig sperm penetrate the cumulus matrix in an acrosome-intact state. Although we did not observe sperm undergoing the acrosome reaction, our observations and experimental data suggest that the acrosome reaction of guinea pig sperm is completed on or near the surface of the zona pellucida.     

Effect of the cumulus on in vitro fertilization of bovine matured oocytes

The effect of the cumulus on in vitro fertilization in bovines was examined. Follicular oocytes were cultured in medium 199 plus OCS and extra granulosa cells. Frozen-thawed bovine spermatozoa was separated by the swim-up technique, suspended in Talp medium and capacitated with heparin. Fresh sheep and goat semen was incubated for 4 h at room temperature, washed and spermatozoa were then suspended in Talp medium and capacitated by incubation at 38.5 °C and 5% CO₂ in air and heparin.

In experiment 1, cumulus-enclosed oocytes, denuded oocytes and denuded oocytes plus additional cumulus cells were incubated with a reduced concentration of bovine spermatozoa for 8 or 18 h. In Experiment 2, cumulus enclosed and denuded oocytes were incubated with bovine spermatozoa for 4, 6, 8 and 18 h using a sperm concentration adjusted to secure high fertilization rates. In Experiment 3, cumulus-enclosed and denuded bovine oocytes were incubated with either sheep or goat spermatozoa for 18 h. Fertilization rates were then calculated and compared statistically. The results showed that 1) the cumulus improved the fertilization rate only when cumulus cells were associated with the oocytes 2) the timing of sperm penetration was not modified by the cumulus and started at 4 h after sperm incubation and 3) the presence of the cumulus improved the heterologous fertilization rate only when sheep spermatozoa were used. The results suggest that the cumulus improves fertilization rate by providing a capacitation-inducing mechanism and by facilitating the interaction between capacitated spermatozoa and the zona pellucida surface.     

Defective calcium release during in vitro fertilization of maturing oocytes of LT/Sv mice

Oocytes of LT/Sv mice have anomalous cytoplasmic and nuclear maturation. Here, we show that in contrast to the oocytes of wild-type mice, a significant fraction of LT/Sv oocytes remains arrested at the metaphase of the first meiotic division and is unable to undergo sperm-induced activation when fertilized 15 hours after the resumption of meiosis. We also show that LT/Sv oocytes experimentally induced to resume meiosis and to reach metaphase II are unable to undergo activation in response to sperm penetration. However, the ability for sperm-induced activation developed during prolonged in vitro culture. Both types of LT/Sv oocytes, i.e. metaphase I and those that were experimentally induced to reach metaphase II, underwent activation when they were fertilized 21 hours after germinal vesicle breakdown (GVBD). Thus, the ability of LT/Sv oocytes to become activated by sperm depends on cytoplasmic maturation rather than on nuclear maturation i.e. on the progression of meiotic division. We also show that sperm penetration induces fewer Ca(2+) transients in LT/Sv oocytes than in control wild-type oocytes. In addition, we found that the levels of mRNA encoding different isoforms of protein kinase C (alpha, delta and zeta), that are involved in meiotic maturation and signal transduction during fertilization, differed between metaphase I LT/Sv oocytes which cannot be activated by sperm, and those which are able to undergo activation after fertilization. However, no significant differences between these oocytes were found at the level of mRNA encoding IP(3) receptors which participate in calcium release during oocyte fertilization.     

Effects of fetuin on zona pellucida hardening,fertilization and embryo development in cattle

Mammalian oocytes can undergo spontaneous meiotic maturation when they are liberated from their follicles and cultured in vitro; however, the zona pellucida (ZP) becomes resistant to chymotrypsin digestion, or hardens, when spontaneous maturation occurs in serum-free medium. Schroeder et al. [Biol. Reprod. 43 (1990) 891] described that fetuin, a component of fetal calf serum (FCS), inhibits ZP hardening during oocyte maturation. The aim of this experiment was to study the effect of the presence of cumulus cells and addition of hormones to maturation media on bovine zona hardening and embryo development in medium with and without fetuin. In Experiment I, different concentrations of fetuin were added to the maturation medium. The time necessary for digestion of 50% of the ZP (d50) was not different when oocytes were matured in presence of 10% FCS, 1mg/ml polyvinyl alcohol (PVA), or 4, 1 and 0.25mg/ml of fetuin; cleavage rates were also similar. However, significantly more blastocysts (P<0.05) were formed when FCS was used compared to PVA and 0.25mg/ml of fetuin. In Experiment II, we examined the influence of the presence of cumulus cells and hormones during the maturation of oocytes in media with PVA, BSA, FCS and fetuin. The d50 was significantly higher (P<0.05) when oocytes were matured in presence of cumulus cells. The cleavage rate of cumulus-intact oocytes was similar for all groups. However, when oocytes were partially stripped before maturation, the cleavage rate was significantly higher (P<0.05) when FCS or fetuin was used. In both stripped and non-stripped groups, significantly more blastocysts (P<0.05) were formed when oocytes were matured with FCS compared to BSA and PVA. These results indicate that zona hardening, as described for mouse and human oocytes, does not have a large effect on bovine cumulus-intact oocytes. Apparently fetuin can be used as a substitute for FCS during bovine oocyte maturation, since it leads to similar developmental rates as FCS in intact and partially stripped oocytes.     

Dynamic changes of connexin-43, gap junctional protein, in outer layers of cumulus cells are regulated by PKC and PI 3-kinase during meiotic resumption in porcine oocytes

Mammalian oocytes are surrounded by numerous layers of cumulus cells, and the loss of gap junctional communication in the outer layers of cumulus cells induces meiotic resumption in oocytes. In this study, we investigated the dynamic changes in the gap junctional protein connexin-43 in cumulus cells during the meiotic resumption of porcine oocytes. The amount of connexin-43 in all layers of cumulus cells recovered from cumulus-oocyte complexes was increased after 4-h cultivation. However, at 12-h cultivation, the positive signal for connexin-43 immunoreactivity was markedly reduced in the outer layers of cumulus cells. When these reductions of connexin-43 were blocked by protein kinase C (PKC) or phosphatidylinositol (PI) 3-kinase inhibitor, networks of filamentous bivalents (i.e., advanced chromosomal status) were undetectable in the germinal vesicle of the oocyte. After 28-h cultivation, when the majority of oocytes were reaching the metaphase I (MI) stage, the connexin-43 in the inner layers of cumulus cells was phosphorylated, regardless of mitogen-activated protein (MAP) kinase activation. These results suggest that the initiation of meiotic resumption, namely, the formation of networks of filamentous bivalents in germinal vesicle, is associated with the reduction of gap junctional protein connexin-43 in the outer layers of cumulus cells via the PKC and/or PI 3-kinase pathway. Moreover, the connexin-43 in the inner layers of cumulus cells is phosphorylated during meiotic progression beyond the MI stage, regardless of MAP kinase activation in cumulus cells surrounding the oocyte.     

Possible role for phosphatidylinositol 3-kinase in regulating meiotic maturation of bovine oocytes in vitro

In this study 2 phosphatidylinositol 3-kinase (PI 3-kinase)-specific inhibitors, wortmannin and 2-[4-Morpholinyl]-8-phenyl-4H-1-benzopyran-4-one (LY294002), were used to investigate whether PI 3-kinase is involved in the signal transduction that leads to bovine oocyte maturation. Bovine follicular oocytes were cultured in vitro for 24 h in a basic medium consisting of tissue culture medium-199 supplemented with LH, FSH, fetal cow serum, Na-pyruvate and gentamicin. The oocytes were then examined for the stage of meiotic progression and degree of cumulus expansion. In Experiment 1, in cumulus-oocyte complexes (COCs), wortmannin, at any level tested (10(-8) M, 10(-7) M or 10(-6) M), had no effect on resumption of meiosis as judged by germinal vesicle breakdown and progression to prometaphase I or metaphase I. However, wortmannin significantly (P < 0.01) decreased the proportion of oocytes developing to metaphase II in a dose-dependent manner. In Experiment 2, when denuded oocytes were cultured with wortmannin at 0, 10(-7) M and 10(-6) M concentrations, the same pattern of response for COCs was observed, with no effect on meiotic resumption and a significant (P < 0.01) decrease in the proportion of oocytes reaching metaphase II. In Experiment 3, half of the recovered COCs were denuded and both denuded and intact COCs were cultured in the presence of 0, 2.5 x 10(-5) M, 5.0 x 10(-5) M and 7.5 x 10(-5) M LY 294002 before being examined for meiotic progression. Whereas LY294002, at any examined level, had no effect on the percentage of oocytes developing to metaphase I, it significantly (P < 0.01) decreased the proportion of metaphase II oocytes when used at 5.0 x 10(-5) or 7.5 x 10(-5) M for both intact COCs and denuded oocytes. In Experiment 4, no significant difference in the degree of cumulus expansion was scored after the COCs were cultured in the presence of wortmannin or LY294002 or in the absence of either treatment. These results provide indirect evidence for a role of PI 3-kinase in the bovine oocyte itself in regulating meiotic progression beyond metaphase I.     

The effects of short−term incubation (aging) of mouse oocytes on in vitro fertilization,zona solubility,and embryonic development

The effects of in vitro aging of cumulus?intact versus cumulus?free metaphase II mouse oocytes were studied with respect to zona solubility and fertilization rates. Furthermore, zygotes from the in vitro fertilization studies were incubated and their developmental progress was recorded. The zona pellucida showed a gradual increase in resistance to dissolution by α?chymotrypsin with in vitro aging over a period of 6 hr. This effect was greater in cumulus?free as compared to cumulus?intact ova, but it was not nearly as profound as that seen in the control in vivo fertilized eggs. The fertilization rate of in vitro aging cumulus?intact ova compared favorably with the control in vivo aging group over a 6?hr time period. This was in sharp contrast to the decreased fertilization rate of in vitro aging cumulus?free ova over the same period of time. Lastly, development of zygotes to the blastocyst stage was also evaluated. The rate of first cleavage was similar in all experimental groups and compared favorably with the in vivo controls. However, further development to blastocysts of in vitro aged cumulus?free ova showed a marked decrease when compared to the cumulus?intact group and the in vivo fertilized controls. Thus we established a direct relationship between zona digestion time of in vitro aged cumulus?free oocytes and a decrease of fertilization rates in the mouse.     

Effect of ornidazole on fertility of male rats: inhibition of a glycolysis-related motility pattern and zona binding required for fertilization in vitro

The effects of the male antifertility agent ornidazole on glycolysis as a prerequisite for fertilization were investigated in rats. Antifertility doses of ornidazole inhibited glycolysis within mature spermatozoa as determined from the lack of glucose utilization, reduced acidosis under anaerobic conditions and reduced glycolytic enzyme activity. As a consequence, cauda epididymidal spermatozoa from ornidazole-fed rats were unable to fertilize rat oocytes in vitro, with or without cumulus cells, which was not due to transfer of an inhibitor in epididymal fluid with the spermatozoa. Under IVF conditions, binding to the zona pellucida was reduced in spermatozoa from ornidazole-fed males and the spermatozoa did not undergo a change in swimming pattern, which was observed in controls. The block to fertilization could be explained by the disruption of glycolysis-dependent events, since reduced binding to the zona pellucida and a lack of kinematic changes were demonstrated by control spermatozoa in glucose-free media in the presence of respiratory substrates. The importance of glycolysis for binding to, and penetration of, the zona pellucida, and hyperactivation in rats is discussed in relation to the glycolytic production of ATP in the principal piece in which local deprivation of energy may explain the reduced force of spermatozoa from ornidazole-fed males.     

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.     

The extracellular matrix of porcine mature oocytes: Origin,composition and presumptive roles

The extracellular matrix (ECM) of porcine mature oocytes was revealed by transmission electron microscopy (TEM) after treatment with tannic acid and ruthenium red. Present in the perivitelline space (PVS) and on the surface of the zona pellucida (ZP), it appeared to be composed of thin filaments and granules at the interconnections of the filaments, which were interpreted respectively as hyaluronic acid chains and bound proteoglycans. In order to determine whether this material is produced by the corona cells (the same ECM was found also on the surface of the zona pellucida and between cumulus cells) or by the oocyte itself, the synthesis of glycoproteins and glycosaminoglycans was checked by autoradiography on semi-thin and thin sections observed by light and electron microscopy. Immature oocytes within or without cumulus cells, were incubated with L [3H-] fucose or L [3H-] glucosamine – precursors respectively of glycoproteins and hyaluronic acid or hyaluronan (HA) bound to proteoglycans – for various times (with or without chase) and at different stages during in vitro maturation. In the first case, incorporation was found in both cumulus cells and ooplasm (notably in the Golgi area for 3H-fucose) and labeled material accumulated in the ECM of the PVS and of the ZP surface. Labeling in the PVS with both precursors was maximum between metaphase I (MI) and metaphase II (MII) and was partially extracted by hyaluronidase but not by neuraminidase. Tunicamycin, an inhibitor of glycoprotein synthesis, significantly decreased the amount of ³H-fucose labeled molecules in the PVS and increased the incidence of polyspermic penetration during subsequent in vivo fertilization. Since cumulus-free oocytes also secreted ³H-glucosamine containing compounds, both oocyte and cumulus cells probably contribute to the production of the ECM found in the PVS of mature oocytes. ECM and particularly its HA moiety present on both sides of the ZP may constitute a favourable factor for sperm penetration.