Pronucleus formation, DNA synthesis and metaphase entry in porcine oocytes following intracytoplasmic injection of murine spermatozoa

The onset of pronucleus formation and DNA synthesis in porcine oocytes following the injection of porcine or murine sperm was determined in order to obtain insights into species-specific paternal factors that contribute to fertilisation. Similar frequencies of oocytes with female pronuclei were observed after injection with porcine sperm or with murine sperm. In contrast, male pronuclei formed 8-9 h following the injection of porcine sperm, and 6-8 h following the injection of murine sperm. After pronucleus formation maternally derived microtubules were assembled and appeared to move both male and female pronuclei to the oocyte centre. A few porcine oocytes entered metaphase 22 h after the injection of murine sperm, but normal cell division was not observed. The mean time of onset of S-phase in male pronuclei was 9.7 h following porcine sperm injection and 7.4 h following mouse sperm injection. Ultrastructural observation revealed that male pronuclei derived from murine sperm in porcine oocytes are morphologically similar to normal male pronuclei in porcine zygotes. These results suggest that species-specific paternal factors influence the onset of pronucleus formation and DNA synthesis. However, normal nuclear cytoplasmic interactions were observed in porcine S-phase oocytes following murine sperm injection.     

Selective association of some hamster-egg-synthesized proteins with decondensing human sperm chromatin

Zona-free hamster eggs were fertilized in vitro with human spermatozoa in a culture medium enriched with either 3H-arginine or 3H-tryptophan. Autoradiography was used to investigate decondensing sperm heads and all pronuclei for the presence of newly synthesized, 3H-labelled proteins. In the case of 3H-arginine-labelled proteins, an intense accumulation of radioactivity was detected in all autoradiograms of chromatin structures. On the other hand, no comparable accumulation was seen for 3H-tryptophan-labelled proteins up to the progressed-pronucleus stage. It is concluded that, as a part of changes of the nucleoproteins in decondensing sperm chromatin, there is an accumulation in the male (as well as in the female) pronucleus of basic nuclear proteins synthesized by the egg during fertilization. Since non-histone, 3H-tryptophan-labelled proteins were not incorporated in the same way, these 3H-arginine-labelled proteins accumulating in pronuclear chromatin during the earliest phase of pronucleus formation are probably histones.     

Nascent protein requirement for completion of meiotic maturation and pronuclear development: examination of fertilized and A-23187-activated surf clam (Spisula solidissima) eggs

The involvement of newly synthesized proteins and calcium in meiotic processes, sperm nuclear transformations, and pronuclear development was examined in emetine-treated, fertilized, and A-23187-activated Spisula eggs by observing changes in the morphogenesis of the maternal and paternal chromatin. Emetine treatment (50 micrograms/ml) initiated 30 min before fertilization or A-23187 activation inhibited incorporation of [3H]leucine into TCA-precipitable material and blocked second polar body formation. Sperm incorporation and the initial enlargement of the sperm nucleus were unaffected; however, the dramatic enlargement and transformation of the sperm nucleus into a male pronucleus, which normally follow polar body formation, were delayed 10 to 20 min. Unlike the situation in untreated, control eggs, male pronuclear development took place while the maternally derived chromosomes remained condensed. It was not until approximately 20 min after the normal period of pronuclear development that the maternal chromosomes dispersed and formed a female pronucleus in emetine-treated, fertilized eggs. Formation of pronuclei, however, was unaffected in both emetine-treated, A-23187-activated eggs and fertilized eggs incubated with A-23187. These observations indicate that germinal vesicle breakdown, first polar body formation, and initial transformations of the sperm nucleus are independent of newly synthesized proteins. Inhibition of second polar body formation and the delay in pronuclear development brought about by emetine, as well as the appearance of silver grains over pronuclei in autoradiographs of control eggs incubated with [3H]leucine demonstrate that nascent proteins are involved with the completion of meiotic maturation and the development of male and female pronuclei. The ability of A-23187 to override the inhibitory effects of emetine on pronuclear development suggests that both nascent protein and calcium signals are involved in regulating the status of the maternal and paternal chromatin during pronuclear development.     

Selective association of some hamster-egg-synthesized proteins with decondensing human sperm chromatin

Summary Zona-free hamster eggs were fertilized in vitro with human spermatozoa in a culture medium enriched with either ³H-arginine or ³H-tryptophan. Autoradiography was used to investigate decondensing sperm heads and all pronuclei for the presence of newly synthesized, ³H-labelled proteins.In the case of ³H-arginine-labelled proteins, an intensen accumulation of radioactivity was detected in all autoradiograms of chromatin structures. On the other hand, no comparable accumulation was seen for ³H-tryptophan-labelled proteins up to the progressed-pronucleus stage. It is concluded that, as a part of changes of the nucleoproteins in decondensing sperm chromatin, there is an accumulation in the male (as well as in the female) pronucleus of basic nuclear proteins synthesized by the egg during fertilization. Since non-histone, ³H-tryptophan-labelled proteins were not incorporated in the same way, these ³H-arginine-labelled proteins accumulating in pronuclear chromatin during the earliest phase of pronucleus formation are probably histones.     

Kinetics of fertilization and development, and sex ratio of bovine embryos produced using the semen of different bulls

The between bulls variation in in vitro fertility and the shift of sex ratio towards male embryos are two problems affecting the in vitro production (IVP) of bovine embryos. Our objective was to evaluate the kinetics of fertilization, embryo development and the sex ratio of the resulting embryos using the frozen/thawed semen of four different bulls. In a first experiment, the kinetics of pronucleus (PN) formation was evaluated at 8, 12 and 18 h post-insemination (hpi). Based upon the pronuclei sizes and the distance between the two pronuclei, inseminated oocytes were classified in three PN stages. Differences between bulls were observed at each time point, but were more important at 12 hpi. At 8 and 12 hpi bull III showed a significantly faster PN evolution by comparison with the three other bulls (P<0.05), while at 18 hpi, the proportion of the three PN stages was similar to those of bulls I and IV, bull II being delayed. In a second experiment, the kinetics of in vitro embryo development was compared using time-lapse cinematography. The analysis of embryos reaching the blastocyst stage revealed significant differences in the mean time of first cleavage (range of 22.7-25.6h, P<0.05), while the lengths of the subsequent three cell cycles did not differ between bulls. The early mean time of first cleavage with bull III was associated with an early blastulation and a high blastocyst rate at Day 7, in opposition to what was observed with bull II showing a later timing of first cleavage (first cleavage 22.1 hpi versus 25.5 hpi; blastulation 140.4 hpi versus 152.5 hpi; D7 blastocyst rates: 31.3% versus 21.9%; P<0.05). In a third experiment, 65-76 Day 8 blastocysts per bull were sexed by PCR. Only blastocysts obtained with bull III showed a shift in sex ratio towards male embryos (76% male embryos; P<0.05). Such shift was already observed at the 2-cell and morula stages. In conclusion, the bull influences the kinetics of PN formation, of embryo development and the sex ratio of the embryos. Moreover, those parameters might be related.     

Involvement of the pentose phosphate pathway and redox regulation in fertilization in the mouse

Glucose metabolism is necessary for successful fertilization in the mouse. Both spermatozoa and oocytes metabolize glucose through the pentose phosphate pathway (PPP), and NADPH appears required for gamete fusion. The aims of this study were to further characterize the utilization of glucose by the fertilizing spermatozoon and the fertilized oocyte, to demonstrate the importance of the PPP in different steps of fertilization, and to examine whether the beneficial effect of glucose could be mediated by a NADPH-dependent enzyme involved in redox regulation. By using a fluorescent analog of 2-deoxyglucose, glucose uptake was evidenced in both the head and flagellum of motile spermatozoa. After sperm-oocyte fusion, an increase in glucose uptake by the fertilized oocyte was observed but not before the formation of the male and female pronuclei. By using a microphotometric technique, activity of glucose 6-phosphate dehydrogenase (G6PDH), the key enzyme of the PPP, was localized to the sperm head and midpiece. When epididymal spermatozoa were released into a glucose-containing medium, the NADPH/NADP ratio increased with capacitation. Sperm-oocyte fusion and meiosis reinitiation of the fertilized oocyte was inhibited by the PPP inhibitor 6-aminonicotinamide (6-AN); inhibition of sperm-oocyte fusion was relieved by NADPH. Sperm-oocyte fusion and meiosis reinitiation were also inhibited by diphenylamine iodonium, which is a flavoenzyme inhibitor reported to prevent reactive oxygen species (ROS) generation in mouse spermatozoa and embryos. These findings indicate that the PPP is involved in different steps of fertilization. Subsequent regulation of a NADPH-dependent flavoenzyme responsible of ROS production is envisaged.     

DNA synthesis in the fertilizing hamster sperm nucleus: sperm template availability and egg cytoplasmic control

To assess the role of the availability of sperm nuclear templates in the regulation of DNA synthesis, we correlated the morphological status of the fertilizing hamster sperm nucleus with its ability to synthesize DNA after in vivo and in vitro fertilization. Fertilized hamster eggs were incubated in 3H-thymidine for varying periods before autoradiography. None of the decondensed sperm nuclei nor early (Stage I) male pronuclei present after in vivo or in vitro fertilization showed incorporation of label, even in polyspermic eggs in which more advanced pronuclei were labeled. In contrast, medium-to-large pronuclei (mature Stage II pronuclei) consistently incorporated 3H-thymidine. To investigate the contribution of egg cytoplasmic factors to the regulation of DNA synthesis, we examined the timing of DNA synthesis by microinjected sperm nuclei in eggs in which sperm nuclear decondensation and male pronucleus formation were accelerated experimentally by manipulation of sperm nuclear disulfide bond content. Although sperm nuclei with few or no disulfide bonds decondense and form male pronuclei faster than nuclei rich in disulfide bonds, the onset of DNA synthesis was not advanced. We conclude the the fertilizing sperm nucleus does not become available to serve as a template for DNA synthesis until it has developed into a mature Stage II pronucleus, and that, as with decondensation and pronucleus formation, DNA synthesis also depends upon egg cytoplasmic factors.     

Paternal pronuclear DNA degradation is functionally linked to DNA replication in mouse oocytes

We recently demonstrated that mouse spermatozoa contain a mechanism to degrade their DNA into loop-sized fragments of about 50 kb, mediated by topoisomerase IIB, termed sperm chromatin fragmentation (SCF). SCF is often followed by a more complete digestion of the DNA with a sperm nuclease. When SCF-induced spermatozoa are injected into oocytes, the paternal pronuclei degrade their DNA after the initiation of DNA synthesis, but the maternal pronuclei are unaffected and replicate normally. Here, we tested whether the nuclease activity changes in spermatozoa of different maturation stages, and whether there is a functional relationship between the initiation of DNA synthesis and paternal DNA degradation induced by SCF in the zygote. We found that spermatozoa from the vas deferens have a much higher level of SCF activity than those from the cauda epididymis, suggesting that spermatozoa may acquire this activity in the vas deferens. Furthermore, paternal pronuclei formed in zygotes from injecting oocytes with SCF-induced vas deferens spermatozoa degraded their DNA, but this degradation could be inhibited by the DNA synthesis inhibitor, aphidicolin. Upon release from a 4 h aphidicolin-induced arrest, DNA synthesis was initiated in maternal pronuclei, while the paternal pronuclei degraded their DNA. Longer aphidicolin arrest resulted in the paternal pronuclei replicating their DNA, suggesting that delaying the initiation of DNA synthesis allowed the paternal pronuclei to overcome the SCF-induced DNA degradation pathway. These results suggest that the paternal DNA degradation, in oocytes fertilized with SCF-induced spermatozoa, is coupled to the initiation of DNA synthesis in newly fertilized zygotes.     

Full-term development of mouse eggs transplanted with male pronuclei derived from round spermatids: the effect of synchronization between male and female pronucleus on embryonic development

Pronucleus transplanted mice have been produced, but their donor male pronuclei were derived from mature sperm and were completely synchronous with female pronuclei because both male and female pronuclei came from the same fertilized oocyte. The present study firstly produced male pronuclei by introducing round spermatids into enucleated mouse oocytes, then transferred the male pronuclei into mouse oocytes at three activation stages and finally compared the effect of three kinds of oocytes on the development of reconstructed embryos. Our results indicate that, in enucleated oocytes, mouse round spermatid nuclei can transform to male pronuclei in a higher proportion, and the synchronization between male and female pronucleus does not significantly influence the early cleavage but the later and full-term development of reconstructed embryos.     

In vitro fertilizing characteristics of bovine spermatozoa with multiple nuclear vacuoles: A case study

A study was designed to determine the in vitro fertilizing characteristics of bovine semen with a high percentage of spermatozoa with multiple nuclear vacuoles. In Experiment 1, a total of 620 oocytes was divided into 2 groups and inseminated with spermatozoa from 1 of 2 different bulls at a concentration of 2 × 10⁵/ml. After Percoll washes, 73.5 ± 3.0% of spermatozoa from Bull A contained multiple nuclear vacuoles, while no sperm cells from Bull B contained vacuoles. After 19.5 ± 0.5 h of co-incubation of oocytes with spermatozoa, loosely attached sperm cells were removed by washing, and the oocytes were fixed between 2 poly-l-lysine coated glass slides. Mean (±SD) percentage of fertilization was significantly lower (P < 0.05) in Bull A (19.7 ± 7.0%) than in Bull B (67.6 ± 4.5%). In one-third of the oocytes fertilized by spermatozoa from Bull A, sperm head decondensation was incomplete and normal male pronucleus formation did not occur. All oocytes fertilized by Bull B had normally decondensed sperm heads. Although fewer (P < 0.05) spermatozoa from Bull A were bound to the zona pellucida than from Bull B, the percentage of vacuolated sperm cells bound to the zona pellucida (73.3 ± 7.8%) did not differ from that in the inseminate. The mean number of sperm cells binding to fertilized oocytes was higher than to unfertilized oocytes for both bulls (P < 0.05). In Experiment 2, 748 salt-stored oocytes (zonae) were inseminated with semen from the same 2 bulls to determine the ability of spermatozoa to penetrate the zona pellucida. The percentage of zonae penetrated by spermatozoa from Bull A (69.9 ± 3.5%; a mean of 2.4 ± 2.3 spermatozoa) was lower (P < 0.05) than from Bull B (96.5 ± 14.7%; a mean of 11.3 ± 9.9). Although the proportion of vacuolated sperm cells from Bull A that bound to the zona pellucida did not differ from that in the inseminate, the proportion of those penetrating the zona pellucida (52.7%) was lower (P < 0.05). In summary, vacuolated sperm cells apparently gained access to the oocyte and bound to the zona pellucida, but they penetrated the zona pellucida at a lower rate and apparently did not form normal male pronuclei.     

Initiation of DNA replication cycle in fertilized eggs of the starfish, Asterina pectinifera

Starfish oocytes or eggs were inseminated at various times between first prometaphase and pronuclear stage, and were subsequently labeled with the thymidine analogue 5-bromo-2'-deoxyuridine (BrdU) in order to detect the onset of DNA synthesis phase (S phase) during the first cell cycle using a monoclonal antibody against BrdU. The interval between fertilization and the first S phase was found to be constant (30-45 min, depending on batches) in eggs fertilized after formation of the first polar body. Eggs fertilized before first polar body formation, however, always entered the S phase 10-20 min after the second polar body formation. On the basis of these observations we conclude that (i) the chain of events triggered by fertilization, collectively called "postactivation process" for the first S phase, goes on in parallel with the process of maturation and (ii) only the final step of the postactivation process is arrested until the termination of meiosis. In eggs that had been fertilized before the first polar body formation, the female and male pronuclei exhibited uniformly distributed chromatin soon after the second polar body formation. In eggs that had been fertilized after the second polar body formation, however, the chromatin of the pronuclei remained fibrillar even during the S phase. Thus full decondensation of chromatin appears to depend on a certain advance in the postactivation process.     

The absence of a DNA replication checkpoint in porcine zygotes

It has been demonstrated that in the zygotes of some mammals a unique checkpoint controls the onset of DNA replication. Thus, DNA replication begins in the maternal pronucleus only after the paternal pronucleus is fully formed. In our experiments we have investigated whether this checkpoint also operates in porcine zygotes produced either by in vitro fertilization (IVF) or by intracytoplasmic sperm injection (ICSI). Our results show that the onset of DNA replication occurs in the maternal pronucleus even in the presence of an intact sperm head in zygotes produced by ICSI, as well as in polyspermic eggs where some sperm heads are intact or male pronuclei are not yet fully developed. We conclude that in porcine zygotes there is an absence of the DNA replication checkpoint that is typical for some other mammals.     

Effect of maturation media on male pronucleus formation in pig oocytes matured in vitro.

The present study was carried out to examine the effect of maturation media on male pronucleus formation of pig oocyte matured and fertilized in vitro. Follicular oocytes collected from prepubertal gilts at a local slaughter house were cultured (36 h) in three different media (mTCM-199, Waymouth MB 752/l, and mTLP-PVA), fertilized in vitro, and assessed for nuclear maturation and male pronucleus formation. The addition of 10% (v/v) pig follicular fluid (pFF) to maturation media significantly increased the rate of nuclear maturation of pig oocytes (P less than 0.01), whereas the rate of nuclear maturation of pig oocytes among three different media did not differ. However, the rate of male pronucleus formation of pig oocytes was significantly higher in pig oocytes matured in Waymouth MB 752/l with or without pFF than in oocytes matured in the other two media (P less than 0.01). In experiment 2, the addition of cysteine (the same concentration as in Waymouth medium, 0.57 mM), to mTLP-PVA significantly increased the rate of male pronucleus formation of pig oocytes compared with the control (P less than 0.01). The results indicate that the composition of maturation medium affects the ability of pig oocytes to form male pronuclei following sperm penetration; media containing a high concentration of cysteine (possibly as a substrate of glutathione), such as Waymouth MB 752/l, can remarkably promote this ability.     

A detailed analysis of early events during in-vitro fertilization of bovine follicular oocytes

Bovine follicular oocytes collected at slaughter were matured and fertilized in vitro with in-vitro capacitated spermatozoa. Analysis of 621 penetrated ova fixed at various times after in-vitro insemination led to definition of 6 stages of early development. A time sequence for sperm penetration, sperm head decondensation, male pronucleus formation, the activation of second meiotic division, female chromosome decondensation and pronucleus development was established. First sperm penetration into the ooplasm was recorded 6 h after insemination; 1-2 h was required for the sperm head to decondense and another 4-6 h to develop into the opposing pronucleus stage. Synkaryosis and first cleavage occurred 28 h after fertilization. Examination of the early stages revealed four types of abnormalities, i.e. polyspermy, polygyny, asynchrony between male and female pronucleus development, and preactivation of cytokinesis.     

Behavior of sperm nuclei in intact and bisected metaphase II mouse oocytes fertilized in the presence of colcemid

Our objective was to examine the developmental fate of sperm nuclei in oocytes fertilized under conditions of meiotic arrest. Therefore zona-free metaphase II oocytes and oocyte fragments (nucleate and anucleate) were fertilized in the presence of colcemid. In anucleate oocyte fragments, normal male pronuclei develop. In contrast, in intact oocytes and nucleate fragments sperm nuclei after initial decondensation undergo secondary condensation. This state is maintained as long as the oocytes are treated with colcemid. When the drug is removed 3 h after insemination, the meiotic spindle(s) is reconstructed, the second polar body(ies) is extruded, and a female pronucleus (or micronuclei) forms. At the same time the sperm nucleus decondenses again and transforms into a male pronucleus. In addition oocytes fertilized in the presence of colcemid could not be refertilized. These observations suggest that oocytes and oocyte fragments fertilized in the presence of colcemid undergo activation despite the failure of pronucleus formation. The inhibitory effect of colcemid on the formation of pronuclei is expressed only in the presence of oocyte chromosomes. We suggest that colcemid stabilizes factors responsible for chromosome condensation that are associated with oocyte chromosomes but not factors (whether the same or different) present in the cytoplasm.     

Autoradiographic study of mouse spermatozoan arginine-rich nuclear protein in fertilization.

General labeling of ripe mouse spermatozoa was obtained two weeks after six injections of L-arginine-5-3H monohydrochloride, administered within two days. Besides tail labeling a very intensive nuclear labeling was obtained. It is presumed that this nuclear labeling represents almost exclusively tritiated arginine incorporation into basic nuclear protein. Mouse oocytes were fertilized in vitro with such labeled spermatozoa. It was found that the nuclear label is lost very early during male pronucleus formation, probably concomitantly with sperm chromatin decondensation. This might indicate total loss of the basic spermatozoal nuclear protein before male genome activation.     

体外受精和孤雌活化过程中小鼠胚胎细胞骨架的动态变化

为研究微管在体外受精与孤雌活化过程中的动态变化,本实验比较了体外受精胚胎、SrCl2激活的孤雌胚胎和体内受精的原核期胚胎在体外发育的情况,采用免疫荧光化学与激光共聚焦显微术检测卵母细胞孤雌活化过程中及体外受精后微管及核的动态变化,以分析微管在减数分裂过程中的作用及其对早期发育的影响.结果显示,体内受精胚胎的发育率显著高于体外受精和孤雌激活胚胎体外发育率(P<0.05),而体外受精与孤雌激活胚胎在各阶段发育率差异均不显著.在体外受精中,精子入卵,激活卵母细胞,减数分裂恢复,纺锤丝牵拉赤道板卜致密排列的母源染色体向纺锤体两侧迁移;后期将染色体拉向两极;末期时,微管分布于两组已去凝集的母源染色体之间,卵母细胞排出第二极体(the second polarbody,Pb2),解聚的母源染色体形成雌原核.同时,在受精后5～8 h精子染色质发生去浓缩与再浓缩,形成雄原核.在原核形成的同时,胞质星体在雌、雄原核的周围重组形成长的微管,负责雌、雄原核的迁移靠近.孤雌活化过程中,卵母细胞恢复减数分裂,姐妹染色单体分离,被拉向两极,经细胞松弛素B处理后,活化4～6 h,卵周隙中未见Pb2,而在胞质中出现两个混合的单倍体原核,之间由微管相连接,负责两个单倍体原核的迁移靠近.与体外受精相比较,孤雌活化时卵母细胞更容易被激活,减数分裂期间微管的发育早且更完善.     

Onset of the first S-phase is determined by a paternal effect during the G1-phase in bovine zygotes

The aim of this study was to characterize the respective influences of the paternal and the maternal components on the timing of the first S-phase in the bovine zygote. In vitro-matured oocytes were fertilized in vitro with sperm conferring a high blastocyst rate (embryos of group 1) or a low blastocyst rate (embryos of group 2). Resulting zygotes were either allowed to develop in vitro to the blastocyst stage or exposed to 5'-bromo-2'-deoxyuridine in order to characterize the timing of their first S-phases. Timing of pronuclear formation was similar in the two groups, but the onset of S-phase and the first cleavage occurred earlier in group 1 than in group 2. We also showed that the length of the S-phase represented 30% of the first cell cycle in group 1 and 20% in group 2. Differences in times of onset of the first S-phase observed between embryo groups concerned both male and female pronuclei in a similar manner and were not dependent on the maternal component of the zygote. Our data demonstrated that the precocity of the onset of the first S-phase stemmed from a paternal control exerted during a transient period of the G1-phase.