First cell cycle of zygotes of the mouse derived from oocytes aged postovulation in vivo and fertilized in vivo

This paper describes an analysis of the first cell cycle of mouse oocytes aged postovulation and fertilized in vivo. For this purpose, we developed a procedure for inducing ovulation in vivo that allows accurate timing of ovulation. The method is based on a luteinizing hormone (LH)-releasing hormone (LHRH) administration at proestrus. This ovulation procedure had no detectable effect on the rate of ovulation or postimplantation embryonic death. We used this method of ovulation induction in an analysis of the separate stages of the first cell cycle of in vivo fertilized postovulation aged oocytes. All stages assessed were shorter in aged oocytes (12 hr postovulation) than in zygotes from unaged oocytes (1 hr postovulation): 1) the time interval between insemination and penetration of the aged oocytes was 1.5 hr shorter than the time interval of the unaged oocytes; 2) pronuclear formation in the fertilized aged oocytes was somewhat quicker than pronuclear formation in fertilized unaged oocytes; 3) in zygotes from aged oocytes, the time between formation of pronuclei and the pronuclear membrane breakdown was 1 hr shorter than in zygotes from unaged oocytes; 4) the first cleavage division was 3 hr advanced in zygotes from aged oocytes compared with the moment of the first cleavage division in zygotes from unaged oocytes. We also determined the glutathione (GSH) content of unaged and aged oocytes to investigate a possible relationship between the rate of pronuclear formation and GSH. The level of GSH was two times lower in oocytes aged postovulation for 12 hr than in unaged oocytes.2+ level of GSH in fertilized, unaged oocytes was half that in     

The effects of spermatozoal irradiation with X-rays on chromosome abnormalities and on development of mouse zygotes after delayed fertilization

The chromosome complements of zygotes derived from oocytes aged post ovulation and fertilized in vivo with X-ray-irradiated sperm were studied. Ovulation was induced by an injection of luteinizing hormone-releasing hormone (LHRH) at pro-estrus and fertilization was achieved by artificial insemination at 13 h and 24 h after LHRH in order to obtain embryos from unaged and aged (12 h post-ovulation) oocytes respectively. Post-ovulatory aging prior to fertilization did not significantly affect the percentage of zygotes with irradiation-induced chromosome abnormalities. However, post-ovulatory aging had a negative effect on the morphology of male as well as female pronuclear chromosomes of the first cleavage metaphase. When fertilized with control spermatozoa this effect was apparent in both the male and the female pronucleus. When unaged oocytes were fertilized with X-irradiated spermatozoa chromosome morphology was also adversely affected in both pronuclei. In zygotes from aged oocytes, there was an extra negative effect of X-rays on the male pronuclear chromosomes only. After fertilization with X-irradiated sperm 27% of zygotes from aged oocytes were arrested at interphase compared to 7% from unaged oocytes. We suggest that post-ovulatory aging and X-rays affect the male and female pronuclear chromatin structure after fertilization. These chromatin alterations could interact with DNA lesions induced in the spermatozoa prior to fertilization, such that development to first cleavage can be blocked.     

Sperm age, sex ratio, and hyperhaploidy frequency in mice.

Physiologically aged and unaged sperm from each of 12 sexually mature B6SJLF1/J mice were used to fertilize oocytes from females of the same strain, with each male serving as its own control. Male genomes in 323 and 307 first-cleavage metaphases obtained by in vivo and in vitro fertilization, respectively, were analyzed cytogenetically, using C-banding for detection of the Y chromosome. The sex (X:Y) ratio among all zygotes resulting from in vivo fertilization was 1.18; in zygotes resulting from in vivo fertilization by aged (14-d mating intervals) sperm, however, the ratio was 1.53, which differed significantly (chi 2 = 6.72, P less than 0.01) from the theoretical value of 1.00. Comparison of the sex ratio in zygotes resulting from in vivo fertilization by unaged sperm (3-d mating intervals), 0.94, with that in zygotes resulting from fertilization by aged sperm (using a 2 x 2 contingency table) showed a significant (chi c2 = 4.19, P less than 0.05) relationship between sex ratio and sperm age. In vitro neither the combined nor the individual 3- and 14-d data deviated significantly from the expected sex ratio of 1.00. The frequency of sperm-derived hyperhaploidy did not differ significantly between the in vivo (3.4%) and in vitro (5.9%) populations, but did between unaged (2.5%) and aged (6.8%) sperm (chi c2 = 5.74, P less than 0.01). All hyperhaploid zygotes had a complement of n + 1 chromosomes, except the 14-d in vitro group, where complements of n + 2 and n + 3 chromosomes were seen. Sperm-derived polyploidy, which was observed only in the in vitro group, was independent of sperm age and occurred in 6.8% of the zygotes. These data provide support for the sperm-aging hypothesis and indicate, for the first time, an influence of sperm aging in the male genital tract on the X:Y ratio of conceptuses resulting from natural matings of chromosomally normal males.     

Localization of nucleic acids in the nucleoli of oocytes and early embryos of mouse and hamster: An autoradiographic study

Mouse preovulatory oocytes, zygotes, parthenogenetically activated pronuclear oocytes, and early embryos, as well as hamster zygotes, were analyzed, by autoradiography, for the distribution of either “maternal” or newly synthesized RNAs. Early mouse embryos were also examined for the distribution of newly replicated DNA. Special attention was attributed to NLBs in oocytes or to NPBs in early embryos. In mouse oocytes, [5-³H]uridine radioactivity accumulated (after a 2-hr pulse) in vitro, in addition to other nuclear compartments, in the central compact material of the NLBs. There was no cytoplasmic labeling. In all parthenogenetic pronuclear embryos developed from similarly labeled oocytes, this label was distinctly detectable in the central compact material of the NPBs; less intensive labeling was seen in the nucleoplasm and cytoplasm. On the contrary, the central compact part of the mouse NPB did not show labeling in DNA after a continuous culture with [6-³H]thymidine. In mouse and hamster pronuclear zygotes, convincing evidence was obtained for a lack of any newly synthesized nucleic acids in the compact material of NPBs using 4- to 10-hr culture with [8-³H]adenosine. Based on these data, it was shown that the NLBs of oocytes or NPBs of early embryos probably contain RNAs synthesized during the last stages of antral follicle oocyte differentiation. This unique pathway of RNAs in the oocyte—embryo system may explain the specific morphology of both oocyte and early embryo “nucleoli.” © 1995 Wiley-Liss, Inc.     

Preimplantation development of rabbit embryos after transfer of embryonic nuclei into different cytoplasmic environment

The development of nuclear-transfer oocytes and zygotes was tested in the rabbit. Metaphase II oocytes and zygotes in the early pronuclear stage were treated with a cytoskeletal inhibitor (cytochalasin D), enucleated, and subsequently fused either with single blastomeres from eight- and 16-cell stages (oocytes and zygotes) or with pronuclei-containing karyoplasts (zygotes only). Also, nonenucleated zygotes were fused with 1/8 blastomeres. Fusion was performed by means of an electric field. Development of reconstituted embryos was monitored mainly in vitro, but a certain number of embryos developed from oocytes and zygotes receiving nuclei from eight-cell stages were also transferred into pseudopregnant does. Development of nuclear-transfer oocytes was distinctly better than that of nuclear-transfer zygotes, since 16.9% and 9.5% oocytes vs. 8.1% and 3.7% zygotes carrying eight- and 16-cell nuclei, respectively, developed to the blastocyst stage. Two advanced but already dead fetuses were found after transfer of 27 four-cell embryos obtained after fusion of oocytes with 1/8 blastomeres. No implantations were observed after transfer of 25 four-cell embryos developed from enucleated zygotes receiving eight-cell nuclei. These findings indicate that, in the rabbit, some nuclei from 16-cell embryos are still capable of promoting at least preimplantation development. Comparison between the developmental abilities of oocyte- and zygote-derived nuclear-transfer embryos also suggests that the cytoplasmic environment of recipient cell is more crucial for the development of reconstituted embryos than the stage of introduced nuclei (at least up to the 16-cell stage). The majority of pronuclear exchange embryos (69.9%) and 40% of nonenucleated zygotes receiving eight-cell nuclei were able to develop to the blastocyst stage. This latter observation indicates, similarly as with mouse, a supporting role of residual pronuclei for participation of an eight-cell nucleus in the development of reconstituted zygotes.     

The onset of DNA synthesis and its relation to morphogenetic events of the pronuclei in activated eggs of the sea urchin, Arbacia punctulata

Experiments were carried out in order to investigate the onset of DNA synthesis and its possible relation to pronuclear morphogenesis prior to, during, and following pronuclear fusion in the sea urchin, Arbacia punctulata. Analysis of the acid-soluble radioactivity of zygotes continuously incubated in tritiated thymidine (³H-TdR) at 22°C demonstrated the production of thymidine triphosphate prior to and during pronuclear migration (5–10 min post-insemination) which continued to increase until prophase (about 45 min post-insemination). DNA synthesis was initiated subsequent to pronuclear fusion, i.e., 15–20 min post-insemination. Little or no cytoplasmic label was detected during fertilization. Silver grains were first detected over the zygote nucleus in sections prepared for light and electron microscopic radioautography from zygotes fixed at 18 min post-insemination. Incubation of Arbacia zygotes at 12°C dramatically slowed development but did not alter the temporal relation between pronuclear fusion and DNA synthesis. Radioautographs of polyspermic zygotes demonstrated that unfused male pronuclei were able to synthesize DNA and substantiate the claim that pronuclear fusion is not required for the initiation of DNA synthesis. Analysis of autoradiographs of artificially activated eggs also lead to the same conclusion. Uptake of ³H-TdR or ³H-bromodeoxyuridine was not found in spermatozoa incorporated into polyspermic oocytes regardless of whether or not they had initiated or developed into male pronuclei. It is concluded that the relation between DNA synthesis and pronuclear fusion is not close or a direct one, i.e., pronuclear fusion does not appear to be a prerequisite for the onset of DNA synthesis in Arbacia.     

Qualitative patterns of protein synthesis in the mouse oocyte.

Mouse oocytes were found to synthesize proteins actively at the germinal vesicle, metaphase I, metaphase II, and pronuclear (6 hours post-fertilization) stages. The qualitative pattern components being synthesized in vitro, as demonstrated using polyacrylamide gel electrophoresis, changed throughout maturation and fertilization. Oocytes were arrested at metaphase I by greater than 0.1 mug/ml cycloheximide or actinomycin D. The protein pattern in oocytes cultured in the presence of actinomycin D progresses to a metaphase II pattern in spite of the nuclear maturation arrest, indicating a dissociation between meiotic maturation and the changes in the pattern of proteins synthesized at different stages of maturation.     

Evidence for differential maturation of reciprocal sperm segregants in the murine Rb(6.16) translocation heterozygote.

The fertilizing ability of unaged sperm and those aged experimentally in the cauda by surgically ligating the corpus epididymis in males carrying the Rb(6.16) translocation was studied. Chromosomally normal females were inseminated with unaged sperm delivered by males mating at 3-day intervals, and aged sperm were studied after matings on 6-14 postoperative days. The sperm chromosome complement was analyzed in first-cleavage metaphase zygotes after sequential G- and C-banding of the chromosomes. Of 283 metaphasic zygotes in the control group, 183 (or 64.7%) were analyzed and showed a ratio of 2.7:1 for chromosomally normal and balanced segregants of the translocation, deviating significantly (P less than 0.001) from the expected 1:1. The ratio of X- to Y-bearing sperm also deviated from expected (P less than 0.01) mostly due to a significant deficiency (P less than 0.05) of balanced sperm that were X-bearing. Fertilized oocytes were recovered from matings of 10 males on days 6-8 postoperatively, and, of 139 metaphasic one-cell zygotes, 101 (or 72.3%) were analyzed. These showed a Mendelian ratio of 1:1 for normal and balanced segregants. The sex ratio in the aged group (57Y:41X) also showed no deviation from 1:1. The results, which reveal significant physiological distortions for both the segregation and the sex ratios in males heterozygous for the Rb(6.16) translocation, suggest that differential maturation of the translocation-bearing sperm and the chromosomally normal reciprocal exists. The findings further support the concept that sperm chromosomal complement affects their maturation and function, and that factors on chromosome 6 and the X or Y chromosome additively affect sperm function.     

Dithiothreitol induces sperm nuclear decondensation and protects against chromosome damage during male pronuclear formation in hybrid zygotes between Chinese hamster spermatozoa and Syrian hamster oocytes

The present study was undertaken to investigate whether a time lag in sperm nuclear decondensation and male pronuclear formation in the course of development of eggs is associated with any occurrence of structural chromosome aberrations in male genomes of hybrid zygotes between Chinese hamster spermatozoa and zona-free Syrian hamster oocytes. Shortly after insemination, hybrid zygotes were treated with dithiothreitol (DTT) at different concentrations (0.1-10.0 mM) for 30 min to reduce protamine disulphide (S-S) bonds and thereby accelerate sperm nuclear decondensation and male pronuclear formation. The incidence of sperm nuclear decondensation and male pronuclear formation increased with increasing DTT concentrations, indicating that a reduction in S-S bonds effectively induces these cytological events. Chromosomes of male genomes in hybrid zygotes generated by treatment with 1.0 mM, 2.5 mM and 10.0 mM DTT were analysed at the first cleavage metaphase. Incidence of structural chromosome aberrations in each treatment was 34.5%, 27.1% and 24.7%, respectively. There was a significant difference between the incidences with 1.0 mM and 10.0 mM DTT treatment. As the time lag in nuclear decondensation and male pronuclear formation was greatest in the 1.0 mM treatment condition, followed in order by 2.5 mM and 10.0 mM, it is suggested that the lag in sperm nuclear development behind egg development is responsible for structural chromosome aberrations in male genomes of hybrid zygotes.     

Live piglets derived from in vitro-produced zygotes vitrified at the pronuclear stage

We report the successful cryopreservation of in vitro-produced porcine zygotes. Follicular oocytes from prepubertal gilts were matured (IVM), fertilized (IVF), and cultured (IVC) in vitro. At 10 or 23 h after IVF, the oocytes were centrifuged to visualize pronuclei. Zygotes with two or three pronuclei were used for solid surface vitrification (SSV). Survival of vitrified-warmed zygotes was determined by their morphology. To assess their developmental competence, vitrified (SSV), cryoprotectant-treated (CPA), and untreated (control) zygotes were subjected to IVC for 6 days. Survival and developmental competence did not differ between control and CPA zygotes. The proportion of live zygotes after SSV and warming (93.4%) was similar to that in the controls (100%). Cleavage and blastocyst formation rates of SSV zygotes after vitrification (71.7% and 15.8%, respectively) were significantly lower than those of controls (86.3% and 24.5%, respectively; ANOVA P<0.05). Blastocyst cell numbers of SSV and control embryos were similar (41.2+/-3.4 and 41.6+/-3.3, respectively). There was no difference in developmental ability between zygotes cryopreserved at an early (10 h after IVF) or late (23 h after IVF) pronuclear stage. Storage in liquid nitrogen had no effect on the in vitro developmental competence of vitrified zygotes beyond the reduction induced by the vitrification itself. When the embryo culture medium was supplemented with 1 muM glutathione, the rate of development of cryopreserved zygotes to the blastocyst stage did not differ significantly from that of control glutathione-treated zygotes (18.6% and 22.1%, respectively). To test their ability to develop to term, vitrified zygotes were transferred to five recipients, resulting in three pregnancies and the production of a total of 17 piglets. These data demonstrate that IVM-IVF porcine zygotes can be cryopreserved at the pronuclear stage effectively without micromanipulation-derived delipation, preserving their full developmental competence to term.     

The fate of DNA injected into mammalian oocytes and zygotes at different stages of the cell cycle.

The stability of exogenous DNA microinjected into the cytoplasm at different stages of the meiotic cycle and after pronuclear formation was examined in ungulate species. Metabolism of the injected 1201 base pair (bp) DNA was examined by Southern blotting. Similar levels of metabolism of the injected DNA were detected in pig, sheep and bovine oocytes before germinal vesicle breakdown, in which about 30-40% of detected DNA was ligated into higher-molecular-weight forms. Porcine metaphase oocytes and pronuclear zygotes showed a reduced ability to ligate the exogenous DNA. In contrast, sheep and bovine metaphase oocytes and zygotes showed increased levels of ligation and, at the pronuclear stage, generated significant amounts of extremely large (greater than 15 kbp) ligation products. These results are discussed in the context of maternal precursors and metabolic activities in the egg.     

Ooplasmic influence on nuclear function during the metaphase II-interphase transition in mouse oocytes.

Nuclear and pronuclear transfer procedures were used to assess the functional competence of the nucleus and cytoplasm of mouse germinal vesicle-stage oocytes denuded of granulosa cells and matured in vitro or in vivo before artificial activation using a sequential treatment of A23187 + cycloheximide. Following activation, in vitro-matured oocytes were "fertilized" by inserting a male pronucleus (PN), cultured to the 2-cell stage, and then transferred to the oviducts of foster mothers. No live births were noted, whereas a 17% live birth rate was observed when in vivo-matured oocytes were used. The developmental competency of other zygotes was similarly assessed following the exchange of haploid PN of matured and activated eggs with the female PN of fertilized zygotes. When PN of oocytes subjected to maturation and activation in vitro were transferred, only 1 of 79 reconstructed zygotes developed to term. In contrast, the live birth rate was 21% (11 of 53) for zygotes reconstructed with PN from in vivo-matured oocytes. Moreover, a live birth rate of 23% (8 of 35) was observed for reconstructed zygotes with female PN from "hybrid" oocytes created by transferring the metaphase II nuclei of in vitro-matured oocytes into enucleated, in vivo-matured oocytes before activation. Such results suggest that the nucleus of an in vitro-matured oocyte can support embryonic development, but only when it is activated in the proper ooplasmic milieu. The cellular factors creating this ooplasmic milieu appear to develop normally in vivo during follicle maturation to metaphase II, but they fail to do so when the oocytes are denuded of granulosa cells and cultured in vitro before the final stages of maturation. In parallel studies, male and female PN of in vivo-fertilized zygotes were inserted into oocytes that were activated and enucleated following either in vitro or in vivo maturation. Live birth rates were comparable at 19% (5 of 27) and 18% (9 of 49), respectively, suggesting that, regardless of the environment of the final stages of oocyte maturation, the resultant ooplasm is competent to support all aspects of embryonic development once activation and PN formation has been completed. Such findings only point further toward the importance of the condition of the ooplasmic milieu at the time of chemical activation. Whether a similar situation exists when eggs are activated following sperm penetration remains to be determined.     

Light exposure of oocytes and pregnancy rates after their transfer in the rabbit

Groups of unfertilized and pronuclear stage rabbit oocytes were exposed to fluorescent light of 3250 lx for 20-30 min at 37 degrees C. In 6 experiments with fertilization achieved in vivo, 54% of the zygotes exposed as secondary oocytes and 67% of light-protected controls had implanted and developed normally 16 days after transfer to the contralateral oviducts of synchronized recipients. When pronuclear oocytes were exposed similarly in 8 experiments, 63% had established a normal pregnancy at 16 days after transfer compared to 65% of the controls. In 5 of these pregnancies which were allowed to proceed to term, all the young born appeared normal. Though similar in size, it is not clear whether the rabbit oocyte constitutes a suitable model for the human oocyte in regard to the effects of visible light. However, the level of exposure used here is 200-300 times that experienced during normal in-vitro manipulation of human eggs. The absence of significant effects should allay concerns that light is a negative factor in the normal procedure of in-vitro fertilization in man.     

Morphological differences in human zygotes and embryos cultured in different media

Summary Purpose: To compare the effects of four culture media on the quality of human zygotes and embryos. Methods: Prospective study analyzing 2289 human embryos cultivated simultaneously in two different culture media: HTF, the default medium, with either Universal IVF, Global or IVF-30 as the secondary media. The sibling oocytes by each patient were randomly divided between the two culture media following intracytoplasmic sperm injection (ICSI). On day 1 the pronuclear stage of zygotes were evaluated and on day 2 embryos were evaluated according to the number of cells, percentage of fragmentation and number of nuclei. Z-test and odds ratios were used in the statistical analysis. Results: There was a higher percentage (55.2%) of class A1 + A2 zygotes with IVF-30 compared with HTF, Global or Universal IVF media (49.1%, 44.7% and 44.2%, respectively). The percentage of Top embryos was significantly higher with Global (40.2%) compared with HTF (21.3%), IVF-30 (25.0%) or Universal IVF media (11.2%). Conclusions: Global medium produced more Top embryos evaluated on day 2 of development.     

Chemical induction of presumed dominant-lethal mutations in postcopulation germ cells and zygotes of mice. II. Sensitivity of different postcopulation-precleavage stages to three alkylating chemicals.

The relative sensitivities of various postcopulation-precleabage and pronuclear stages to dominant-lethal effects of isopropyl methanesulfonate (IMS), ethyl methanesulfonate (EMS), and triethylenemelamine (TEM) were investigated. The pattern of sensitivity differed with the chemical. IMS was most effective when pronuclear formation was already completed and the majority of the zygotes were presumably undergoing DNA synthesis. EMS, on the other hand, induced its most pronounced effects when eggs in the course of second meiotic division and zygotes in early pronuclear stages were treated. The greatest effect of TEM was observed when zygotes were treated at the early pronuclear stage. EMS and TEM, in contrast to IMS, are similar to radiations in that zygotes undergoing DNA synthesis are more resistant to them than are the early pronuclear stages. In the case of IMS, effects induced in the most sensitive postcopulation-precleavage stage were 6 to 9 times greater than in the most sensitive precopulatory dictyate oocytes or male germ cells. On the other hand, in the case of EMS and TEM, the most sensitive precopulatory male germ cells, but not the dictyate oocytes, were more sensitive than the most sensitive postcopulation stages.     

Effect of in vivo oocyte aging on sperm chromatin decondensation in the golden hamster

Aged spontaneously activated hamster oocytes recovered from adult females 18 and 24 hours after ovulation were at the pronuclear stage. These oocytes and fresh controls were inseminated in vitro with capacitated hamster spermatozoa and observed with the phase-contrast microscope. The percentage of fertilization in fresh control oocytes was 98%, as compared to 36% and 18% when the oocytes were recovered 18 and 24 hours after ovulation, respectively. The mean number of sperm decondensations per egg in control oocytes was 10, and in the aged ones it was 0.69 and 0.12 when the oocytes were recovered 18 and 24 hours after ovulation, respectively. When similarly treated oocytes were studied with scanning and transmission electron microscopy, it was found that the degree of gamete membrane fusion was greater than that observed with the phase-contrast microscope, but that most of the spermatozoa failed to decondense the chromatin. We suggest that parthenogenetic oocytes at the pronuclear stage are in a similar stage of the cell cycle as in fertilized eggs, in which the cytoplasm does not have the ability to decondense the sperm chromatin.     

Zona reaction in porcine oocytes fertilized in vivo and in vitro as seen with scanning electron microscopy

Morphological changes in zona pellucidae (ZP) isolated from in vitro-matured (IVM) and ovulated porcine oocytes were compared before or after fertilization in vitro and in vivo, respectively, by using scanning electron microscopy (SEM). The ZP of some ovulated or IVM oocytes and in vivo- or in vitro-fertilized (IVF) zygotes were equally split into two halves while immersed in an enzyme-inhibitor solution, using a surgical blade. After washing, intact and ZP halves were fixed in 1% glutaraldehyde solution in 0.1 M cacodylate buffer, processed, and examined using SEM. The outer surface of ZP in ovulated oocytes had a mesh-like structure. The outer morphology in IVM oocytes was more smooth although the mesh-like structure was still visible at high magnification. In in vivo zygotes and IVM-IVF zygotes, this lysed, mesh-like structure was more obvious. The inner surface of ZP had some small depressions (orifices). The mean number of orifices per 100 micrometer(2) of ZP surface was larger in IVM oocytes as compared to ovulated ones. The number of orifices per 100 micrometer(2) decreased in IVM-IVF zygotes as compared to IVM oocytes; whereas, in vivo zygotes did not differ from ovulated oocytes. The mean diameter of intact ZP as well as their mean thickness was greater in ovulated oocytes than IVM oocytes. The mean thickness of the ZP was larger in ovulated oocytes than IVM ones. The ZP thickness was larger in zygotes than in in vivo oocytes, whereas that of IVM-IVF zygotes did not differ from that of IVM oocytes. These results indicate that the morphology of ZP and the ZP reaction at sperm penetration appears to be much different between IVM oocytes and ovulated ones.     

Protein phosphorylation is essential for formation of male pronucleus in bovine oocytes

This study examined the association between the morphological and protein phosphorylation events following sperm penetration of in vitro matured and in vitro fertilized bovine oocytes. Oocytes were labeled with [³²P]‐orthophosphate at 3 hr intervals from 3 to 18 hr of following insemination. The phosphorylation of protein complexes of 23 kDa and 18 kDa specifically increased with the formation of male and female pronuclei. In addition, oocytes were treated with 6‐Dimethylaminopurine (6‐DMAP) or Okadaic acid (OA) at 0, 3, 6, and 9 hr respectively following insemination. Although the formation of female pronucleus was not affected by 6‐DMAP, the male pronuclear formation was completely inhibited by the presence of 6‐DMAP at 0 and 3 hr of post insemination. The formation of both pronuclei was inhibited by the presence of OA at any time following insemination. These results suggest that the male pronuclear formation is associated with protein phosphorylation and that the formation of the male and the female pronuclei may involve different factors in bovine zygotes since they respond differently to the kinase modulations. Mol. Reprod. Dev. 52:43–49, 1999. © 1999 Wiley‐Liss, Inc.     

Analysis of proteins in the peripheral and central regions of amphibian oocytes and eggs

Proteins in oocytes, meiotically mature eggs and zygotes of Xenopus laevis were examined to determine whether proteins in the peripheral region differ from those in the central region of these cells. We show that different regions contain different amounts of newly synthesized proteins and that during meiotic maturation and fertilization the periphery of the animal hemisphere becomes the site where most newly synthesized proteins are found. Examination of two-dimensional gels indicates that most of these proteins are found in all parts of the egg, but certain proteins demonstrate patterns of distribution which are indicative of (1) polarity, (2) developmental stage, and (3) the position within the hemisphere (central or peripheral). These results suggest that the periphery of oocytes, eggs, and zygotes is a site of greater metabolic activity compared with the central region.     

Serial pronuclear transfer increases the developmental potential of in vitro-matured oocytes in mouse cloning

In vitro-matured germinal vesicle oocytes are an interesting source of cytoplast recipients in both animal and human nuclear transfer (NT) experiments. We investigated two technical aspects that might improve the developmental potential of nuclear transfer mouse embryos constructed from in vitro-matured germinal vesicle oocytes. In a first step, the effect of two maturation media on the embryonic development of NT embryos originating from in vitro-matured oocytes was compared. Supplementation of the oocyte maturation medium with serum and gonadotrophins improved the developmental rate of NT embryos constructed from in vitro-matured oocytes, but it was still inferior to that obtained with in vivo-matured metaphase II (MII) oocytes. Second, we investigated the effect of serial pronuclear transfer from NT zygotes originating from both in vitro- and in vivo-matured oocytes to in vivo-fertilized zygotic cytoplasts. Blastocyst quality was evaluated by counting nuclei from trophectoderm and inner cell mass cells using a differential staining. Sequential pronuclear transfer significantly improved the blastocyst formation rate of NT embryos originating from in vitro-matured oocytes up to the rate obtained with in vivo-matured MII oocytes. We conclude that the developmental potential of NT embryos constructed from in vitro-matured oocytes can be optimized by serial pronuclear transfer to in vivo-produced zygotic cytoplasts.