A CYTOLOGICAL STUDY OF THE RELATION OF THE CORTICAL REACTION TO SUBSEQUENT EVENTS OF FERTILIZATION IN URETHANE-TREATED EGGS OF THE SEA URCHIN, ARBACIA PUNCTULATA

Eggs of the sea urchin, Arbacia punctulata, treated with 3% urethane for 30 sec followed by 0.3% urethane and inseminated are polyspermic and fail to undergo a typical cortical reaction. Upon insemination the vitelline layer of urethane-treated eggs either does not separate or is raised only a short distance from the oolemma. 1–6 min after insemination, almost all of the cortical granules remain intact and are dislodged from the plasmalemma. Later (6 min to the two-cell stage) some cortical granules are released randomly along the surface of the zygote. Not all zygotes show the same degree of cortical granule dehiscence; most of them experience little if any granule release whereas others demonstrate considerably more. The thickness of the hyaline layer appears to be directly related to the number of cortical granules released. Subsequent to pronuclear migration, several male pronuclei become associated with the female pronucleus. Later the male and female pronuclear envelopes contact and the outer and the inner laminae fuse, thereby forming the zygote nucleus. The male pronuclei remaining in the cytoplasm increase in size and progressively migrate to, and fuse with, the zygote nucleus. By 60 min some zygotes appear to contain only one large zygote nucleus which subsequently enters mitosis. Other zygotes possess a number of male pronuclei which remain unfused, and later these pronuclei along with the zygote nucleus undergo mitosis. There does not appear to be a direct relation between the number of cortical granules a zygote possesses and the above mentioned dichotomy.     

Action of colcemid in sea urchin eggs

The effects of Colcemid, the deacetyl-N-methyl derivative of colchicine, on the eggs of Arbacia punctulata were investigated. Colcemid in concentrations of 2.7 x 10^-5 M or greater blocks syngamy (the fusion of the pronuclei) in these eggs. Although a tenfold decrease in concentration of Colcemid usually permits the pronuclei to fuse, the subsequent division is blocked. In the sea urchin egg, the duration of presyngamy is about 15 min during which time there is no DNA synthesis. However, DNA synthesis is recorded in Colcemid-blocked cells prior to syngamy. Radioautographs of Colcemid-blocked cells which were immersed into thymidine-³H exhibited silver grains above each of the pronuclei. The action of Colcemid on Arbacia eggs is reversible. Nevertheless, exposures to 2.7 x 10^-5 M Colcemid for only 3 min, initiated 5 min after insemination, caused delays of 70 min in subsequent division. In general, cells are more sensitive to Colcemid prior to the time when the mitotic spindle is being assembled than at presyngamy stages. The results are discussed in terms of Colcemid action on pronuclear fusion and cell division.     

OBSERVATIONS ON THE UPTAKE OF TRITIATED THYMIDINE IN THE PRONUCLEI OF FERTILIZED SAND DOLLAR EMBRYOS

Following fertilization of the egg of the sand dollar Echinarachnius parma, tritiated thymidine (H³TDR) was taken up independently by the male and female pronuclei beginning within about 15 to 20 minutes, and the labeled pronuclei fused at about 30 to 40 minutes. At cleavage 90 minutes later the labeled nuclear material was distributed to both daughter cells. Unfertilized eggs and sperm exposed to H³TDR did not show nuclear localization of thymidine. DNA replication, thus, is initiated in the haploid pronuclei shortly after fertilization and prior to fusion. The major portion of DNA synthesis, as evidenced by thymidine uptake, appears to be during a 20 to 30 minute period after fertilization. Fertilization is associated with the activation of a mechanism which initiates early and independent replication of DNA in both the male and female pronuclei.     

Sperm aster in rabbit zygotes: its structure and function

Microscope observations of rabbit zygotes demonstrate that a sperm aster forms in association with the male pronucleus approximately 1 h postinsemination and consists of two regions. One, the centrosphere, contains a dense aggregation of cisternae of smooth endoplasmic reticulum and microtubules. The second consists of fascicles of microtubules which emanate from the centrosphere. Fertilized rabbit eggs were cultured in medium containing colcemid in order to determine its effects on various events of fertilization, such as movements of the male and female pronuclei and DNA synthesis. No evidence was obtained to indicate that a sperm aster is formed in colcemid-treated zygotes. In addition, migration and close apposition of the pronuclei do not take place. Breakdown of the pronuclear envelopes and condensation of the maternally and paternally derived chromosomes occur even though the pronuclei fail to migrate centrad. Autoradiographic analysis of the synthesis of DNA by both pronuclei demonstrates that their migration into close apposition to one another is not required for the incorporation of tritiated thymidine.     

High incidence of multiple aster formation in vitrified-warmed bovine oocytes after in vitro fertilization

In vitro-matured bovine oocytes do not tolerate vitrification as well as mature murine or human oocytes. Delayed first cleavage in vitrified and in vitro-fertilized bovine oocytes may be responsible for the decreased yield of blastocysts in vitro. Because formation of sperm-aster and the subsequent assembly of microtubule network play an important role for migration and fusion of both pronuclei, aster formation in vitrified-warmed oocytes was analyzed by confocal laser-scanning microscopy. At 10 h post-insemination (hpi), proportions of oocytes fertilized normally were comparable between the vitrified and fresh control groups (67 and 70%, respectively). Proportions of oocytes that exhibited microtubule assembly were similar between the two groups (95% each), but the proportion of oocytes with multiple asters was higher in the vitrified group when compared with the fresh control group (68 vs 29%, P < 0.05). Both migration and development of two pronuclei were adversely affected by multiple aster formation. In the next experiment, multiple asters observed in 5.5 vs 8 hpi pronuclear zygotes were located near the male pronucleus, suggesting that those multiple asters were not the cytoplasmic asters of maternal origin. In conclusion, multiple aster formation frequently observed in vitrified-warmed bovine oocytes may be related to loss of ooplasmic function responsible for normal microtubule assembly from the sperm-aster.     

p53-dependent S-phase damage checkpoint and pronuclear cross talk in mouse zygotes with X-irradiated sperm

One difficulty in analyzing the damage response is that the effect of damage itself and that of cellular response are hard to distinguish in irradiated cells. In mouse zygotes, damage can be introduced by irradiated sperm, while damage response can be studied in the unirradiated maternal pronucleus. We have analyzed the p53-dependent damage responses in irradiated-sperm mouse zygotes and found that a p53-responsive reporter was efficiently activated in the female pronucleus. [(3)H]thymidine labeling experiments indicated that irradiated-sperm zygotes were devoid of G(1)/S arrest, but pronuclear DNA synthesis was suppressed equally in male and female pronuclei. p53(-/-) zygotes lacked this suppression, which was corrected by microinjection of glutathione S-transferase-p53 fusion protein. In contrast, p21(-/-) zygotes exhibited the same level of suppression upon fertilization by irradiated sperm. About a half of the 6-Gy-irradiated-sperm zygotes managed to synthesize a full DNA content by prolonging S phase, while the other half failed to do so. Regardless of the DNA content, all the zygotes cleaved to become two-cell-stage embryos. These results revealed the presence of p53-dependent pronuclear cross talk and a novel function of p53 in the S-phase DNA damage checkpoint of mouse zygotes.     

Ultrastructural study on pronuclear development in fertilized eggs from goldfish, Carassius auratus

The formation of male and female pronuclei in physiologically monospermic fertilized eggs of the goldfish, Carassius auratus , has been investigated with transmission electron microscopy. Ultrastructural observations show that at 26°C the transformation of the sperm nucleus takes place very quickly. The sperm nuclear envelope degenerates and is replaced by a large number of smooth surface vesicles 1 min post-insemination. Concomitantly, most of the condensed sperm chromatin is dispersed and is surrounded by vesicles. Dispersion of the chromatin is followed by the fusion of vesicles and the formation of a new bilaminar pronuclear envelope. Within 5–10 min post-insemination, a spheroid male pronucleus with intranuclear annulate lamellae is produced. The formation of a female pronucleus is slightly different to that of the male pronucleus. The dispersing chromatin of the egg is divided into many groups, most of which are surrounded by multilaminar envelopes 5 min post-insemination. An ellipsoid female pronucleus with a continuous bilaminar pronuclear envelope and intranuclear annulate lamellae is formed 15 min post-insemination. Subsequently, the two pronuclei migrate towards one another. When the fully developed male and female pronuclei are located in the center of the blastodisc, each changes itself into a saccular complex 25 min post-insemination.     

THE EFFECTS OF NICOTINE ON FERTILIZATION IN THE SEA URCHIN, ARBACIA PUNCTULATA

The number of sperm incorporated into eggs made polyspermic with varying concentrations of nicotine (0.025–0.25%, v/v) appears to be directly related to the concentrations employed. The cortical response is morphologically equivalent to that observed in control preparations. Shortly after their incorporation all of the spermatozoa undergo structural events normally associated with the development of the male pronucleus in monospermic eggs. During the reorganization of the spermatozoa, sperm asters are formed. The number of male pronuclei that initially migrate to and encounter the female pronucleus is usually one to three. When pronuclei come into proximity to one another the surface of the female pronucleus proximal to the advancing male pronuclei flattens and becomes highly convoluted. Subsequently, the pronuclei contact each other and the outer and inner membranes of the pronuclear envelopes fuse, thereby producing the zygote nucleus. The male pronuclei remaining in the zygote after this initial series of pronuclear fusions continue to differentiate, i.e. they enlarge, form nucleolus-like bodies, and undergo further chromatin dispersion. In approximately 90% of the zygotes, all of the remaining male pronuclei progressively migrate to the zygote nucleus and fuse to form one large nucleus by 80 min postinsemination. Mitosis and cleavage of the polyspermic zygote occurs later than in monospermic eggs.     

Nuclear envelope breakdown is under nuclear not cytoplasmic control in sea urchin zygotes

Nuclear envelope breakdown (NEB) and entry into mitosis are though to be driven by the activation of the p34cdc2-cyclin B kinase complex or mitosis promoting factor (MPF). Checkpoint control mechanisms that monitor essential preparatory events for mitosis, such as DNA replication, are thought to prevent entry into mitosis by downregulating MPF activation until these events are completed. Thus, we were surprised to find that when pronuclear fusion in sea urchin zygotes is blocked with Colcemid, the female pronucleus consistently breaks down before the male pronucleus. This is not due to regional differences in the time of MPF activation, because pronuclei touching each other break down asynchronously to the same extent. To test whether NEB is controlled at the nuclear or cytoplasmic level, we activated the checkpoint for the completion of DNA synthesis separately in female and male pronuclei by treating either eggs or sperm before fertilization with psoralen to covalently cross-link base-paired strands of DNA. When only the maternal DNA is cross-linked, the male pronucleus breaks down first. When the sperm DNA is cross-linked, male pronuclear breakdown is substantially delayed relative to female pronuclear breakdown and sometimes does not occur. Inactivation of the Colcemid after female NEB in such zygotes with touching pronuclei yields a functional spindle composed of maternal chromosomes and paternal centrosomes. The intact male pronucleus remains located at one aster throughout mitosis. In other experiments, when psoralen-treated sperm nuclei, over 90% of the zygote nuclei do not break down for at least 2 h after the controls even though H1 histone kinase activity gradually rises close to, or higher than, control mitotic levels. The same is true for normal zygotes treated with aphidicolin to block DNA synthesis. From these results, we conclude that NEB in sea urchin zygotes is controlled at the nuclear, not cytoplasmic, level, and that mitotic levels of cytoplasmic MPF activity are not sufficient to drive NEB for a nucleus that is under checkpoint control. Our results also demonstrate that the checkpoint for the completion of DNA synthesis inhibits NEB by acting primarily within the nucleus, not by downregulating the activity of cytoplasmic MPF.     

Nucleic acid synthesis and development of human male pronucleus

Polyspermically penetrated human zona-free eggs prepared from oocytes that had failed to be fertilized in an in-vitro fertilization programme were used. The pronuclear synthetic activity was evaluated by high-resolution autoradiography and correlated with the development of pronuclear structure. Incorporation of [3H]-thymidine, signalling the occurrence of a DNA synthetic phase, was only detected in structurally fully developed pronuclei previously shown to appear no sooner than 12 h after gamete union. However, [3H]adenosine was incorporated into very early pronuclei which had not yet completed the development of their nuclear envelopes and which first appeared about 4 h after sperm-egg fusion. In the absence of DNA synthesis (shown by the lack of thymidine incorporation), this early adenosine incorporation apparently reflects an early pronuclear RNA synthesis. Taken together, these results indicate that nucleic acid synthesis in human male pronuclei is tightly bound to the development of a corresponding pronuclear structure and that DNA synthesis, beginning about 12 h after fertilization, is preceded by a slight but evident RNA synthesis taking place during an early stage of human male pronuclear formation.     

Thymidine metabolism and the monitoring of DNA synthesis in insects

The thymidine degradation pathway established for other organisms is confirmed in insects. When ³H-TdR is used as a marker for DNA synthesis in developing silkmoths, some is incorporated into DNA and some degraded to compounds not incorporated into DNA. After a single injection, ³H-TdR is rapidly cleared from haemolymph and other tissue, resulting in, at most, a 4 hr pulse. In wing tissue, detection of DNA synthesis is possible for a maximum of 4 hr after injection of precursor and for 6 hr in vitro. Continuous monitoring of DNA synthesis can be attained by perfusion, which maintains high levels of circulating ³H-TdR.     

DNA Synthesis and pronucleus development in pig zygotes obtained in vivo: An autoradiographic and ultrastructural study

Porcine zygotes flushed from oviducts 48,52,56,60, or 64 hr after hCG were incubated 30 min in ³H-thymidine, transferred to nonradioactive medium for 2 hr, and incubated for 30 min with ¹⁴C-thymidine. After this procedure, ova were prepared (i.e., at 51,55,59,63, or 67 hr after hCG) for autoradiography and ultrastructural observations, respectively. The first autoradiographic labelling, i.e., DNA synthesis, was observed at 56–56.5 hr after hCG, while the latest labelling was seen at 60–60.5 hr. At 51 hr after hCG, formation of the pronuclear envelope was observed, while no nucieolus precursor bodies or prestages to these structures were found. At 55 hr a few clusters of small electron-dense granules were observed, together with condensed chromatin in the pronuclei. At 59 hr the apposed regions of both pronuclei contained nucleolus precursor bodies and condensed chromatin, in close contact with both clusters of small granules and clusters of an additional category of large granules and the nuclear envelope. Additionally, large accumulations of the small granules were found in the vicinity of similarly sized accumulations of the large granules without chromatin association. At 63 hr the spherical accumulations large granules on some occasions presented a central vacuole, and condensed chromatin and clusters of small granules were attached to its periphery. Within the vacuole, electrondense material was found. It is concluded that (1) the S-phase in porcine zygotes is initiated around 56 hr post-hCG injection and is of a duration of 4.5–7.5 hr and (2) the progress of the S-phase is paralleled by the appearance of and complex interaction between different granules in the nucleoplasm. © 1995 Wiley-Liss, Inc.     

Effects of electrical stimulation before or after in vitro fertilization on sperm penetration and pronuclear formation of pig oocytes

The effects of exposure of pig oocytes to an electrical pulse on sperm penetration and pronuclear formation were determined before or after in vitro fertilization (IVF). After in vitro maturation (IVM) or after collection from oviducts of unmated gilts, pig oocytes either were not exposed or were exposed to an electrical pulse (a 10 sec pulse at 4.0 V mm^?1 AC followed by a 30 μsec pulse at 120 V mm^?1 DC), followed 30 min later by IVF. The incidence of male pronuclear formation of both IVM and in vivo-matured oocytes at 12 hr after insemination was decreased from 59% and 100%, respectively, to 2% and 36%, respectively, by the electrical pulse, but the penetration rates (88–100%) and polyspermic rates (79–100%) were not affected by exposure to an electrical pulse. Similarly, when pig IVM oocytes were exposed to an electrical pulse at 6 hr after insemination, electrical activation did not decrease penetration rates (93% vs. 90%), polyspermic rates (83% vs. 91%), or number of spermatozoa in penetrated oocytes (4.0 ± 0.5 vs. 4.6 ± 0.5) but did decrease the rate of male pronuclear formation from 58% to 18%. When oocytes were examined at 6 hr after insemination, 75% of them had been penetrated and resumed meiotic progression, but all sperm heads in penetrated oocytes were fully condensed or only partially decondensed. The percentage of penetrated eggs with multiple female pronuclei was increased when oocytes were exposed to an electrical pulse in all experimental series. In summary, electrical activation of pig oocytes before or just after IVF does not prevent sperm penetration but does inhibit male pronuclear formation and increases the formation of multiple female pronuclei. © 1993 Wiley-Liss, Inc.     

A rapid sodium-dependent block to polyspermy in sea urchin eggs

The rapid electrical depolarization of the egg's plasma membrane which protects sea urchin ova against polyspermy in the interval between stimulation by the fertilizing spermatozoon and completion of the cortical reaction is believed to be mediated by the influx of sodium (Na⁺) ions. This hypothesis was tested in Arbacia punctulata and Strongylocentrotus purpuratus by inhibiting the rapid block to polyspermy with low-Na⁺ (choline-substituted) seawater, and the cortical granule secretion-mediated block with soybean trypsin inhibitor (SBTI). Eggs inseminated in low-Na⁺ seawater or SBTI became heavily polyspermic. Polyspermy elicited by low Na⁺ or SBTI was increased in dejellied Strongylocentrotus eggs. However, the severity of polyspermy was not enhanced in low Na⁺ plus SBTI because the fertilizing capacity of sperm and gamete binding were reduced in low-Na⁺ media. Since SBTI completely suppresses the cortical granule secretion-mediated block to polyspermy in Arbacia for about 3 min postinsemination, the rate at which SBTI-treated eggs became polyspermic was used to measure the duration and efficacy of the rapid block. The half-time for SBTI-treated Arbacia eggs to become polyspermic in natural (425 mM Na⁺) seawater was 89.9 ± 4.7 sec (N = 4). The plot of incidence of polyspermy vs time was essentially an inverse mirror image of electrophysiologic data on repolarization of the oolemma during fertilization. The rapid block is also Na⁺ dependent, since SBTI-treated eggs became polyspermic more rapidly in 26 mM Na⁺ seawater (half-time, 15.8 ± 1.6 sec; N = 3, P < 0.01).     

Organization of microfilaments in sea urchin (Arbacia punctulata) eggs at fertilization: Effects of cytochalasin B

Investigations were carried out to examine more closely the aggregations of microfilaments associated with the elongation of microvilli and formation of fertilization cones and the effects of cytochalasin B (CB) on these processes in Arbacia eggs following insemination. At 1 to 5 min postinsemination fertilized eggs were treated with 1–10 μg/ml CB and then prepared for electron microscopy at periodic intervals. Examination of CB-treated and untreated specimens demonstrated that: (1) Reorganization of the egg's microvilli took place soon after insemination; this process, as well as formation of fertilization cones, was correlated with the appearance of fascicles of microfilaments. (2) CB inhibited the formation of fertilization cones and the elongation of microvilli. Bundles of microfilaments were not observed in CB-treated zygotes. (3) CB prevented the normal movements (rotation) of the incorporating spermatozoon into the egg cortex but did not inhibit the migration or fusion of the male and female pronuclei.     

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.     

Pronuclear visibility, development and transgene expression in IVM/IVF-derived porcine embryos

A total of 1550 zygotes was used to assess the timing of pronuclear visibility, embryo development following DNA microinjection, and transgene expression in IVM/IVF-generated porcine embryos. After centrifugation, pronuclei could be seen in 61.6% of zygotes. In 55.3% of these only 1 pronucleus was visible. Pronuclear visibility was highest at 20 h post-insemination. Zygotes were microinjected with 1 of 2 LacZ gene constructs driven by either the SV40 early promoter (pSVON) or the human cytoplasmic beta actin promoter (pbActinLacZ). Development and transgene expression were assessed after either 48 h or 7 d in culture. After 48 h, significantly more zygotes with a single visible pronucleus developed to the 8-cell stage than zygotes in which no pronucleus had been seen (43.0 vs 24.8%), while those with 2 pronuclei were intermediate (31.4%). After 7 d, no difference in development to the morula stage was observed between noninjected control embryos (25.5%) and embryos with 1 (21.0%) or 2 pronuclei (22.5%); however, the proportion of embryos reaching the morula stage in the nonpronuclear group was significantly reduced (9.1%). After 48 h in culture, transgene expression was significantly higher in embryos with 2 pronuclei at the time of injection than in those with 1 (36.4 vs 17.9%). After 7 d in culture, 41.5% of morulae derived from zygotes with 2 pronuclei and 29.97% of thsoe derived from zygotes with 1 pronucleus showed signs of transgene expression. At this stage, significantly more morulae expressed the pbActinLacZ than the pSVON transgene (43.8 vs 25.8%). More than 80% of putative transgenic morulae or blastocysts showed evidence of mosaicism. These results demonstrate that IVM/IVF porcine embryos are able to develop in culture and express a microinjected transgene.     

Cytochemical studies on the protamine-type protein transition in sperm nuclei after fertilization and the early embryonic histones of Urechis caupo.

Cytochemical staining characteristics of nuclear histones during postfertilization maturation division and various early embryonic stages in Urechis have been studied. The transition of protamine-type protein to adult histones in the sperm nucleus is accomplished by 15 min after entrance into the egg cytoplasm. Newly synthesized egg proteins migrate into enlarging male and female pronuclei after this transition, followed by pronuclear DNA synthesis and fusion. The shift from protamine-type protein to adult histones, which occurs in the absence of RNA synthesis during the postfertilization maturation division of the egg, may be one of the processes involved in the normal structural reorganization of chromosomes. Such a reorganization is likely to be a prerequisite for chromosome replication and mitosis. No qualitative differences are detected in the stainability of histones of unfertilized eggs and embryos at the cleavage and later stages of development.     

Studies on fertilization of the teleost. II. Nuclear behavior and changes in histone H1 kinase

In order to understand the dynamic responses of gamete nuclei upon fertilization in the fish, Oryzias latipes, the relationship between changes in the activity of histone H1 kinase and nuclear behavior was examined during fertilization. Kinase activity rapidly decreased concomitant with the initiation of the propagative exocytosis of cortical alveoli following sperm attachment to the egg plasma membrane post-insemination (PI). Activity again increased 30 min PI. Similar changes in kinase activity, migration and syngamy of pronuclei, and subsequent cleavage were observed with aphidicolin or actinomycin D treatment, except that formation of abnormal metaphase chromosomes was retarded in aphidicolin-treated zygotes. Pretreatment of unfertilized eggs with cycloheximide or 6-dimethylaminopurine (6-DMAP) caused no nuclear changes. The activity of histone H1 kinase in these eggs rapidly declined following sperm penetration and exocytosis, but did not undergo subsequent increase in the presence of these inhibitors. In these eggs with low histone H1 kinase activity, the fertilization process from sperm penetration to syngamy occurred normally, but the pronuclear membrane did not break down and the chromosomes did not condense. The present data suggest that in fish eggs, DNA replication as well as the synthesis and phosphorylation of proteins, especially cyclin B, are required for normal formation of metaphase chromosomes at the first cleavage, but not for fertilization events from sperm penetration through to nuclear migration resulting in syngamy.