Production of nuclear transfer horse embryos by Piezo-driven injection of somatic cell nuclei and activation with stallion sperm cytosolic extract

We investigated the use of direct nuclear injection using the Piezo drill and activation by injection of stallion sperm cytosolic extract for production of cloned equine embryos. When metaphase II horse oocytes were injected with either of two dosages of sperm extract and cultured 20 h, similar activation rates (88% vs. 90%) and cleavage rates (49% vs. 46%) were obtained. The successful reconstruction rate of horse oocytes with horse somatic cell donor nuclei after direct injection using the Piezo drill was 82%. Four dosages of sperm extract (containing 59, 176, 293, or 1375 microg/ml protein) and two activation times (1.5-2 vs. 8-10 h after nuclear transfer) were examined. Cleavage and activation (pseudopronucleus formation) rates of oocytes injected with sperm extract containing 59 microg/ml protein were significantly (P < 0.05) lower than any other dosage. The percentage of embryos cleaving with normal nuclei in oocytes injected with the 1375 microg/ml preparation 1.5-2 h after donor injection was significantly (P < 0.05) higher than that of the 293 microg/ml preparation 8-10 h after donor injection (22 vs. 6%). Embryos developed to a maximum of 10 nuclei. Interspecies nuclear transfer was performed by direct injection of horse nuclei into enucleated bovine oocytes, followed by chemical activation. This resulted in 81% reconstruction (successful injection of the donor cell), 88% cleavage, and 73% cleavage with normal nuclei. These results indicate that direct nuclear injection using the Piezo drill is an efficient method for nuclear transfer in horse and cattle oocytes and that sperm extract can efficiently activate horse oocytes both parthenogenetically and after nuclear transfer     

Changes in protein phosphorylation accompanying maturation of Xenopus laevis oocytes

Protein phosphorylation has been measured after injection of [³²P]phosphate into oocytes of Xenopus laevis undergoing progesterone-induced meiotic maturation. As oocytes mature, there is a burst of nonyolk protein phosphorylation several hours after progesterone exposure and shortly before germinal vesicle breakdown (GVBD). This burst is not due to changes in the specific activity of the phosphate or ATP pool. Enucleated oocytes exposed to progesterone also experience the burst, indicating the cytoplasmic location of phosphoprotein formation. When an oocyte receives an injection of cytoplasm containing the maturation-promoting factor (MPF), a burst of protein phosphorylation occurs immediately, and GVBD occurs shortly thereafter, even in the presence of cycloheximide. Under a variety of conditions promoting or blocking maturation, oocytes which undergo GVBD are the only ones to have experienced the phosphorylation burst. The results suggest that the protein phosphorylation burst is a necessary step in the mechanism by which MPF promotes GVBD.     

Analyses of mitogen-activated protein kinase function in the maturation of porcine oocytes

The function of mitogen-activated protein kinase (MAPK) during porcine oocyte maturation was examined by injecting oocytes with either mRNA or antisense RNA of porcine c-mos protein, an upstream kinase of MAPK. The RNAs were injected into the cytoplasm of porcine immature oocytes immediately after collection from ovaries, then the oocytes were cultured for maturation up to 48 h. The phosphorylation and activation of MAPK were observed at 6 h after injection of the c-mos mRNA injected-oocytes, whereas in control oocytes, MAPK activation was detected at 24 h of culture. The germinal vesicle breakdown (GVBD) rate at 24 h of culture was significantly higher in c-mos mRNA-injected oocytes than in control oocytes. In contrast, although injection of c-mos antisense RNA completely inhibited phosphorylation and activation of MAPK throughout the maturation period, the GVBD rate and its time course were the same in noninjected oocytes. The degree of maturation-promoting factor (MPF) activation was, however, very low in oocytes in the absence of MAPK activation. Most of those oocytes had both abnormal morphology and decondensed chromosomes at 48 h of culture. These results suggest that MAPK activation is not required for GVBD induction in porcine oocytes and that the major roles of MAPK during porcine oocyte maturation are to promote GVBD by increasing MPF activity and to arrest oocytes at the second metaphase.     

Mos stimulates MAP kinase in Xenopus oocytes and activates a MAP kinase kinase in vitro.

Several protein kinases, including Mos, maturation-promoting factor (MPF), mitogen-activated protein (MAP) kinase, and MAP kinase kinase (MAPKK), are activated when Xenopus oocytes enter meiosis. De novo synthesis of the Mos protein is required for progesterone-induced meiotic maturation. Recently, bacterially synthesized maltose-binding protein (MBP)-Mos fusion protein was shown to be sufficient to initiate meiosis I and MPF activation in fully grown oocytes in the absence of protein synthesis. Here we show that MAP kinase is rapidly phosphorylated and activated following injection of wild-type, but not kinase-inactive mutant, MBP-Mos into fully grown oocytes. MAP kinase activation by MBP-Mos occurs within 20 min, much more rapidly than in progesterone-treated oocytes. The MBP-Mos fusion protein also activates MPF, but MPF activation does not occur until approximately 2 h after injection. Extracts from oocytes injected with wild-type but not kinase-inactive MBP-Mos contain an activity that can phosphorylate MAP kinase, suggesting that Mos directly or indirectly activates a MAPKK. Furthermore, activated MBP-Mos fusion protein is able to phosphorylate and activate a purified, phosphatase-treated, rabbit muscle MAPKK in vitro. Thus, in oocytes, Mos is an upstream activator of MAP kinase which may function through direct phosphorylation of MAPKK.     

Involvement of the GTP binding protein Rho in constitutive endocytosis in Xenopus laevis oocytes

To study an endocytotic role of the GTP-binding protein RhoA in Xenopus oocytes, we have monitored changes in the surface expression of sodium pumps, the surface area of the oocyte and the uptake of the fluid-phase marker inulin. Xenopus oocytes possess intracellular sodium pumps that are continuously exchanged for surface sodium pumps by constitutive endo- and exocytosis. Injection of Clostridium botulinum C3 exoenzyme, which inactivates Rho by ADP-ribosylation, induced a redistribution of virtually all intracellular sodium pumps to the plasma membrane and increased the surface area of the oocytes. The identical effects were caused by injection of ADP-ribosylated recombinant RhoA into oocytes. The C3 exoenzyme acts by blocking constitutive endocytosis in oocytes, as determined using a mAb to the beta 1 subunit of the mouse sodium pump as a reporter molecule and oocytes expressing heterologous sodium pumps. In contrast, an increase in endocytosis and a decrease in the surface area was induced by injection of recombinant Val14-RhoA protein or Val14-rhoA cRNA. PMA stimulated sodium pump endocytosis, an effect that was blocked by a specific inhibitor of protein kinase C (Go 16) or by ADP-ribosylation of Rho by C3. Similarly, the phorbol ester-induced increase in fluid-phase endocytosis in oocytes was inhibited by Go 16, C3 transferase, or by injection of ADP-ribosylated RhoA. In contrast to C3 transferase, C. botulinum C2 transferase, which ADP-ribosylates actin, had no effect on sodium pump endocytosis or PMA-stimulated fluid- phase endocytosis. The data suggests that RhoA is an essential component of a presumably clathrin-independent endocytic pathway in Xenopus oocytes which can be regulated by protein kinase C.     

Human phosphatidylethanolamine-binding protein facilitates heterotrimeric G protein-dependent signaling

In this study we report that human phosphatidylethanolamine-binding protein (hPBP) facilitates heterotrimeric G protein-coupled signaling. In Xenopus laevis oocytes, coexpression of hPBP with human mu opioid receptor, human delta opioid receptor, or human somatostatin receptor 2 evoked an agonist-induced increase in potassium conductance of G protein-activated inwardly rectifying potassium channels. This activation of heterotrimeric G protein signaling in oocytes could also be elicited by injection of bacterially overexpressed and purified hPBP. Stimulatory effect was pertussis toxin-sensitive and present even in the absence of coexpressed receptors. Additionally, an increase in G protein-mediated inhibition of adenylate cyclase activity, measured by the inhibition of forskolin-mediated cAMP accumulation, could be detected in HEK293 and NIH3T3 cells after expression of hPBP and in Xenopus oocytes after injection of hPBP. As [(35)S]guanosine 5'-3-O-(thio)triphosphate (GTPgammaS) binding to membranes prepared from hPBP-expressing cells was significantly elevated and recombinant hPBP dose-dependently stimulated [(35)S]GTPgammaS binding to native membranes, the results presented provide strong evidence that hPBP-induced effects are G protein-dependent. These data suggest a novel function of hPBP in regulating G protein and G protein-coupled receptor signaling in vivo.     

Microinjected Xenopus oocytes secrete mature, biologically active parathyroid hormone

Xenopus oocytes have been shown to faithfully translate, process, and secrete a number of secretory proteins after the injection of heterologous mRNAs. The oocyte has the capacity to perform a variety of posttranslational protein modifications but has been reported to be incapable of carrying out certain two-step cleavages which proceed via propeptide intermediates. We examined the ability of the oocyte to process preproPTH after the injection of parathyroid mRNA. Microinjected oocytes secreted material which could be detected in a sensitive cytochemical bioassay for PTH. This activity paralleled that of the PTH standard in the assay and was entirely eliminated by a competitive inhibitor of PTH binding, by preincubation with an anti-PTH antiserum, and by coinjecting oocytes with an oligonucleotide mixture complementary to PTH sequences. Immunoprecipitable proPTH and PTH were present in oocyte homogenates, but oocyte-conditioned medium contained only mature PTH(1-84). We conclude that the Xenopus oocyte is capable of accurately processing preproPTH to the mature secretory form of the peptide.     

Stimulation of mitogen-activated protein kinase by oncogenic Ras p21 in Xenopus oocytes. Requirement for Ras p21-GTPase-activating protein interaction.

p21ras plays an important role in the control of cell proliferation. The molecular mechanisms implicated are unknown. We report that the injection of oncogenic Lys12 Ras into Xenopus laevis oocytes promoted the activation of mitogen-activated protein kinase (MAP kinase) after a lag of about 90 min. MAP kinase activity was 10-fold higher 4 h after injection of oncogenic Lys12 Ras than after injection of nononcogenic Gly12 Ras. The stimulated MAP kinase activity remained at a plateau for at least 18 h. Maximal stimulation was obtained with 5 ng of Lys12 Ras, which is similar to the amount that elicits germinal vesicle breakdown. DEAE-Sephacel chromatography of extracts from Lys12 Ras-injected oocytes showed one peak of MAP kinase. MAP kinase activation by Lys12 Ras was associated with tyrosine phosphorylation of MAP kinase (p42). As previously shown, the S6-kinase II (likely pp90rsk), which is activated in vitro by MAP kinase, was also activated by oncogenic Lys12 Ras. Lys12 Ras with an additional mutation (Glu38) in the effector region that binds GTPase-activating protein (GAP) did not promote MAP kinase or S6 kinase activations. Thus, GAP may be involved downstream to Ras in these activation processes. Our results indicate that the Ras-GAP complex promotes MAP kinase activation in oocytes. This supports the idea that Ras-GAP controls MAP kinase, a kinase implicated in the action of various stimuli.     

Use of frozen-thawed oocytes for efficient production of normal offspring from cryopreserved mouse spermatozoa showing low fertility

Freezing of spermatozoa and unfertilized oocytes is a useful tool for the conservation of mouse genetic resources. However, the proportion of frozen-thawed oocytes fertilized with spermatozoa in vitro is low because spermatozoa, especially those frozen-thawed, can not penetrate into oocytes because of hardening of the zona pellucida following premature release of cortical granules. To produce offspring efficiently from cryopreserved transgenic mouse gametes, we fertilized frozen-thawed gametes by using intracytoplasmic sperm injection (ICSI) and assessed pre- and postimplantation development of embryos. Compared with fresh unfertilized oocytes, frozen-thawed unfertilized oocytes were highly tolerant to damage by injection, as the survival rates after injection of frozen spermatozoa were 51 and 78%, respectively. Frozen-thawed oocytes that survived after sperm injection developed normally to the blastocyst stage and gave rise to offspring. Moreover, offspring with transgenes also were obtained from frozen gametes fertilized by ICSI. These results demonstrate that ICSI is an efficient technique for producing offspring from transgenic spermatozoa showing low fertility and that use of frozen-thawed oocytes leads to conservation of genetic resources because suboptimally preserved gametes are not wasted.     

Expression of rat jejunal cystine carrier in Xenopus oocytes

Functional interactive cystine-lysine carriers have been expressed in Xenopus oocytes following the injection of RNA extracted from rat intestinal mucosa. Lysine-inhibitable cystine uptake was able to be measured 16 h after oocyte injection with RNA. The longer the oocytes were maintained after injection, the more cystine transport capability was induced. Uninjected or water-injected oocytes showed virtually no lysine-inhibitable cystine uptake, and no system developed after the oocytes had been isolated and maintained in vitro. The cystine uptake expressed after RNA injection was selectively inhibited by dibasic amino acids and phenylalanine but not by other amino acids or alpha-methyl-D-glucoside. Expression of the interactive cystine-lysine system was induced only by RNA isolated from intestinal tissue and not by RNA from rat liver. The Km for cystine uptake in RNA-injected oocytes was 0.01 mM and appears identical to the single system found in the RNA source tissue.     

Timing of meiotic stages in oocytes of the Syrian hamster (Mesocricetus auratus) and analysis of induced chromosome aberrations

Summary The stages of maturation of oocytes (meiotic stages) in adult Syrian hamsters (Mesocricetus auratus) have been timed following superovulation treatment. Timing and superovulation were induced by an injection of pregnant mares' serum on the first morning of the estrus cycle, followed by injection of human chorionic gonadotropin (HCG) in the evening of the fourth day. The oocytes completed the prophase of the first maturation division 3 h after the injection of HCG. Ovulation began 91/2h after the injection. A method of analysis of metaphase II chromosomes of Syrian hamster oocytes 16h after injection of HCG is described. This method seems to be appropriate for the examination of the induction of genetic defects during oogenesis. Female hamsters were treated with 2,3,5-triethyleneimono-benzoquione-1,4. The induced chromosome aberrations were analysed. Dosis-dependent response could be demonstrated.     

Role of germinal vesicle on protein synthesis in rat oocyte during in vitro maturation

To investigate the role of the germinal vesicle (GV) on in vitro maturation (IVM) of rat oocytes, we examined protein synthesis during IVM by comparing polypeptide patterns in control and enucleated oocytes using one and two-dimensional sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE). Separation of polypeptides extracted from the cytoplasm of GV by one-dimensional SDS-PAGE revealed that a 55 kDa polypeptide was present only in the GVs of rat oocytes. At 0, 12, 24, 36, and 44 hr after PMSG injection, prior to the initiation of maturation, enucleated oocytes synthesized the same major polypeptides as cumulus intact (CI) oocytes. During meiotic maturation, no major changes were detected in protein synthesis from prophase (GV stage) to prometaphase I (0–6 hr IVM). However, after entry into prometaphase I (7 hr IVM), striking changes were seen; a 24 kDa polypeptide disappeared and expression of a 34 kDa polypeptide became stronger. This pattern lasted until metaphase II. We detected no major differences in the pattern of protein synthesis between CI and enucleated oocytes using two-dimensional PAGE. These results indicate that protein synthesis in the maturing rat oocyte is controlled by cytoplasmic regulators rather than intrinsic nuclear components. © 1996 Wiley-Liss, Inc.     

Fertilization and in vitro development of porcine oocytes following intracytoplasmic injection of round spermatid or round spermatid nuclei

The objective of this study was to determine fertilization rates and developmental ability of porcine oocytes following injection of round spermatid and round spermatid nucleus with artificial activation either 2 h before or immediately after injection. Electrical stimulation at 2 h before spermatid injection significantly increased the incidence of normal fertilization compared with that following injection without stimulation or with stimulation immediately after injection. Incidences of formation of 2 pronuclei and of apposition were not different in oocytes following intracytoplasmic spermatid and spermatid nucleus injection. Chromosome analysis revealed that most oocytes were diploid either following round spermatid or round spermatid nucleus injection. There was no diploid set of chromatin in oocytes at 20 h following sham injection. At 6 d following injection blastocoele formation was seen in the oocytes following round spermatid (25%) and round spermatid nucleus injection (27%). However, none of the oocytes developed to the blastocyst stage 6 d following sham injection. The average cell numbers of blastocysts 8 d after injection of spermatid and spermatid nucleus were 99 and 87, respectively. These results suggest that electrical stimulation before injection enhances the incidence of fertilization following round spermatid injection in the pig. Our study also indicates that either the round spermatid or it's nucleus can be used to produce viable embryos by injection into unfertilized porcine oocytes.     

Regulation of endogenous Ca2+ channels by cyclic AMP and cyclic GMP-dependent protein kinases in Pleurodeles oocytes

The effects of cyclic AMP (cAMP) and cyclic GMP (cGMP) on dihydropyridine sensitive Ca2+ channels were investigated under voltage-clamp in defolliculated Pleurodeles oocytes. Intracellular injection of cAMP or extracellular application of the permeable cAMP analogue (8-Bromo cAMP, 8Br-cAMP) decreased the Ba current (IBa). This effect on IBa was blocked by the injection of protein kinase A inhibitor. Similar results were found upon internal application of the catalytic subunit of protein kinase A. In contrast, the injection of cGMP or perfusion of 8Br-cGMP increased IBa amplitude. The increase of IBa by 8Br-cGMP was blocked by the injection of the selective inhibitor of protein kinase G (KT5823).These results support the hypothesis that the basal Ba current amplitude of Pleurodeles oocytes is under the control of Protein Kinases A (PKA) and G (PKG) activity.This regulation of Ca2+ channels by the second messengers, and particularly by cAMP may reflect an important step in the maturation processus of Pleurodeles oocytes.     

Accelerated modification of the zona pellucida is the primary cause of decreased fertilizability of oocytes in the 129 inbred mouse strain

We investigated whether the small litter size in the 129 inbred mouse strain results from a reduction in oocyte fertilizability. Sensitivity of the zona pellucida to α-chymotrypsin was examined for oocytes collected at 14 h (shortly after ovulation), 17 h, and 20 h after hCG injection. Passage of spermatozoa through the zona pellucida (using an in vitro fertilization (IVF) technique) and the density of cortical granules were examined for oocytes collected at 14 and 17 h after hCG injection. The capability of the oolemma to fuse with the sperm plasma membrane was also evaluated by IVF using zona-free eggs. The zona pellucida became markedly resistant to the enzyme 17 h after hCG injection. IVF rates significantly decreased at this time. In addition, there was a significant reduction in the density of cortical granules. When zona-free oocytes were inseminated, high fertilization rates were obtained at both 17 and 14 h after hCG injection. These results indicate that accelerated modification of the zona pellucida primarily causes a decreased fertilizability of oocytes in 129 mice, resulting in the low reproductive performance of this strain.     

显微受精废弃的人类卵母细胞体外成熟及孤雌激活

以卵胞浆单精注射(intracytoplasmic sperm injection,ICSI)后废弃的未成熟人类卵母细胞(生发泡期卵母细胞(the germinal vesicle,GV)和第一次减数分裂中期卵母细胞(the metaphase,MI))为材料,使用卵母细胞体外成熟培养液培养未成熟的卵母细胞,分别在人类绒毛膜促性腺激素(human chorionic gonadotrophin,hCG)注射后45、60、84 h观察卵母细胞成熟情况.分别使用钙离子载体(calcium ionophore,CI)A23187联合6-二甲基氨基嘌呤(6-DMAP)法或精子提取物卵胞质内注射(sperm extracts intracytoplasmic injection,SEII)法两种不同的激活方法对体外成熟MII的卵母细胞进行孤雌激活,评价其体外发育潜能.MI卵子体外成熟率要显著高于GV(75.2%vs 30.6%)(P<0.01).与CI/6-DMAP法相比使用SEII/6-DMAP法在激活率(87.5%vs 70.2%)上要明显高于CI/6-DMAP法(P<0.05),但在卵裂率(65.7%vs 72.5%)和桑囊率(0%vs 5.0%)上SEII/6-DMAP法要低于CI/6-DMAP法.注射hCG 45 h组的卵母细胞激活率(91.3%vs 57.9%)、卵裂率(85.7%vs 57.9%)及桑囊率(9.5%vs 0%)均显著高于注射hCG 60 h组(P<0.01).56.8%(117/206)的ICSI废弃的未成熟卵母细胞可以在体外发育成熟,激活后具有一定的发育潜能,卵龄对卵母细胞的质量和发育能力影响较大.     

Inhibition of (3H)vitellogenin uptake by isolated amphibian oocytes injected with cytoplasm from progesterone-treated mature oocytes.

Fully grown meiotically immature (germinal vesicle stage) amphibian oocytes incorporate radioactive protein ([³H]vitellogenin) following in vitro culture. In vitro exposure of such oocytes to exogenous progesterone induces germinal vesicle breakdown and inhibits incorporation of vitellogenin. In the present studies, we have investigated the effects of cytoplasm taken from mature and immature oocytes on incorporation of vitellogenin and nuclear breakdown following microinjection of this material into immature oocytes. Vitellogenin incorporation was markedly suppressed in oocytes which underwent nuclear breakdown following injection with cytoplasm from mature oocytes. Incorporation of vitellogenin into oocytes which did not mature after injection with cytoplasm taken from mature oocytes resembled that seen in oocytes injected with immature cytoplasm. The degree of suppression of vitellogenin incorporation following cytoplasmic injections was similar to that seen in uninjected oocytes treated with progesterone. Oocytes injected with cytoplasm obtained from immature oocytes did not undergo either nuclear breakdown or changes in vitellogenin incorporation. The results suggest that cytoplasm obtained from mature oocytes contains a factor(s) which alters directly or indirectly the capacity of the oocyte cell membrane to incorporate vitellogenin. Enucleated immature oocytes also incorporated [³H]vitellogenin, and injection of such oocytes with mature, but not immature, oocyte cytoplasm suppressed vitellogenin incorporation. Suppressive effects of injected cytoplasm thus appear to be mediated through physiological changes in the recipient oocyte cytoplasm rather than the nuclear component.     

Activation of pig oocytes by intracytoplasmic injection of strontium and barium

Ovulated mouse oocytes are activated by exposure to culture medium containing Sr2+ or Ba2+ or by intracytoplasmic injection of the divalent cations. It is known that in vitro matured pig oocytes are activated by the intracytoplasmic injection of Ca2+. In this study, we examined the effect of exposure and of intracytoplasmic injection of Sr2+ or Ba2+ on in vitro matured pig oocytes (MII-oocytes). When MII-oocytes were exposed to the medium containing divalent cations, no oocytes were activated. However, in the case of oocytes that were injected with Sr2+, Ba2+ and Ca2+, at 6 h after injection, 64%, 71% and 86% of the oocytes had been released from MII-arrest, and 51%, 67% and 84% formed female pronuclei, respectively. The initial transient in intracellular Ca2+ concentration ([Ca2+]i) was measured by the Ca2+ indicator dye fluo-4 dextran. Microinjection of Sr2+, Ba2+ or Ca2+ induced a rapid elevation of [Ca2+]i. The exocytosis of cortical granules was examined by staining with fluorescein isothiocyanate (FITC)-labelled peanut agglutinin. After an injection of divalent cations, a release of cortical granules was observed in the oocytes. Maturation promoting factor (MPF) activity declined to a low level after 6 h in all the oocytes injected with divalent cations. To test their developmental ability, injected oocytes were treated with cytochalasin B and then cultured for 168 h in NCSU23 medium. After 168 h, 29% (Sr2+), 29% (Ba2+) and 51% (Ca2+) of the oocytes had developed to the blastocyst stage. These results indicate that intracytoplasmic injection of Sr2+ and Ba2+, like that of Ca2+, induces in vitro matured pig oocytes to be released from MII-arrest and leads them into a series of events related to oocyte activation.