Improved developmental potential of rabbit oocytes fertilized by sperm microinjection into the perivitelline space enlarged by hypertonic media

Full-term development of rabbit embryos produced by ICSI with sperm frozen in liquid nitrogen without cryoprotectants

The aim of the present study was to establish the technology of intracytoplasmic sperm injection (ICSI) in rabbit by using the sperm frozen without cryoprotectants. Observation under an electron microscope revealed that the rabbit spermatozoa frozen without cryoprotectants had severe damage especially in the plasma membrane and junction between head and tail. However, after being injected into the oocytes, the sperm frozen without cryoprotectants retained the capability of supporting the cleavage and development of the ICSI oocytes, with no significant difference from that of fresh sperm, although the development of ICSI embryos derived from either frozen sperm or fresh sperm is much lower than that of in vivo-fertilized zygotes. When additional artificial activation was applied following ICSI, the rates of cleavage and blastocyst formation of ICSI oocytes were significantly increased when compared with the oocytes without additional activation. Yet, the cell numbers in blastocysts were not significantly different between the activation and non-activation group. After embryo transfer, four offspring were obtained from the oocytes microinjected with the sperm frozen without cryoprotectants. The technology established by this study may facilitate exploring the ICSI-based transgenic method in rabbit and broaden the application of ICSI technique in related field.

Freeze-dried sperm fertilization leads to full-term development in rabbits

To date, the laboratory mouse is the only mammal in which freeze-dried spermatozoa have been shown to support full-term development after microinjection into oocytes. Because spermatozoa in mice, unlike in most other mammals, do not contribute centrosomes to zygotes, it is still unknown whether freeze-dried spermatozoa in other mammals are fertile. Rabbit sperm was selected as a model because of its similarity to human sperm (considering the centrosome inheritance pattern). Freeze- drying induces rabbit spermatozoa to undergo dramatic changes, such as immobilization, membrane breaking, and tail fragmentation. Even when considered to be "dead" in the conventional sense, rabbit spermatozoa freeze-dried and stored at ambient temperature for more than 2 yr still have capability comparable to that of fresh spermatozoa to support preimplantation development after injection into oocytes followed by activation. A rabbit kit derived from a freeze-dried spermatozoon was born after transferring 230 sperm-injected oocytes into eight recipients. The results suggest that freeze-drying could be applied to preserve the spermatozoa from most other species, including human. The present study also raises the question of whether rabbit sperm centrosomes survive freeze-drying or are not essential for embryonic development.

Hypertonic medium treatment for localization of nuclear material in bovine metaphase II oocytes

Oocytes enucleated at the second metaphase stage (MII) are often used as recipient cytoplasts for nuclear transfer. The oocyte's nuclear material has been traditionally removed blindly by aspirating the first polar body (Pb1) along with a portion of the cytoplasm. However, the Pb1-guided enucleation method is unreliable because the position of the Pb1 is variable. A previous study showed that pretreatment of mouse oocytes with 3% (0.09 M) sucrose allowed visualization of the metaphase spindle and chromosomes under standard light microscopy and led to a 100% enucleation rate. The same sucrose treatment, however, did not produce the same effect in bovine oocytes. In this study, we increased the concentration of sucrose to 0.3-0.9 M in PBS containing 20% fetal bovine serum (SPF) and found that the majority of the treated bovine oocytes (75%-86%) formed a small transparent bud into the perivitelline space, as compared with the 0.1 M sucrose (6%) or the no sucrose (0%) control groups. Staining of DNA with Hoechst 33342 revealed that these projections coincided with the position of the metaphase chromosomes in 100% of sucrose-treated oocytes, whereas only 31% of oocytes showed alignment of the position of Pb1 with their nuclear materials. Furthermore, 95% of oocytes treated in 0.3 M SPF were successfully enucleated by removing a small amount of cytoplasm adjacent to the projection. This is a significantly higher enucleation rate than that obtained by conventional Pb1-guided enucleation, even when a larger amount of cytoplasm was removed. For nuclear transfer, the enucleated oocytes treated with sucrose did not differ from the control oocytes in rates of fusion, cleavage, or development to blastocysts, or in the average cell numbers in blastocysts. This study demonstrated that 0.3 M sucrose treatment of bovine oocytes facilitates the localization of metaphase chromosomes under normal light microscopy and hence increases enucleation efficiency without compromising the in vitro development potential of cloned embryos by nuclear transfer.

Full term development of rabbit oocytes fertilized by intracytoplasmic sperm injection

Intracytoplasmic sperm injection (ICSI) has been applied successfully in the treatment of male infertility in humans and in fertilization research in mice. However, the technique has had limited success in producing offspring in other species including the rabbit. The aim of this research was to test the in vitro and in vivo developmental of rabbit oocytes after ICSI. Sperm used for ICSI were collected from mature Dutch Belted buck and washed 2-3 times with PBS +0.1% polyvinyl alcohol (PVA) and then mixed with 10% polyvinyl pyrrolidone (PVP) prior to microinjection. Oocytes were collected from superovulated does 14-15 hr after hCG injection and were fertilized by microinjection of a single sperm into the ooplasm of each oocyte without additional activation treatment. After ICSI, the presumed zygotes were either cultured in KSOM +0.3% BSA for 4 days or transferred into oviducts of recipient does at the pronuclear or 2-cell stage. A high percentage of fertilization (78%, n = 114) and blastocyst development (39%) was obtained after ICSI. Control oocytes, receiving a sham injection, exhibited a lower activation rate (31%, n = 51) and were unable to develop to the blastocyst stage, suggesting that the blastocysts developed following ICSI were derived from successful fertilization rather than parthenogenetic development. A total of 113 embryos were transferred to six recipient does. Two recipients became pregnant and delivered seven live young. Our results demonstrated that rabbit oocytes can be successfully fertilized and activated by ICSI and can result in the birth of live offspring.

The rabbit as a model for reproductive and developmental toxicity studies

The rabbit has many advantages as a nonrodent and second model for assessing the effects of toxic agents on semen quality, fertility, developmental toxicity, and teratology. The male and female reproductive systems of the rabbit are described, and data on growth, sexual development and reproduction are compared with mice, rats, and humans. Techniques for semen collection and evaluation in the male, and artificial insemination, superovulation, embryo culture, and embryo transfer in the female are included as useful procedures in toxicity testing. Examples of the use of rabbits and experimental replication for toxicity testing are given. Special features of the visceral yolk sac and development of the chorioallantoic placenta of the rabbit are compared with rodents. The rabbit extraembryonic membranes more closely resemble the human than do the rodents, in some respects. The use of the rabbit in developmental toxicity and teratology studies is discussed.

Sucrose-induced shrinkage of in vitro produced bovine morulae: Effect on viability, morphology and ease of evaluation

Sucrose (0.3 M) was used to cause artificial compaction of the embryonic cell mass of in vitro produced bovine embryos to facilitate morphological evaluation. Embryos were produced using routine in vitro maturation (IVM) and fertilization (IVF) techniques. The time necessary to induce shrinkage in 0.3 M sucrose to 75% of the original volume of Day 5 morulae was found to be less than l min, and 95% of the volume was regained in PBS after 2.5 min. No detrimental effect was observed after a 5- to 10-min sucrose treatment on subsequent blastocyst formation at Days 6 and 7 (P > 0.05). Furthermore, no significant differences were observed in the total number of cells, or in the mitotic and pycnotic cell index of blastocysts in different treatment groups. Agreement among 7 evaluators grading 40 Day 6 embryos was examined using the kappa coefficient of agreement (kappa). Overall agreement among evaluators for classification of quality grade was poor (48.2 %, kappa = 0.31) for embryos evaluated in PBS, but the rate improved when the same embryos were scored in sucrose (62.5 %, kappa = 0.49). Evaluating less compact in vitro produced bovine morulae in sucrose increases agreement among evaluators, since embryos in sucrose mimick the appearance of in vivo produced embryos. Thus, we conclude that scoring in vitro produced embryos in sucrose improves agreement among evaluators.

Chromosomal constitution of mouse blastocysts derived from oocytes inseminated by multiple sperm insertion into the perivitelline space

PURPOSE

Our purpose was to evaluate the rate of chromosomal aberrations in mouse blastocysts obtained after microinjection of multiple spermatozoa under the zona pellucida of mature oocytes. Without detecting the appearance of pronuclei, the microinjected mouse oocytes containing two polar bodies were cultivated to the blastocyst stage and then analyzed cytogenetically.

RESULTS

A chromosome study was carried out in a total of 109 blastocysts derived after microinjection of motile spermatozoa into the perivitelline space. Fifty-five blastocysts (50.5%) exhibited normal diploid chromosome complements, 30 (27.5%) showed different forms of mosaicism, and 24 (22%) exhibited haploidy caused by parthenogenetic activation. Compared to in vivo and in vitro control groups there was a significant increase in the parthenogenesis and mosaic forms of embryos produced by micromanipulation (P < 0.001). A total of 360 well-spread metaphases of 103 blastocysts was analyzed to determine whether the micromanipulation procedure increased the chance of aneuploidy. Aneuploid numbers of chromosomes were absent in all the metaphases analyzed.

CONCLUSION

Mosaicism and parthenogenesis appear to be increased significantly following microinjection of multiple spermatozoa under the zona pellucida of mouse oocytes, and there was no evidence of aneuploidy.

A comparison between in vitro fertilization and microinjection of immobilized spermatozoa from bulls producing spermatozoa with defects

The objectives of this study were to compare the fertilization rate of bovine in vitro matured oocytes by in vitro fertilization (IVF) and by microinjection of a single spermatozoon (MI) and to relate these rates with fertility reported for these bulls in artificial breeding. Bull A (Holstein) had a nonreturn rate of 75%. Semen from this bull is routinely used in our standard IVF procedure. Bull B (Ayrshire), used regularly in artificial breeding and related to bull D, had a nonreturn rate of 69.2%. Bull C (Brown Swiss), with a chromosomal translocation and trisomy, achieved a nonreturn rate of 42%. Bull D (Ayrshire) produced nonmotile spermatozoa (SPZ) and had an abnormality described as "tail stump defect." No pregnancies sired by bull D have been reported. Oocytes were either fertilized in vitro by capacitated SPZ or by microinjection of a single immobilized SPZ into the ooplasm. SPZ were treated with 0.1 microM A23187 and used for IVF. For microinjection SPZ were cocultured for 5 h with bovine oviduct epithelial cells (BOEC) and then immobilized by freezing and thawing twice without cryoprotectant. A single batch of killed SPZ (stored at -25 degrees C) was used for all microinjections. All oocytes were cultured in Medium 199 for 22 h at 39 degrees C and subsequently fixed, stained, and examined for evidence of fertilization (i.e., female and male pronucleus formation, SPZ decondensation). Fertilization rates following IVF with semen from bulls A, B, C, and D were 80%, 54%, 1%, and 2%, and following microinjection were 39%, 22%, 21%, and 34%, respectively.

Micromanipulation of mammalian embryos: Principles, progress and future possibilities

Numerous advances in development of techniques for manipulating mammalian embryos outside the maternal environment have been made over the past decade. Some techniques were developed primarily for use in research; others were developed in response to problems of practical livestock production but have proven useful in research as well. Embryo micromanipulation procedures are used often in conjunction with embryo transfer, and interest in these procedures was stimulated by growth of the embryo transfer industry. Included in this review are discussions of procedures for manipulation of gametes and embryos, including sperm injection into oocytes, pronuclear and nuclear transfer, embryo biopsy and splitting, experimental chimera production and isolation of embryonic stem cells.

Fertilization of bovine oocytes after microsurgical injection of spermatozoa

The objective of this study was to compare the fertilization rate of bovine oocytes matured in vitro (22, 25 or 28 hours) and in vivo (30 to 35 hours after standing estrus) following the microinjection of a single spermatozoon. A single motile spermatozoon was injected into the perivitelline space (Experiments 1 to 9), and a single immotile spermatozoon was injected into the ooplasm (Experiments 10 to 15). A single ejaculate of frozen-thawed semen was used throughout. The spermatozoa were injected either without treatment or after treatment with heparin (100 microg/ml), or Ca ionophore A23187 (0.1 microM), or co-cultured for 5 hours with bovine oviduct epithelial cells (BOEC), or they were co-cultured for 5 hours with BOEC and immobilized by freezing and thawing twice without cryoprotectant, or they remained untreated. Oocytes were placed in a droplet of hyperosmotic solution of 0.1 M sucrose in PBS to enlarge the perivitelline space (Experiments 1 to 9) or in PBS (Experiments 10 to 15). Small amounts of polyvinyl pyrrolidone (PVP) without spermatozoa were injected as a control for parthenogenetic activation. After injection, oocytes were incubated in Medium 199 for 22 hours at 39 degrees C, and they were stained with 1% aceto-orcein and examined for evidence of fertilization or parthenogenetic activation. Low rates (9 to 11%) of fertilization resulted from injection into the perivitelline space of oocytes matured for 22 hours in vitro irrespective of spermatozoa treatment. Fertilization rates were higher in oocytes matured in vivo after injection into either perivitelline space (66%) or ooplasm (74%) than in oocytes matured in vitro (9 to 44% fertilization). Surprisingly, in oocytes matured in vivo, there was no difference in the proportions fertilized by spermatozoa injection into ooplasm and parthenogenetically activated by injection of medium alone (74 and 66%, respectively).

At least half of capacitated, motile mouse sperm can fertilize zona-free mouse oocytes

The percentage of individual sperm capable of fertilizing zona pellucida-free mouse oocytes was investigated by placing motile sperm near zona-free oocytes with a micromanipulator. Incubation with one or two capacitated sperm per oocyte resulted in 50% and 70% fertilization, respectively, compared to 88% for cumulus intact (10(5) sperm/ml) and 87% for zona-free (2 x 10(3) sperm/ml) control oocytes. When sperm were treated with .1 microM calcium ionophore A23187 to facilitate the acrosome reaction, fertilization rates for single motile sperm were markedly lower than for capacitated, nontreated single sperm (4% and 35%, respectively). Similar fertilization rates resulted when one sperm was incubated per two ova (4% and 48% per sperm for A23187-treated and controls, respectively). When a lower dose of A23187 (.001 microM) was used to treat sperm, 7% of oocytes incubated with single sperm were fertilized. These experiments demonstrate that at least half of motile, capacitated mouse sperm are capable of fertilizing zona-free mouse oocytes in vitro, and that motile, A23187-treated mouse sperm resulted in poor fertilization rates.

Potential of hypertonic medium treatment for embryo micromanipulation: I. Survival of rabbit embryos in vitro and in vivo following sucrose treatment

Rabbit zygotes and embryos were exposed to hypertonic sucrose in phosphate-buffered saline (SPBS). In experiment one, 144 zygotes shrank to 32-36% of their initial volume in 1.0 M SPBS within 30 min. Neither hypertonic treatment with 0.5 M or 1.0 M SPBS nor micropuncture of the zona pellucida after shrinkage affected embryo development into blastocysts in vitro (88%, 83%, and 82%, respectively), compared to that of the controls (93%, P greater than .05). In experiment two, 252 two- to four-cell- and 177 morula-stage embryos were exposed to isotonic PBS control or 0.5 M, 1.0 M, or 1.5 M SPBS for 30, 60, 90, 120, and 150 min before transfer to PBS (290 mOsm). Embryo development was significantly reduced (P less than .05) when embryos were exposed in 0.5 M and 1.0 M SPBS for more than 60 min or in 1.5 M SPBS for more than 30 min. In experiment 3, morulae exposed for 60 min to 0.5 M or 1.0 M SPBS shrank to 37-39% or 32-35% of their initial volume and then expanded to 87-94% or 81-90% of their initial volume, respectively, after being returned to isotonic PBS for 60 min, but embryos in 1.5 M SPBS had erratic osmotic behavior. In experiment four, 192 two- to four-cell embryos exposed to 0.5 M SPBS for 0, 30, and 60 min before transfer to oviducts of recipients resulted in the production of 39%, 42% and 31% young, respectively (P greater than .05).(ABSTRACT TRUNCATED AT 250 WORDS)