The objective of this research was to study efficiency of embryo development following transfer of blastomeres into the perivitelline space of oocytes. Single blastomeres from 8-, 16-, and 32-cell embryos were obtained following mucin coat and zona pellucida removal by combined treatments with pronase and acidic phosphate-buffered saline (PBS, pH = 2.5). Blastomeres were separated by pipetting with a fire-polished micropipette following incubation in Ca+(+)-free PBS for 15 min at 39 degrees C. This procedure resulted in over 97% blastomere separation. For ease of blastomere insertion, oocytes were placed in droplets of 0.5 M sucrose in PBS (SPBS) during micromanipulation. To functionally enucleate oocytes some were stained with Hoechst 33342 DNA stain and irradiated. A single 8- or 16-cell blastomere was aspirated into an injection pipette (35 microns or 25 microns at the tip, respectively) and inserted into the perivitelline space of an irradiated or non-irradiated oocyte, but not fused with the oocyte. This micromanipulation procedure did not affect development of individual blastomeres into blastocysts or trophectoderm vesicles when compared with cultured control single blastomeres (P greater than .05). When the inserted blastomere was induced to fuse with an intact non-irradiated oocyte under an electric field, 56-57% were fused and 39-45% of the fused and activated oocytes developed to morulae or blastocysts. When an inserted blastomere (from 8-32-cell embryos) was induced to fuse with a functionally enucleated oocyte treated by Hoechst 33342 staining, followed by washing and UV-light irradiation, 63-66% of them were fused, but only 15-22% developed to the morula or blastocyst stage. This research demonstrated that the use of hypertonic medium treated oocytes greatly improved the ease and success rate of blastomere subzona insertion, but the value of functionally enucleated oocytes as recipient cells for nuclear transfer requires further investigation.
Six factorially arranged experiments were designed to study effects of seeding, freezing, and thawing rates in whole milk and egg yolk-Tris extenders commonly used for commercial cryopreservation of bull sperm. In these extenders, semen normally is supercooled to -13 or -14 degrees C unless the sperm are seeded. When sperm were supercooled or seeded, either mechanically or with immobilized silver iodide, and frozen to -196 degrees C, the postthaw percentages of motile sperm were 59, 57, and 64%, respectively. Freezing rates of -15, -25, and -35 degrees C/min gave similar sperm survival rates and were superior to -5 degrees C/min. For milk, the critical freezing temperature extended to -75 degrees C before transfer to liquid nitrogen gave good results. For egg yolk-Tris extender, transfer to liquid nitrogen was less critical once -50 degrees C had been attained. Thawing of sperm in water baths at 25 and 45 degrees C gave similar results, and both temperatures were superior to 5 degrees C. The postthaw percentage of motile sperm in egg yolk-Tris was equal or superior to that of sperm frozen in milk. A freezing rate of -15 degrees C/min to -100 degrees C and thawing at 25 degrees C consistently gave good results.
Rabbit 1-cell embryos were co-cultured with rabbit oviduct epithelial cells (ROEC) to determine if ROEC can enhance embryo development in vitro. Primary ROEC were cultured in serum-free media at 39 degrees C in a 5% CO2:95% air environment. In experiment 1, 1-cell embryos were co-cultured in Ham's F10 with freshly collected or 4-d-old cultures of ROEC seeded in plastic culture wells or on collagen membranes. One-cell embryos cultured without ROEC served as controls. After 65 h in culture, embryos were stained with Hoechst 33342 to determine the number of cells per embryo. Cell numbers were higher (P less than 0.035) in all co-culture treatments when compared to controls. Optimal development was obtained by co-culture with 4-d-old ROEC grown on plastic (P less than 0.003). In experiment 2, Ham's F10, Medium 199, and CZB with glucose medium were compared for their ability to support embryo development in the presence or absence of 4-d-old ROEC grown on plastic. Cell number and the percentage of embryos becoming blastocysts were significantly (P less than 0.002) higher for embryos cultured in Medium 199 compared to the other media tested. In Medium 199, co-culture with ROEC resulted in only a slight, nonsignificant increase in cell number over culture in Medium 199 alone (110 vs. 96 cells). However, the percentage of embryos reaching the blastocyst stage when co-cultured in Medium 199 with ROEC (49%) was nearly twice (P = 0.01) that of embryos in Medium 199 without ROEC (26%). In experiment 3, transfer of embryos cultured in Medium 199 with or without ROEC of 24 or 48 h resulted in no significant differences in posttransfer development. These data indicate a beneficial effect of ROEC on blastogenesis and a salvage effect of ROEC on cell proliferation in embryos grown in a less supportive medium such as Ham's F10.
Rabbit 2-cell embryos were co-cultured in Basel Synthetic Medium II + 10% fetal bovine serum with one of the following: primary cultures of rabbit oviduct epithelial cells (ROEC), a rabbit kidney epithelioid cell line (RK13), a rabbit epidermal epithelioid cell line (Sf1), or a rabbit skin fibroblast-like cell line (RAB9). Embryos cultured in medium alone served as controls. After 4 d of culture at 39 degrees C in 5% CO2 in air, 77-93% of the rabbit embryos which were co-cultured with somatic cells had reached the blastocyst stage, and 60-76% were hatching through their zonae pellucidae. These percentages, however, were not significantly different (P greater than .05) from those of embryos in medium alone, of which 90% had reached the blastocyst stage and 83% were hatching. Mean intrazonal embryo diameters also did not differ significantly among treatments (239-302 microns). Bovine 1-8-cell embryos were also co-cultured with ROEC. This stimulated 60% of these embryos to develop beyond the so-called "16-cell block" in vitro, whereas 0% of the embryos cultured in medium alone developed past this block. Evaluation of the ROEC cultures by light microscopy, immunocytochemistry, and gel electrophoretic analysis of conditioned medium, together with the positive results with bovine embryos, indicate that the ROEC culture partially simulates oviductal conditions in vivo. Therefore, our results suggest that oviduct epithelial cells may play a less pivotal role in regulating early development in the rabbit than in the cow.(ABSTRACT TRUNCATED AT 250 WORDS)
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