Meiotic maturation and developmental capability of ovine oocytes at germinal vesicle stage following vitrification using different cryodevices.

In order to assess effects of vitrification on ovine oocytes at the germinal vesicle (GV) stage, the conventional plastic straw (CS), the open-pulled straw (OPS), and Cryoloop were used to vitrify ovine oocytes. Oocytes were randomly divided into five groups: (1) Control; (2) Oocytes exposed to vitrification and dilution solutions without any cryopreservation (toxicity); (3) Oocytes vitrified using CS (CS); (4) Oocytes vitrified using OPS (OPS), and (5) Oocytes vitrified using Cryoloop (Cryoloop). The viability, cumulus cell expansion, nuclear maturation after in vitro maturation (IVM), and developmental capability of vitrified oocytes following parthenogenetic activation (PA) or in vitro fertilization (IVF) were assessed. The pretreatment in the vitrification and dilution solutions without any freezing or thawing did not adversely influence oocytes. The viability of vitrified oocytes were significantly declined compared to unfrozen oocytes (P < 0.05). The viability of oocytes vitrified using open-pulled straws or Cryoloop was significantly higher than that in the CS group (P < 0.05). After IVM, the percentage of oocytes reaching to the metaphase II (MII) stage was significantly higher with Cryoloop and OPS following by CS. However, the in vitro maturing percentage of vitrified oocytes was significantly less than that of unfrozen oocytes (P < 0.05). After PA, the developmental capability of vitrified oocytes was significantly decreased compared to unfrozen oocytes. The cleavage rate of oocytes vitrified using conventional plastic straws was significantly less than those of the other freezing groups (P < 0.05). The cleaving capability of oocytes vitrified using Cryoloop was significantly increased compared to the OPS group. However, there was no significant difference existing amongst the freezing groups as concerning the blastocyst rate. Following IVF, the developmental capability of vitrified oocytes was severely damaged compared to that of unfrozen oocytes. The cleavage rate of oocytes vitrified with Cryoloop was similar to that of oocytes vitrified with open-pulled straws. However, the cleavage rate of vitrified oocytes in the CS group was significantly less than that in the OPS or Cryoloop group (P < 0.05). None of oocytes vitrified using conventional plastic straw developed to the blastocyst stage following IVF. There was no significant difference existing between OPS and Cryoloop with respect to the blastocyst rate. After staining with cFDA and PI, cumulus cells surrounding oocytes were partly damaged by vitrification and thawing while the membrane of vitrified oocyte still remained intact. In conclusion, vitrification can seriously damage ovine immature oocytes and cumulus cells surrounding oocytes, which may subsequently affect their developmental capability. Finally, this study further proves that increasing the freezing and thawing velocity benefits survival of vitrified immature oocytes.

Effects of Hoechst33342 staining on the viability and flow cytometric sex-sorting of frozen-thawed ram sperm.

Cytometric sorting of frozen-thawed sperm can overcome difficulties caused by the unavailability of sorting facilities on farms where semen is collected from male livestock. In order to optimize the cytometric sex-sorting procedure, effects of Hoechst33342 staining on the viability and cytometric sorting efficiency of frozen-thawed ram sperm were evaluated. The frozen-thawed sperm were stained with Hoechst33342 at various dye concentrations (80 µM, 120 µM, 160 µM, 200 µM, 240 µM, or 320 µM) for 45 min to evaluate effects of dye dose. The frozen-thawed sperm were stained with 160 µM Hoechst33342 for various durations (0 min, 15 min, 30 min, 45 min, 60 min, 75 min, or 90 min) to evaluate effects of staining duration. Sperm motility and moving velocity were analyzed using a computer-assisted sperm analysis system (CASAS). Acrosome status, membrane integrity, and distribution of phosphatidylserine (PS) in Hoechst33342-stained sperm were analyzed using flow cytometry after staining with fluorescein isothiocyanate-labeled lectin from pisum sativum (FITC-PSA), Annexin V, or propidium iodide (PI). The fertility of Hoechst33342-stained sperm was analyzed by in vitro fertilization (IVF). A high-speed cell sorter was used to evaluate effects of Hoechst33342 staining on cytometric sex-sorting of frozen-thawed sperm. The motility, moving velocity, membrane integrity, and PS distribution of Hoechst33342-stained sperm were significantly different from that of immediately thawed sperm (P<0.05). However, there is no significant difference existing among the Hoechst33342-stained groups with respect to the above evaluated parameters. Additionally, along with the staining durations, the adverse effects of the staining procedure on sperm showed a steady increase. However, Hoechst33342 staining did not damage acrosome and in vitro fertilizing capability of frozen-thawed ram sperm. Results of cytometric sorting indicated that frozen-thawed sperm can be efficiently sorted into two sperm populations with X and Y chromosome when the Hoechst33342 concentration was 160 µM. Moreover, when the staining duration was equal to or longer than 45 min, the frozen-thawed sperm can be successfully sorted in the presence of 160µM Hoechst33342. In conclusion, Hoechst33342 staining can detrimentally influence viability of frozen-thawed ram sperm except acrosome and in vitro fertilizing capability. Accordingly, the minimum values of Hoechst33342 concentration and staining duration can be set at 160 µM and 45 min respectively. However, the maximum values of Hoechst33342 concentration and staining duration were not determined based on the current study. Further research on how to reduce injuries caused by freezing, thawing, and Hoechst33342 staining on frozen-thawed ram sperm is needed.

Establishment and cryopreservation of a skin fibroblast cell line derived from Yunnan semi-fine wool sheep in the presence of synthetic ice blocker.

In this study, the fibroblasts cell line derived from ear marginal tissue of Yunnan semi-fine wool sheep was successfully established using the primary explants technique and cryopreservation technology. Additionally, the protective effect of synthetic ice blocker (SIB) including 1, 3-cyclohexanediol (1, 3-CHD) and 1, 4-cyclohexanediol (1, 4-CHD) on frozen fibroblast cells was also assessed and compared. Propidium iodide (PI) was used to stain the dead cells following cryopreservation and thawing. The results showed that compared with Medium 199 (M199) and Dulbecco's modified Eagle's medium : Nutrient Mixture F-12 (1 : 1) Mixture (DMEM/F12), Dulbecco's modified Eagle's medium (DMEM) may be more suitable for the primary culture of fibroblast cells of Yunnan semi-fine wool sheep. The growth curve of cells is a typical "S" type. After subculture for four days, the cells entered the plateau phase and began to degenerate. Biological analysis showed that the population doubling time (PDT) for subculturing fibroblast cells was approximately 26h. The Karyotyping data indicated that the percentage of fibroblast cells with normal chromosome number 2n = 54 was over 90% following subculture for 10 passages. Moreover, the tests for bacteria, fungi, viruses and mycoplasma were negative. After serial subculture for 5 generations, the fibroblast cells were cryopreserved in the presence or absence of 1, 3-CHD or 1, 4-CHD. The data indicated that with increase of the synthetic ice blocker concentrations, the viability of frozen-thawed fibroblast cells was firstly increased and then decreased. When the concentration of 1, 3-CHD or 1, 4-CHD was 50 mM, the viable percentage of frozen-thawed fibroblast cells was 91.93% +/- 2.24% and 94.13% +/- 0.55% respectively and significantly higher than that of the cells frozen in the absence of synthetic ice blockers (88.10% +/- 1.49%, P < 0.05). In conclusion, the skin fibroblast cell line of Yunnan semi-fine wool sheep was firstly established in this study. Additionally, the presence of synthetic ice blocker can increase the viability of frozen-thawed sheep fibroblast cell line.

The Replacement of Monosaccharide by Mannitol or Sorbitol in the Freezing Extender Enhances Cryosurvival of Ram Spermatozoa.

In this study, the protective effects of monosaccharides (glucose and fructose) and sugar alcohols (mannitol, sorbitol, and xylitol) on frozen ram spermatozoa were evaluated and compared. The motility, moving velocity, and hypoosmotic swelling capability of spermatozoa frozen with monosaccharide or sugar alcohol were measured using a computer-assisted spermatozoa analyzer system. The acrosome status, membrane integrity, distribution of phosphatidylserine (PS), and mitochondrial membrane potential (MMP) were analyzed using fluorescence staining and flow cytometry. The results indicated that similar to glucose or fructose, the presence of sugar alcohol in the freezing extender cannot significantly improve the motility and moving velocity of ram spermatozoa equilibrated at 5°C. In terms of motility, pathway velocity, curve velocity, hypoosmotic swelling capability, acrosome and membrane integrity, and MMP, the inclusion of mannitol or sorbitol in the extender can significantly improve the quality of frozen-thawed ram spermatozoa compared to glucose or fructose. However, the effects of mannitol or sorbitol on linear velocity and PS distribution of frozen-thawed spermatozoa were similar to those of the monosaccharides (p > 0.05). In addition, the ability of xylitol to protect acrosome and maintain MMP in frozen-thawed spermatozoa was significantly higher compared with glucose or fructose (p < 0.05), although it could not improve the other evaluated parameters. Finally, there is no significant difference existing between mannitol and sorbitol with respect to the above evaluated parameters. In conclusion, the replacement of glucose or fructose by mannitol or sorbitol in a freezing extender can improve the postthaw quality of ram spermatozoa under specific freezing conditions. Moreover, the protective effects of mannitol and sorbitol on frozen-thawed ram spermatozoa are superior to that of xylitol. However, in the presence of sugar alcohols, the cryoinjury on spermatozoa membrane is still serious. In the future, the question of protecting the membrane of frozen-thawed spermatozoa needs further research.

Cryotop vitrification of porcine parthenogenetic embryos at the early developmental stages.

The objective of this study was to evaluate the effects of early developmental stages at which Cryotop vitrification is performed on subsequent survival and in vitro development of porcine parthenogenetic activation embryos. The zygotes that were cultured for 4, 8, and 18 hours post electric activation (h.p.a.) and two- and four-cell embryos were vitrified, warmed, and continuously cultured for the remaining period. The zygotes vitrified at 4, 8, and 18 h.p.a. showed similar percentages of survival, cleavage, and blastocyst formation. No difference in viability was observed after vitrification of two- and four-cell embryos, but the embryos vitrified at the two-cell stage exhibited significantly higher blastocyst formation rate than those vitrified at the four-cell stage. However, vitrifying embryos resulted in significantly decreased survival and development rates, regardless of the developmental stage of the embryos. In addition, the final developmental stage, diameter, apoptotic index, and the number of inner cell mass, trophectoderm, and total cells of blastocysts derived from embryos vitrified at any stage of the early culture were similar to those of fresh blastocysts. In conclusion, our data indicate that the early-stage porcine parthenogenetically activated embryos including the zygote, two cells, and four cells have a high ability to survive cryopreservation; these viable embryos after vitrification can produce respectable development rates and good-quality blastocysts.