A. C. Nicacio

Cryopreservation of bos taurus vs bos indicus embryos: are they really different?

Cryopreservation with storage at very low temperatures is essential to make full use of this technology for both biological and commercial reasons. However, most mammalian cells will die if exposed to these temperatures unless they are exposed to cryoprotectant solutions and cooled and warmed at specific rates. Lowering temperature below 0 degree C introduces the risk of intracellular ice formation, which likely increases rapidly as the temperature falls. Evidence indicates that ice formation during cooling can cause significantly more damage than ice formation during warming. Comparisons of the toxicity of various cryoprotectants indicated that ethylene glycol (EG) is a nontoxic compound for murine and bovine embryos. The 3.6 M EG solution resulted in similar high survival rates when compared with nonfrozen embryos; deleterious effects of high concentrations of EG became apparent at 7.2 M. The use of EG provides a nontoxic method for the rapid and simplified controlled freezing of in vivo bovine compact morulae-early blastocyst, avoiding the risk of injury caused by high concentrations of cryoprotectants usually required for vitrification. However, in vivo embryos used for freezing and thawing require further studies to understand the ultrastructural changes during the freezing procedure with EG as the single cryoprotectant, especially between Holstein and Nelore cows. This paper describes the ultrastructure of bovine compact morulae-early blastocysts derived by in vivo methods from Holstein and Nelore cows to investigate the fresh morphology as well as that after exposure to cryoprotectant and cryopreservation by conventional slow freezing, quick freezing (nitrogen vapor), and vitrification.

Production of a cloned calf from a fetal fibroblast cell line

The present study examined the in vitro and in vivo development of bovine nuclear-transferred embryos. A bovine fetal fibroblast culture was established and used as nucleus donor. Slaughterhouse oocytes were matured in vitro for 18 h before enucleation. Enucleated oocytes were fused with fetal fibroblasts with an electric stimulus and treated with cytochalasin D and cycloheximide for 1 h followed by cycloheximide alone for 4 h. Reconstructed embryos were cultured for 7-9 days and those which developed to blastocysts were transferred to recipient cows. Of 191 enucleated oocytes, 83 (43.5%) were successfully fused and 24 (28.9%) developed to blastocysts. Eighteen freshly cloned blastocysts were transferred to 14 recipients, 5 (27.8%) of which were pregnant on day 35 and 3 (16.7%) on day 90. Of the three cows that reached the third trimester, one recipient died of hydrallantois 2 months before term, one aborted fetus was recovered at 8 months of gestation, and one delivered by cesarian section a healthy cloned calf. Today, the cloned calf is 15 months old and presents normal body development (378 kg) and sexual behavior (libido and semen characteristics).

Effects of different cryopreservation methods on post-thaw culture conditions of in vitro produced bovine embryos

The aim of this work was to evaluate the effect of cryopreservation protocols on subsequent development of in vitro produced bovine embryos under different culture conditions. Expanded in vitro produced blastocysts (n = 600) harvested on days 7-9 were submitted to controlled freezing [slow freezing group: 10% ethylene glycol (EG) for 10 min and 1.2°C/min cryopreservation]; quick-freezing [rapid freezing group: 10% EG for 10 min, 20% EG + 20% glycerol (Gly) for 30 s]; or vitrification [vitrification group: 10% EG for 10 min, 25% EG + 25% Gly for 30 s] protocols. Control group embryos were not exposed to cryoprotectant or cryopreservation protocols and the hatching rate was evaluated on day 12 post-insemination. In order to evaluate development, frozen-thawed embryos were subjected to granulosa cell co-culture in TCM199 or SOFaa for 4 days. Data were analyzed by PROC MIXED model using SAS Systems for Windows®. Values were significant at p < 0.05. The hatching rate of the control group was 46.09%. In embryos cultured in TCM199, slow freezing and vitrification group hatching rates were 44.65 ± 5.94% and 9.43 ± 6.77%, respectively. In embryos cultured in SOFaa, slow freezing and vitrification groups showed hatching rates of 11.65 ± 3.37 and 8.67 ± 4.47%, respectively. In contrast, the rapid freezing group embryos did not hatch, regardless of culture medium. The slow freezing group showed higher hatching rates than other cryopreservation groups. Under such conditions, controlled freezing (1.2°C/min) can be an alternative to cryopreservation of in vitro produced bovine embryos.

Vitrification with Glutamine Improves Maturation Rate of Vitrified / Warmed Immature Bovine Oocytes

The current study examined the protective effects of l-glutamine and cytochalasin B during vitrification of immature bovine oocytes. Oocyte vitrification solution (PBS supplemented with 10% FCS, 25% EG, 25% DMSO and 0.5 m trehalose) was the vitrification control. Treatments were the addition of 7 μg/ml cytochalasin B, 80 mm glutamine or both cytochalasin and glutaminine for 30 s. After warming, oocytes were matured in vitro for 24 h, fixed and stained with Hoechst (33342) for nuclear maturation evaluation. L-glutamine improved the vitrified/warmed immature bovine oocytes viability (32.8%), increasing the nuclear maturation rates compared to other treatments and the no treatment vitrified control (17.4%). There was, however, no effect of cytochalasin B on in vitro maturation (14.4%).

Maturação e desenvolvimento embrionário in vitro de oócitos bovinos após bloqueio da meiose com inibidores de MPF

This study evaluated the bovine oocyte maturation and embryo development after in vitro fertilization. The maturation of the oocytes was blocked using Butyrolactone I and Roscovitine using pre-maturation medium supplemented with fetal calf serum (FCS). The ocytes were divided in four groups: Control 0 hour, Control (24 hours of maturation), Roscovitine (maturation blockage with 50mM Roscovitine during 24 hours followed by 24 hours of maturation), and Butyrolactone I (maturation blockage with 150mM Butyrolactone I during 24 hours followed by 24 hours of maturation). The oocytes were fixed and stained with aceto orcein to evaluate the nuclear maturation. After the maturation period, the remaining oocytes of the Control group, Roscovitine, and Butyrolactone I were fertilized in vitro. Embryo development was assessed by the cleavage rate (D3) and blastocysts formation (D7). The Butyrolactone I group had similar rates of germinal vesical stage oocytes during blockage, and Metaphase 2 after maturation, comparing to Control group at 0 hour and Control group, respectively. On the other hand, the Roscovitine group had lower rates of vesical stage oocytes during blockage, and Metaphase 2 after maturation comparing to Control groups. After in vitro fertilization, higher rates of cleavage were observed in Control and Butyrolactone I groups. For the blastocyst formation rate, the Control group showed better results than Roscovitine group. In summary, Butyrolactone I group had similar results to the Control group, and for this reason, is suitable for pre-maturation of bovine oocytes using FCS. In contrast, Roscovitine group had lower oocyte maturation and embryo development.

410 USE OF SPERMATOZOA AS VECTORS OF EXOGENOUS DNA FOR IN VITRO PRODUCTION OF BOVINE TRANSGENIC EMBRYOS

There are many methods to produce transgenic animals, although when considering bovine species, those methods offer low repeatability, high costs, and low transgene integration efficiency. To overcome these difficulties, sperm mediated gene transfer (SMGT) could be used as an alternative to produce transgenic embryos. This technology allows carrying exogenous DNA into the oocyte during the fertilization period, once spontaneous binding exists between spermatozoa and exogenous DNA. The aim of this study was to compare 4 methods for incorporating DNA into sperm cells—sperm incubation, capacitation, electroporation, and lipofection—to verify the efficiency of embryo production with exogenous DNA, employing spermatozoa as a vector. Cumulus–oocyte complexes (COCs) from abattoir-derived bovine ovaries were randomly divided into 5 groups (4 experimental groups: sperm incubation, sperm capacitation with calcium ionophore, electroporation, and lipofection; and 1 control group). In vitro maturation was performed in TCM-199 medium supplemented with 10% FCS, sodium pyruvate, gentamycin, FSH, hCG, and estradiol in an incubator at 39°C, in an atmosphere of 5% CO2 in air and high humidity for 24 h. After Percoll gradient (45/90%) separation at 600g for 30 min, spermatozoa were washed in Talp Semen medium (200g for 5 min). For in vitro fertilization (IVF), 5 × 106 spermatozoa were used to inseminate microdroplets with 20 matured oocytes from all groups: incubation with exogenous DNA for 1 h, sperm capacitation (250 nM of calcium ionophore) for 5 min followed by sperm incubation for 1 h, electroporation (500V), and lipofection (Effectene®; Qiagen, Mississauga, Ontario, Canada). The EYFP-Nuc plasmid (500 ng mL-1; Clontech, Mountain View, CA, USA) was used as exogenous DNA. Oocytes inseminated with non-treated sperm were considered as the control group. The presumptive zygotes were co-cultured with a granulosa cell monolayer in SOFaa medium in an incubator at 39°C, with an atmosphere of 5% CO2 in air and high humidity. The blastocyst rate was analyzed by ANOVA. Embryos from all experimental and control groups were subjected to PCR to detect internalized EYFP, using primers specific to this exogenous DNA, and considering positive embryos those that showed a fragment of 440 bp after electrophoresis. The fragment of 440 bp from positive embryos was sequenced to check correspondence to the EYFP. Electroporation (17.95%) and sperm capacitation (15.12%) were more efficient for EYFP-positive embryo production when compared to the lipofection protocol (6.25%). Sperm incubation (12.5%) did not show a significant difference from the other groups. Sequenced PCR-positive products for EYFP showed 100% homology with nucleotides of EYFP at GenBank. In conclusion, it is possible to use SMGT to deliver exogenous DNA into an oocyte at the time of IVF. This work was supported financially FAPESP 03/08542-5 and 03/07456-8.

345 Influence of different maturation media on in vitro swine embryo development.

The aim of this work was to study the influence of maturation media NCSU23, Whitten, and TCM199 on in vitro development of swine embryos. Oocytes from slaughtered gilt ovaries were in vitro-matured (IVM) with NCSU23 (n = 148), Whitten (n = 151), and TCM199 (n = 170) media for 44 h. After IVM, all oocytes were fertilized in mTBM medium for 6 h and cultured in NCSU23 with 0.4% BSA for 5 days. After Day 5, all embryos were cultured in NCSU23 supplemented with 20% FCS for 4 days. Cleavage, blastocyst, and hatching rates were evaluated. Cleavage rates were 29% for NCSU23, 35.8% for Whitten, and 42.3% for TCM199 maturation media, with no significant difference among media (P > 0.05). Blastocyst rates were similar (P > 0.05), 18.9%, 21.8%, and 20%, respectively, for NCSU23, Whitten and TCM199 maturation media. Hatching rates were 16.1%, 34.3%, and 32.3%, respectively, for NCSU23, Whitten, and TCM199 maturation media, with no significant differences (P > 0.05). In conclusion, all three maturation media supported IVF, allowing embryo development from cleavage until blastocyst hatching.

106 EFFECT OF GLYCEROL AND ETHYLENE GLYCOL ON THE DEVELOPMENT OF IN VITRO BOVINE EMBRYOS

The aim of this study was to evaluate the viability of in vitro-produced bovine embryos after exposure to different cryoprotectant solutions and cryopreservation. Bovine ovaries were collected at slaughterhouse and oocytes were matured, fertilized, and cultured in vitro. The embryos were co-cultured on a granulosa cell monolayer in SOF + 5% FCS and nonessential amino acids. In Experiment 1, expanded blastocysts were exposed to 10% ethylene glycol (EG) solution for 10 min (Group EG) or to 10% EG solution for 10 min and to 20% EG + 20% glycerol (Gly) solution for 30 s (Group EG/Gly). Cryoprotectants were diluted with PBS + 0.2% BSA + 0.3 M sucrose and PBS + 0.2% BSA solutions, both for 3 min, and the hatching rate was evaluated after culture. In Experiment 2, after exposure, EG Group was cryopreserved by slow freezing procedure (1.2°C/min) and EG/Gly Group was vitrified on nitrogen vapor for 2 min. After thawing, cryoprotectants were diluted using PBS + 0.2% BSA + 0.3 M sucrose and PBS + 0.2% BSA solutions, both for 3 min; hatching rate was evaluated after culture. As a control group for both experiments, non exposed embryos were cultured and evaluated for hatching rate. In Experiment 1, the hatching rates were 59.72% (43/72) for control, 62.38% (63/101) for EG, and 69.00% (69/100) for EG/Gly groups. In Experiment 2, hatching rates were 59.72% (43/72) for control, 15.22% (7/46) for EG, and 0.00% (0/46) for EG/Gly groups. Results were analyzed by chi-square test. In Experiment 1, no differences were observed among groups (P > 0.05) and in Experiment 2, differences were observed among control, EG, and EG/Gly groups (P < 0.05). In conclusion, the cryoprotectants were not deleterious to the development of in vitro bovine embryos until hatching, but the cryopreservation procedures decreased embryo viability. This work was supported by FAPESP 04/05335-1.

228 Collection and evaluation of semen of sloth (Bradypus tridactylus).

Sloths are animals that suffer with the destruction and fragmentation of forests. They experience a low population growth rate and need to be studied further for the preservation of the species. The objective of this study was to contribute data relevant to the reproductive physiology of this species, selecting a semen collection method and evaluating seminal characteristics that have never before been described in the literature. Fifteen Bradypus tridactylus males were captured in Manaus, Brazil. Nine of them were captured during the first half of 2004 (Group 1) and the others during the second half (Group 2). The animals were anesthetized with an i.m. injection of a combination of ketamine (10 mg/kg) and xylasine (1 mg/kg). Semen was collected by electroejaculaton using a rectal probe designed for domestic cats. Electrostimulations were given with a 0-100 mA/0-12 V variable electrostimulator in sequences of three progressive intensities, with ten repetitions at each intensity and variation of 10 mA between them. They started with 20 mA and peaked at 60 mA. Each stimulus lasted about 3 s. It was not possible to define the best intensity of stimulus to use and ejaculation could take place at any time of the stimulation (Fishers exact test). Sperm motility and vigor were immediately analyzed. Sperm count was determined in a Neubauer chamber at a 1:50 (v:v) dilution in formol-saline. Morphology was examined at the same dilution. Fresh semen smears were made and stained using Spermac Stain® (Minitub, Tiefenbach, Germany) protocol for a better evaluation of the spermatozoa acrosome and midpiece. In both methods 200 cells were counted for morphological evaluation. All animals ejaculated approximately 30 ¼L to 90 ¼L of semen. In some ejaculates the semen was too thin and flowed down the penis, so that the volume effectively collected was not sufficient for a complete spermiogram. Spermatozoa presented a wide variety of defects, and some physical characteristics differed (not significantly) between samples collected during the first and second halves of the year. Motility and vigor were very low, the sperm did not show forward progression, only oscillatory movement. However, a high percentage (80%) of spermatozoa were moving. The concentration in Group 1 ranged from 5000 spermatozoa/mm3 to 685 500 spermatozoa/mm3 (mean ± 218 571.4 ± 242 499.4). Sperm concentation was not assessed in Group 2. The morphology of the head could be elongated or squared, or the head could have a base narrower than the apex. The tail showed a unique feature: the midpiece narrowed abruptly, forming a nip in its transition to the tail. This was similar in appearance to the segmental aplasia of the mitochondrial sheath, but it was considered normal because it was observed in all spermatozoa. Although further studies are necessary to standardize the semen evaluation of sloths and to define the best protocol for electroejaculation, this pioneering study has shown the characteristics of sloth spermatozoa and the possibility of collecting semen throughout the electroejaculation process in this species. This work was supported by Fapesp 03/07457-4.

59 IN VITRO AND IN VIVO SURVIVAL OF NELORE NUCLEAR TRANSFER EMBRYOS RECONSTRUCTED WITH ADULT AND FETAL FIBROBLASTS

Adult skin and fetal fibroblasts are the most frequently used donor cell types for bovine cloning by nuclear transfer (NT) but there are few reports concerning Nelore cattle. The aim of this study was to evaluate in vitro and in vivo viability of Nelore nuclear transfer embryos reconstructed with Metaphase II oocytes and differentiated somatic cells (adult ear and fetal fibroblasts). Oocytes from ovaries collected at slaughterhouse were matured in vitro for 17 h. Enucleation was conducted by aspiration of the first polar body (PB) and small volume of cytoplasm containing metaphase plate. For NT, each nucleus donor cell was inserted under the zona pellucida of each enucleated oocyte and the enucleated oocyte-nuclei donor cell complexes were electrofused (2 pulses of 4 KV cm-1 for 20 s). After electrical activation, the couplets were incubated in TCM199 plus 7.5% FCS supplemented with cycloheximide (10 g mL-1) and cytochalasin D (2.5 g mL-1) for 1 h and ciclohexemide alone for 4 additional hours. Immediately after activation, reconstructed embryos were co-cultured with granulosa cells in SOF + 5% FCS for 7–9 days. At 7th day of culture, some blastocysts were fixed for counting cells and some transferred into recipients. A total of 377 couplets were reconstructed from fetal and 457 from adult fibroblasts. After electrofusion, 138 (fetal cells) and 166 (adult cells) embryos were incubated, and 24 (17.4%) and 26 (15.7%) reached blastocyst stage, respectively. The blastocyst cell number means were 101.3, 120 and 114.3, respectively, for adult, fetal and IVF (control) embryos. There were no significant differences in the numbers of cells of blastocysts among the groups. After transferring 18 (fetal cells) and 21 (adult cells) blastocysts, pregnancy rates at day 90 were 16.7% (3) and 19% (4). There were no significant differences between pregnancy rates. The first pregnancy from fetal cells delivered a healthy male calf weighing 34 kg at Day 290. One of the remaining recipients died with hydrallantois at Day 229 and the other aborted at Day 252. There are four 5-month-pregnancies of adult fibroblast reconstructed embryos. These results indicate that NT embryos produced by fetal and adult fibroblasts of Nelore breed show similar rates of in vitro and in vivo developments. This work was supported by FAPESP (99/07377-3).