R.S. Denniston

Production of goats by somatic cell nuclear transfer

In this study, we demonstrate the production of transgenic goats by nuclear transfer of fetal somatic cells. Donor karyoplasts were obtained from a primary fetal somatic cell line derived from a 40-day transgenic female fetus produced by artificial insemination of a nontransgenic adult female with semen from a transgenic male. Live offspring were produced with two nuclear transfer procedures. In one protocol, oocytes at the arrested metaphase II stage were enucleated, electrofused with donor somatic cells, and simultaneously activated. In the second protocol, activated in vivo oocytes were enucleated at the telophase II stage, electrofused with donor somatic cells, and simultaneously activated a second time to induce genome reactivation. Three healthy identical female offspring were born. Genotypic analyses confirmed that all cloned offspring were derived from the donor cell line. Analysis of the milk of one of the transgenic cloned animals showed high-level production of human antithrombin III, similar to the parental transgenic line.

Transvaginal ultrasound-guided oocyte retrieval following FSH stimulation of domestic goats☆

The objectives of this study were to evaluate different ovarian stimulation protocols on donor goats and to develop a safe, repeatable method for harvesting oocytes from FSH-treated does (Experiment I). Based on the preliminary findings of the first experiment, 32 crossbred does were used in a second experiment (Experiment II), 16 that had not been previously aspirated and 16 that had undergone one previous aspiration, were used to fine tune the procedure. Females were randomly subjected to 1 of the 2 ovarian stimulation protocols: Treatment (A) does were implanted with a norgestomet ear implant. Starting 10 d post-implantation, does were administered FSH daily for 4 d. Does in Treatment (B) were treated similarly to those in (A) but were implanted for only 3 d before starting the FSH injections and implants were not removed prior to aspiration. Using a 2 x 2 factorial arrangement, fresh does (n=16), not previously aspirated, were then further randomly assigned to either a laparoscopic aspiration procedure (LAP) or a transvaginal ultrasound-guided aspiration procedure (TUGA). The LAP procedure was performed using a fiber optics. For the TUGA, the doe was placed in dorsal recumbency, and a 5 MHz human transvaginal transducer, attached to the ultrasound unit, was positioned vaginally for oocyte aspiration. In summary, there was no significant difference among treatment groups for parameters evaluated, with the exception of methods for oocyte collection. The number of follicles detected and oocytes harvested using TUGA (9.5 and 4.3, respectively) was less than for females obtained by LAP (17.4 and 14.4, respectfully). The percentage of oocytes recovered from does subjected to the TUGA (68%), however, was similar to those subjected to the LAP (69%). Unlike donor does subjected to a repeated LAP, there was no evidence of adhesions in donor does from the repeated TUGA group. The TUGA approach to oocyte collection should not be overlooked in an effort to decrease the chances of adhesions in valuable donor goats.

Production of nuclear transfer llama (lama glama) embryos from in vitro matured llama oocytes.

To date, there have been no reports of somatic cell nuclear transfer in llamas. The application of this methodology to the camelid industry could be helpful in the propagation of genetically valuable animals. The objective of this study was to produce nuclear transfer llama embryos comparing the development of these llama embryos cultured in either CR1aa medium (treatment A) or G1.2 medium (treatment B) medium. Llamas were superstimulated by double dominant follicle reduction 12 days apart, followed by pFSH administered in daily descending doses over a 3-day interval (total dose of 200 mg). Animals were ovariectomized by flank laparotomy, follicles were aspirated from excised ovaries and oocytes were in vitro matured for a 30-h period. Adult female llama fibroblasts were used as donor karyoplasts and injected into enucleated llama oocytes. Embryo development was assessed after 2 days of culture. A total of 307 follicles were aspirated from nine treated females, resulting in 298 (97%) oocytes recovered. Of a total of 229 evaluated oocytes, 120 (52%) achieved nuclear maturation. Of a total of 80 reconstructed couplets, 50 (62.5%) were successfully fused. Subsequent cleavage rates were 32 and 40% for treatments A and B, respectively, with no significant difference (p < 0.05) detected between treatment groups. A total of 11 embryos (8-cell to morula stages) were transferred to synchronized recipient llamas. Ultrasonography at 14 days post-transfer indicated that no pregnancies were established. This study shows that nuclear transfer can be successfully applied to the production of llama embryos. Further research is needed to identify optimal parameters to improve efficiency of nuclear transfer in this species.

A simple method for in vitro maturation, in vitro fertilization, and co-culture of bovine oocytes

An efficient procedure has been developed and subsequently simplified for in vitro maturation and in vitro fertilization (IVF) of bovine follicular oocytes obtained from abattoir ovaries. After in vitro fertilization, successful cleavage and in vitro development were obtained using a simple and efficient cumulus cell co-culture method, which consistently produced 45 to 50% morulae during the treatment and culture of over 6000 bovine oocytes. Embryonic cell number for IVF-derived embryos was monitored at different stages of in vitro development during cumulus cell co-culture to evaluate embryo growth and assess embryo quality.