PRODUCTION OF NUCLEAR TRANSFER LLAMA (LAMA GLAMA) EMBRYOS FROM IN VITRO MATURED LLAMA OOCYTES

M.J. SANSINENA, S.A. TAYLOR, P.J. TAYLOR, R.S. DENNISTON, R.A. GODKE

CLONING AND STEM CELLS

MARY ANN LIEBERT INC

Año: 2003 vol. 5 p. 191 - 198

1536-2302

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.