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Reproduction, Fertility and Development Reproduction, Fertility and Development Society
Vertebrate reproductive science and technology
RESEARCH ARTICLE

197 PRODUCTION OF IN VITRO- AND IN VIVO-DERIVED CAT BLASTOCYSTS FOR THE ESTABLISHMENT OF FELINE EMBRYONIC STEM CELLS

J. Kehler, M. Roelke-Parker, B. Pukazhenthi, W. Swanson, C. Ware, I. Dobrinski and S. O’Brien

Reproduction, Fertility and Development 18(2) 207 - 207
Published: 14 December 2005

Abstract

Identification and characterization of spontaneously occurring genetic diseases in cats has permitted the development of valuable models for testing potential treatments of similar human diseases. With the near completion of the feline genome project, establishment of pluripotential feline embryonic stem (ES) cells would facilitate the targeting of specific genetic loci to produce new feline medical models. Two approaches were used to produce feline blastocysts in an attempt to establish feline ES cells in culture. Naive queens were superovulated with an intramuscular (i.m.) injection of 150 IU of equine chorionic gonadotropin (eCG) followed by an i.m. injection of 100 IU of human chorionic gonadotropin (hCG) 80 h later; follicles were aspirated laparoscopically 24-26 h later for subsequent in vitro fertilization (IVF). On average, 29 mature cumulus oocyte cell complexes (COCs) were recovered from each queen. IVF was performed in 50 microliter drops of complete Hams F-10 medium containing 30 000 fresh, motile sperm. COCs were cultured overnight in 5% carbon dioxide at 38°C, and residual adherent cumulus cells were removed 12 to 16 h later by trituration in 0.1% hyaluronidase. Embryos were cultured in fresh drops of Hams F-10, and on average 25% developed to the early blastocyst stage after 7 days. Alternatively, estrus was induced in queens with a single i.m. injection of 100 IU of eCG, and then 72 h later queens were permitted six supervised matings with a fertile tom over the next two days. Queens underwent ovariohysterectomy 7 days after their first copulation, and compacted morulae and early blastocysts were flushed from the oviducts and uterine horns. On average, eight embryos were recovered from the reproductive tract of each queen. Both in vivo- and in vitro-matured blastocysts were subsequently cultured in standard mouse ES cell medium on inactivated mouse embryonic fibroblasts. When they failed to hatch in culture after 3 days, a 0.5% pronase solution was used to dissolve the zonae pellucidae under microscopic visualization. Denuded expanded blastocysts adhered to the heterotypic feeder layer and primary inner cell mass (ICM) outgrowths formed within 4 days. Outgrowths were mechanically disaggregated into small clusters of 15 to 20 cells and re-plated on fresh feeders. These colonies grew slowly and were transferred after one week onto new feeder layers. The addition of murine or human recombinant leukemia inhibitory factor had no effect on the survival and proliferation of primary outgrowths or subsequent colonies. After 3 weeks, all colonies derived from both in vivo- and in vitro-matured blastocysts had either differentiated or died. Additional experiments are ongoing to test the effects of homotypic feeder layers and alternative growth factors on promoting the establishment and survival of feline ES cell lines. Ultimately, germline transmission of any putative feline ES cell lines will need to be demonstrated in vivo for their utility in gene targeting experiments to be realized.

https://doi.org/10.1071/RDv18n2Ab197

© CSIRO 2005

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