Oct-4 expression in equine embryonic cells
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The Oct-4 transcription factor is believed to co-regulate early embryonic development of mammals due to the correlation of its presence with the maintenance of pluripotency. It is commonly used as a marker for the identification of embryonic stem (ES) cells for this reason. Until 1999, Oct-4 studies were limited to in vivo-produced embryos; equine embryos have not been studied for their Oct-4 expression patterns. In addition, equine stem-like cells (defined by marker expression, induced differentiation, passage survival, and morphology) have recently been isolated from in vivo-produced embryos, but no work has been performed in horses to isolate ES cells from in vitroproduced embryos. This study investigated the expression of Oct-4 transcription factor using immunocytochemistry in 42 in vitro-produced embryos aged 1-10 days and in 5 in vivoproduced blastocysts aged 7-10 days. Effective conditions for rapid establishment of a feeder layer of equine fetal fibroblasts were established, and this feeder layer was used to grow isolated equine inner cell mass (ICM) cells from in vitro-produced embryos. The expression of Oct-4 was examined in resultant cell growths. In vitro-produced embryos less than 6 days of age showed variable staining within blastomeres of the same embryo, and the peak of variability correlated with maternal-zygotic transition. After Oct-4 staining of in vitro-produced blastocysts, no cells could be identified as an ICM based on a difference in fluorescent intensity from the other cells of the blasyocysts. However, in vitro-produced blastocysts that were subsequently cultured in vivo contained a presumptive ICM, visible based on greater fluorescent intensity of Oct-4 stain. The trophoblast of all blastocysts also stained positively for Oct-4 protein. Fibroblasts were successfully isolated from equine feti. Treatment with 20 ÃÂµg/ml of Mitomycin C arrested cell growth without causing excessive death. Fibroblasts were inactivated and frozen, then thawed as needed to establish a confluent monolayer for ICM isolation overnight. ICMs from in vitro-produced embryos formed outgrowths, but none that could be identified morphologically as ES cells. Outgrowth cells contained about 20% Oct-4 expressing cells in sporadic groupings. Assuming appropriate binding of the Oct-4 antibody, Oct-4 expressing cells (potentially indicating pluripotency) are found throughout the embryo in early development and in the feeder layer after co-culture.
Harding, Heather Darby (2005). Oct-4 expression in equine embryonic cells. Master's thesis, Texas A&M University. Texas A&M University. Available electronically from