Abstract
Bovine embryonic stem cells (bESCs) extend the lifespan of the transient pluripotent bovine inner cell mass in vitro. After years of research, derivation of stable bESCs was only recently reported. Although successful, bESC culture relies on complex culture conditions that require a custom-made base medium and mouse embryonic fibroblasts (MEF) feeders, limiting the widespread use of bESCs. We report here simplified bESC culture conditions based on replacing custom base medium with a commercially available alternative and eliminating the need for MEF feeders by using a chemically-defined substrate. bESC lines were cultured and derived using a base medium consisting of N2B27 supplements and 1% BSA (NBFR-bESCs). Newly derived bESC lines were easy to establish, simple to propagate and stable after long-term culture. These cells expressed pluripotency markers and actively proliferated for more than 35 passages while maintaining normal karyotype and the ability to differentiate into derivatives of all three germ lineages in embryoid bodies and teratomas. In addition, NBFR-bESCs grew for multiple passages in a feeder-free culture system based on vitronectin and Activin A medium supplementation while maintaining pluripotency. Simplified conditions will facilitate the use of bESCs for gene editing applications and pluripotency and lineage commitment studies.
Highlights
Bovine embryonic stem cells extend the lifespan of the transient pluripotent bovine inner cell mass in vitro
CTFR-Bovine embryonic stem cells (bESCs) adapted to N2B27 medium supplemented with 5% or 10% KSR maintained proliferation rate but grew in non-compact colonies with undefined borders, making the identification of Embryonic stem cells (ESCs) among mouse embryonic fibroblasts (MEF) feeders difficult
The higher BSA concentration (0.5%) resulted in more homogenous expression of pluripotency markers and larger colonies. These results indicate that N2B27 base medium supplemented with BSA supports self-renewal of bESCs
Summary
Bovine embryonic stem cells (bESCs) extend the lifespan of the transient pluripotent bovine inner cell mass in vitro. Derived bESC lines were easy to establish, simple to propagate and stable after long-term culture These cells expressed pluripotency markers and actively proliferated for more than 35 passages while maintaining normal karyotype and the ability to differentiate into derivatives of all three germ lineages in embryoid bodies and teratomas. Recombinant fibronectin has shown to support proliferation of mouse and human PSCs, and the recently derived bovine expanded potential stem cells (EPSCs)[7,8,9]. It remains unknown if bESCs can be adapted to other feeder-independent culture conditions that support their pluripotency
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