53 targeted screen for amino acids that regulate bovine inner cell mass development

Pluripotency relies on species-specific amino acid (AA) metabolism. In the mouse, inner cell mass (ICM) and ICM-derived pluripotent stem cells (PSCs) need threonine, which is catabolized by threonine dehydrogenase (TDH) into acetyl–CoA and glycine. Depleting (Δ) the culture medium of threonine (ΔT) or blocking TDH activity induces PSC death. By contrast, human PSCs do not survive without lysine (ΔK), leucine (ΔL), or methionine (ΔM). Since isolated bovine PSCs cannot be propagated in vitro, we screened for AAs that selectively support pluripotent ICM cells in intact bovine embryos. Five days (D5) post-IVF, embryos were transferred into glutamine-free synthetic oviduct fluid (gSOF) with Eagle’s nonessential (NE) and essential (E) AAs (gSOF_AA) plus BSA. Embryos were individually cultured until D8 under different conditions. Statistical significance was determined using Fisher’s exact test for blastocyst development (morphological grading to IETS standard) and t-tests for cell numbers (differential stain) and gene expression (quantitative or qPCR). Removal of BSA reduced grade 1–3 blastocyst (B1–3) development (37% v. 25%, n = 3; P  10-fold T-supplementation. Thus, 3-HNV protein incorporation, rather than acetyl-CoA reduction, may nonspecifically impair cellular function. In summary, we found that bovine ICM formation did not specifically depend on metabolizing threonine or any other single EAA. Research was supported by AgResearch Core Funding.