Sialylation is dispensable for early murine embryonic development in vitro

M Abeln, KM Borst, S Cajic, H Thiesler, E Kats… - …, 2017 - Wiley Online Library
M Abeln, KM Borst, S Cajic, H Thiesler, E Kats, I Albers, M Kuhn, V Kaever, E Rapp
Chembiochem, 2017Wiley Online Library
The negatively charged nonulose sialic acid (Sia) is essential for murine development in
vivo. In order to elucidate the impact of sialylation on differentiation processes in the
absence of maternal influences, we generated mouse embryonic stem cell (mESC) lines that
lack CMP‐Sia synthetase (CMAS) and thereby the ability to activate Sia to CMP‐Sia. Loss of
CMAS activity resulted in an asialo cell surface accompanied by an increase in
glycoconjugates with terminal galactosyl and oligo‐LacNAc residues, as well as intracellular …
Abstract
The negatively charged nonulose sialic acid (Sia) is essential for murine development in vivo. In order to elucidate the impact of sialylation on differentiation processes in the absence of maternal influences, we generated mouse embryonic stem cell (mESC) lines that lack CMP‐Sia synthetase (CMAS) and thereby the ability to activate Sia to CMP‐Sia. Loss of CMAS activity resulted in an asialo cell surface accompanied by an increase in glycoconjugates with terminal galactosyl and oligo‐LacNAc residues, as well as intracellular accumulation of free Sia. Remarkably, these changes did not impact intracellular metabolites or the morphology and transcriptome of pluripotent mESC lines. Moreover, the capacity of Cmas−/− mESCs for undirected differentiation into embryoid bodies, germ layer formation and even the generation of beating cardiomyocytes provides first and conclusive evidence that pluripotency and differentiation of mESC in vitro can proceed in the absence of (poly)sialoglycans.
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