%0 Journal Article %A Vera A. van der Weijden %A Maximilian Stoetzel %A Beatrix Fauler %A Dhanur P. Iyer %A Mohammed Shahraz %A David Meierhofer %A Steffen Rulands %A Theodore Alexandrov %A Thorsten Mielke %A Aydan Bulut-Karslioglu %T Metabolic enhancement of mammalian developmental pausing %D 2022 %R 10.1101/2022.08.22.504730 %J bioRxiv %P 2022.08.22.504730 %X The quest to model and modulate embryonic development became a recent cornerstone of stem cell and developmental biology. Mammalian developmental timing is adjustable in vivo by preserving preimplantation embryos in a dormant state called diapause. Inhibition of the growth regulator mTOR (mTORi) pauses mouse development in vitro, yet constraints to pause duration are unrecognized. By comparing the response of embryonic and extraembryonic stem cells to mTORi-induced pausing, we identified lipid usage as a bottleneck to developmental pausing. Enhancing fatty acid oxidation (FAO) boosts embryo longevity, while blocking it reduces the pausing capacity. Genomic and metabolic analyses of single embryos point toward a deeper dormant state in FAO-enhanced pausing and reveal a link between lipid metabolism and embryo morphology. Our results lift a constraint on in vitro embryo survival and suggest that lipid metabolism may be a critical metabolic transition relevant for longevity and stem cell function across tissues.One-Sentence Summary Facilitating fatty acid oxidation by carnitine supplementation enhances mTOR inhibition-mediated developmental pausing.Competing Interest StatementThe authors have declared no competing interest. %U https://www.biorxiv.org/content/biorxiv/early/2022/08/23/2022.08.22.504730.full.pdf