In mammals, early embryonic gastrulation process is high energy demanding. Previous studies showed that, unlike endoderm and mesoderm cells, neuroectoderm differentiated from human embryonic stem cells relied on aerobic glycolysis as the major energy metabolic process, which generates lactate as the final product. Here we explored the function of intracellular lactate during neuroectoderm differentiation. Our results revealed that the intracellular lactate level was elevated in neuroectoderm and exogenous lactate could further promote hESCs differentiation towards neuroectoderm. Changing intracellular lactate levels by sodium lactate or LDHA inhibitors had no obvious effect on BMP or WNT/β-catenin signaling during neuroectoderm differentiation. Notably, histone lactylation, especially H3K18 lactylation was significant upregulated during this process. We further performed CUT&Tag experiments and the results showed that H3K18la is highly enriched at gene promoter regions. By analyzing data from CUT&Tag and RNA-seq experiments, we further identified that four genes, including PAX6, were transcriptionally upregulated by lactate during neuroectoderm differentiation. A H3K18la modification site at PAX6 promoter was verified and exogenous lactate could also rescue the level of PAX6 after shPAX6 inhibition.
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| http://dx.doi.org/10.1007/s00018-024-05510-x | DOI Listing |
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