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Glycolysis–Wnt signaling axis tunes developmental timing of embryo segmentation

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Item Type:Preprint
Title:Glycolysis–Wnt signaling axis tunes developmental timing of embryo segmentation
Creators Name:Miyazawa, H., Rada, J., Sanchez, P.G.L., Esposito, E., Bunina, D., Girardot, C., Zaugg, J. and Aulehla, A.
Abstract:The question of how metabolism impacts development is seeing a renaissance. How metabolism exerts instructive signaling functions is one of the central issues that need to be resolved. We tackled this question in the context of mouse embryonic axis segmentation. Previous studies have shown that changes in central carbon metabolism impact Wnt signaling and the period of the segmentation clock, which controls the timing of axis segmentation. Here, we reveal that glycolysis tunes the segmentation clock period in an anti-correlated manner: higher glycolytic flux slows down the clock, and vice versa. Transcriptome and gene regulatory network analyses identified Wnt signaling and specifically the transcription factor Tcf7l2, previously associated with increased risk for diabetes, as potential mechanisms underlying flux-dependent control of the clock period. Critically, we show that deletion of the Wnt antagonist Dkk1 rescued the slow segmentation clock phenotype caused by increased glycolysis, demonstrating that glycolysis instructs Wnt signaling to control the clock period. In addition, we demonstrate metabolic entrainment of the segmentation clock: periodic changes in the levels of glucose or glycolytic sentinel metabolite fructose 1,6-bisphosphate (FBP) synchronize signaling oscillations. Notably, periodic FBP pulses first entrained Wnt signaling oscillations and subsequently Notch signaling oscillations. We hence conclude that metabolic entrainment has an immediate, specific effect on Wnt signaling. Combined, our work identifies a glycolysis-FBP-Wnt signaling axis that tunes developmental timing, highlighting the instructive signaling role of metabolism in embryonic development.
Keywords:Animals, Mice
Source:bioRxiv
Publisher:Cold Spring Harbor Laboratory Press
Article Number:2024.01.22.576629v2
Date:23 January 2024
Official Publication:https://doi.org/10.1101/2024.01.22.576629

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