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Histone lactylation couples cellular metabolism with developmental gene regulatory networks

Author

Listed:
  • Fjodor Merkuri

    (Cornell University
    Boston Children’s Hospital
    Harvard Medical School)

  • Megan Rothstein

    (Cornell University
    Boston Children’s Hospital
    Harvard Medical School)

  • Marcos Simoes-Costa

    (Cornell University
    Boston Children’s Hospital
    Harvard Medical School)

Abstract

Embryonic cells exhibit diverse metabolic states. Recent studies have demonstrated that metabolic reprogramming drives changes in cell identity by affecting gene expression. However, the connection between cellular metabolism and gene expression remains poorly understood. Here we report that glycolysis-regulated histone lactylation couples the metabolic state of embryonic cells with chromatin organization and gene regulatory network (GRN) activation. We found that lactylation marks genomic regions of glycolytic embryonic tissues, like the neural crest (NC) and pre-somitic mesoderm. Histone lactylation occurs in the loci of NC genes as these cells upregulate glycolysis. This process promotes the accessibility of active enhancers and the deployment of the NC GRN. Reducing the deposition of the mark by targeting LDHA/B leads to the downregulation of NC genes and the impairment of cell migration. The deposition of lactyl-CoA on histones at NC enhancers is supported by a mechanism that involves transcription factors SOX9 and YAP/TEAD. These findings define an epigenetic mechanism that integrates cellular metabolism with the GRNs that orchestrate embryonic development.

Suggested Citation

  • Fjodor Merkuri & Megan Rothstein & Marcos Simoes-Costa, 2024. "Histone lactylation couples cellular metabolism with developmental gene regulatory networks," Nature Communications, Nature, vol. 15(1), pages 1-19, December.
  • Handle: RePEc:nat:natcom:v:15:y:2024:i:1:d:10.1038_s41467-023-44121-1
    DOI: 10.1038/s41467-023-44121-1
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    References listed on IDEAS

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    1. Di Zhang & Zhanyun Tang & He Huang & Guolin Zhou & Chang Cui & Yejing Weng & Wenchao Liu & Sunjoo Kim & Sangkyu Lee & Mathew Perez-Neut & Jun Ding & Daniel Czyz & Rong Hu & Zhen Ye & Maomao He & Y. Ge, 2019. "Metabolic regulation of gene expression by histone lactylation," Nature, Nature, vol. 574(7779), pages 575-580, October.
    2. Masayuki Oginuma & Yukiko Harima & Oscar A. Tarazona & Margarete Diaz-Cuadros & Arthur Michaut & Tohru Ishitani & Fengzhu Xiong & Olivier Pourquié, 2020. "Intracellular pH controls WNT downstream of glycolysis in amniote embryos," Nature, Nature, vol. 584(7819), pages 98-101, August.
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