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Rewiring of 3D chromatin topology orchestrates transcriptional reprogramming in muscle fiber-type specification and transformation

Author

Listed:
  • Baohua Tan

    (South China Agricultural University
    South China Agricultural University
    South China Agricultural University
    Guangzhou Medical University)

  • Linjun Hong

    (South China Agricultural University
    South China Agricultural University
    South China Agricultural University)

  • Liyao Xiao

    (South China Agricultural University
    South China Agricultural University
    South China Agricultural University)

  • Jiajin Wu

    (South China Agricultural University
    South China Agricultural University
    South China Agricultural University)

  • Geyan Lu

    (South China Agricultural University
    South China Agricultural University
    South China Agricultural University)

  • Shanshan Wang

    (Hubei University)

  • Langqing Liu

    (South China Agricultural University
    South China Agricultural University
    South China Agricultural University)

  • Enqin Zheng

    (South China Agricultural University
    South China Agricultural University
    South China Agricultural University)

  • Gengyuan Cai

    (South China Agricultural University
    South China Agricultural University
    South China Agricultural University)

  • Zicong Li

    (South China Agricultural University
    South China Agricultural University
    South China Agricultural University)

  • Ting Gu

    (South China Agricultural University
    South China Agricultural University
    South China Agricultural University)

  • Zhenfang Wu

    (South China Agricultural University
    South China Agricultural University
    South China Agricultural University)

Abstract

The composition of muscle fibers, characterized by distinct contractile and metabolic properties, significantly influences meat quality and glucose homeostasis. However, the mechanisms by which three-dimensional (3D) genome topology integrates with epigenetic states to regulate muscle fiber specification and transformation remain poorly understood. Here, we present an integrative analysis of the transcriptome, epigenome, and 3D genome architecture in the slow-twitch glycolytic extensor digitorum longus (EDL) and fast-twitch oxidative soleus (SOL) muscles of the pig (Sus scrofa). Global remodeling of enhancer-promoter (E-P) interactions emerged as a central driver of transcriptional reprogramming associated with muscle contraction and glucose metabolism. We identified tissue-specific super-enhancers (SEs) that regulate muscle fiber-type specification through cooperation of chromatin looping and transcription factors such as KLF5. Notably, the SE-driven activation of STARD7 facilitated the transformation of glycolytic fibers into oxidative fibers by mitigating reactive oxygen species levels and suppressing ERK MAPK signaling. This study elucidates the principles of 3D genome organization in the epigenetic regulation of muscle fiber specification and transformation, providing a foundation for novel therapeutic strategies targeting metabolic disorders and enhancing meat quality.

Suggested Citation

  • Baohua Tan & Linjun Hong & Liyao Xiao & Jiajin Wu & Geyan Lu & Shanshan Wang & Langqing Liu & Enqin Zheng & Gengyuan Cai & Zicong Li & Ting Gu & Zhenfang Wu, 2025. "Rewiring of 3D chromatin topology orchestrates transcriptional reprogramming in muscle fiber-type specification and transformation," Nature Communications, Nature, vol. 16(1), pages 1-18, December.
    • Handle: RePEc:nat:natcom:v:16:y:2025:i:1:d:10.1038_s41467-025-60866-3
    DOI: 10.1038/s41467-025-60866-3
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