Communications Biology (Jun 2024)

Time-course swRNA-seq uncovers a hierarchical gene regulatory network in controlling the response-repair-remodeling after wounding

  • Xinghai Yu,
  • Jinghua Zhou,
  • Wenkai Ye,
  • Jingxiu Xu,
  • Rui Li,
  • Li Huang,
  • Yi Chai,
  • Miaomiao Wen,
  • Suhong Xu,
  • Yu Zhou

DOI
https://doi.org/10.1038/s42003-024-06352-w
Journal volume & issue
Vol. 7, no. 1
pp. 1 – 16

Abstract

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Abstract Wounding initiates intricate responses crucial for tissue repair and regeneration. Yet, the gene regulatory networks governing wound healing remain poorly understood. Here, employing single-worm RNA sequencing (swRNA-seq) across 12 time-points, we delineated a three-stage wound repair process in C. elegans: response, repair, and remodeling. Integrating diverse datasets, we constructed a dynamic regulatory network comprising 241 transcription regulators and their inferred targets. We identified potentially seven autoregulatory TFs and five cross-autoregulatory loops involving pqm-1 and jun-1. We revealed that TFs might interact with chromatin factors and form TF-TF combinatory modules via intrinsically disordered regions to enhance response robustness. We experimentally validated six regulators functioning in transcriptional and translocation-dependent manners. Notably, nhr-76, daf-16, nhr-84, and oef-1 are potentially required for efficient repair, while elt-2 may act as an inhibitor. These findings elucidate transcriptional responses and hierarchical regulatory networks during C. elegans wound repair, shedding light on mechanisms underlying tissue repair and regeneration.