Nature Communications (Mar 2025)

MCL‑1 safeguards activated hair follicle stem cells to enable adult hair regeneration

  • Hui San Chin,
  • Jinming Cheng,
  • Shih Han Hsu,
  • Guo Guang Lum,
  • Maria TK Zaldivia,
  • Sarmilla Nelameham,
  • Fusheng Guo,
  • Keerthana Mallavarapu,
  • Felicity C. Jackling,
  • Jicheng Yang,
  • Jonathan S. L. Tan,
  • Prabha Sampath,
  • Nick Barker,
  • Gordon K. Smyth,
  • Geoffrey J. Lindeman,
  • Andreas Strasser,
  • Jane E. Visvader,
  • Yunshun Chen,
  • Ting Chen,
  • Nai Yang Fu

DOI
https://doi.org/10.1038/s41467-025-58150-5
Journal volume & issue
Vol. 16, no. 1
pp. 1 – 20

Abstract

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Abstract Hair follicles cycle through expansion, regression and quiescence. To investigate the role of MCL‑1, a BCL‑2 family protein with anti‑apoptotic and apoptosis‑unrelated functions, we delete Mcl‑1 within the skin epithelium using constitutive and inducible systems. Constitutive Mcl‑1 deletion does not impair hair follicle organogenesis but leads to gradual hair loss and elimination of hair follicle stem cells. Acute Mcl‑1 deletion rapidly depletes activated hair follicle stem cells and completely blocks depilation‑induced hair regeneration in adult mice, while quiescent hair follicle stem cells remain unaffected. Single‑cell RNA‑seq profiling reveals the engagement of P53 and DNA mismatch repair signaling in hair follicle stem cells upon depilation‑induced activation. Trp53 deletion rescues hair regeneration defects caused by acute Mcl‑1 deletion, highlighting a critical interplay between P53 and MCL‑1 in balancing proliferation and death. The ERBB pathway plays a central role in sustaining the survival of adult activated hair follicle stem cells by promoting MCL‑1 protein expression. Remarkably, the loss of a single Bak allele, a pro‑apoptotic Bcl‑2 effector gene, rescues Mcl‑1 deletion‑induced defects in both hair follicles and mammary glands. These findings demonstrate the pivotal role of MCL‑1 in inhibiting proliferation stress‑induced apoptosis when quiescent stem cells activate to fuel tissue regeneration.