Cell Reports (Mar 2024)

Liver-derived plasminogen mediates muscle stem cell expansion during caloric restriction through the plasminogen receptor Plg-RKT

  • Akshay Bareja,
  • David E. Lee,
  • Tricia Ho,
  • Greg Waitt,
  • Lauren H. McKay,
  • Sarah A. Hannou,
  • Melissa C. Orenduff,
  • Kristen M. McGreevy,
  • Alexandra Binder,
  • Calen P. Ryan,
  • Erik J. Soderblom,
  • Daniel W. Belsky,
  • Luigi Ferrucci,
  • Jayanta Kumar Das,
  • Nirad Banskota,
  • Virginia B. Kraus,
  • Janet L. Huebner,
  • William E. Kraus,
  • Kim M. Huffman,
  • Gurpreet S. Baht,
  • Steve Horvath,
  • Robert J. Parmer,
  • Lindsey A. Miles,
  • James P. White

Journal volume & issue
Vol. 43, no. 3
p. 113881

Abstract

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Summary: An intriguing effect of short-term caloric restriction (CR) is the expansion of certain stem cell populations, including muscle stem cells (satellite cells), which facilitate an accelerated regenerative program after injury. Here, we utilized the MetRSL274G (MetRS) transgenic mouse to identify liver-secreted plasminogen as a candidate for regulating satellite cell expansion during short-term CR. Knockdown of circulating plasminogen prevents satellite cell expansion during short-term CR. Furthermore, loss of the plasminogen receptor KT (Plg-RKT) is also sufficient to prevent CR-related satellite cell expansion, consistent with direct signaling of plasminogen through the plasminogen receptor Plg-RKT/ERK kinase to promote proliferation of satellite cells. Importantly, we are able to replicate many of these findings in human participants from the CALERIE trial. Our results demonstrate that CR enhances liver protein secretion of plasminogen, which signals directly to the muscle satellite cell through Plg-RKT to promote proliferation and subsequent muscle resilience during CR.

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