Primary cilia on muscle stem cells are critical to maintain regenerative capacity and are lost during aging

AR Palla, KI Hilgendorf, AV Yang, JP Kerr… - Nature …, 2022 - nature.com
AR Palla, KI Hilgendorf, AV Yang, JP Kerr, AC Hinken, J Demeter, P Kraft, NA Mooney…
Nature Communications, 2022nature.com
During aging, the regenerative capacity of muscle stem cells (MuSCs) decreases,
diminishing the ability of muscle to repair following injury. We found that the ability of MuSCs
to regenerate is regulated by the primary cilium, a cellular protrusion that serves as a
sensitive sensory organelle. Abolishing MuSC cilia inhibited MuSC proliferation in vitro and
severely impaired injury-induced muscle regeneration in vivo. In aged muscle, a cell intrinsic
defect in MuSC ciliation was associated with the decrease in regenerative capacity …
Abstract
During aging, the regenerative capacity of muscle stem cells (MuSCs) decreases, diminishing the ability of muscle to repair following injury. We found that the ability of MuSCs to regenerate is regulated by the primary cilium, a cellular protrusion that serves as a sensitive sensory organelle. Abolishing MuSC cilia inhibited MuSC proliferation in vitro and severely impaired injury-induced muscle regeneration in vivo. In aged muscle, a cell intrinsic defect in MuSC ciliation was associated with the decrease in regenerative capacity. Exogenous activation of Hedgehog signaling, known to be localized in the primary cilium, promoted MuSC expansion, both in vitro and in vivo. Delivery of the small molecule Smoothened agonist (SAG1.3) to muscles of aged mice restored regenerative capacity leading to increased strength post-injury. These findings provide fresh insights into the signaling dysfunction in aged MuSCs and identify the ciliary Hedgehog signaling pathway as a potential therapeutic target to counter the loss of muscle regenerative capacity which accompanies aging.
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