A research team led by Dr. Thomas Rando, director of the Eli and Edythe Broad Center of Regenerative Medicine and Stem Cell Research at UCLA, has discovered that restoring glutathione—a key antioxidant that prevents cell damage—rejuvenates old muscle stem cells. Muscle stem cells are activated to help repair damaged tissues after injury, so finding a way to make old muscle stem cells behave like young muscle stem cells could help improve the body’s ability to recover from injury when we get older.
The study found that with age, muscle stem cells in mice evolve from one population of cells into two distinct subpopulations of cells that differ in their glutathione metabolism. The cell population with high levels of glutathione are good at muscle repair while the population with low levels of the antioxidant do a poor job.
Young mice start off with one population of uniform muscle stem cells that is highly effective at muscle repair. With age, in addition to having a population of old stem cells that still behave like young cells, they acquire a second population of stem cells that is less effective at repairing muscle.
The research group identified glutathione metabolism as the main driver of this movement into two cell groups, paving the path toward a potential therapy that would prevent old impaired stem cells from ever developing in the first place.
“If all stem cells could be kept functionally young, maintaining tissue regeneration across the lifespan would be feasible,” said Rando, who is also a professor of neurology at the David Geffen School of Medicine at UCLA and a professor of molecular, cell and developmental biology in the UCLA College.
The findings are published in the peer-reviewed journal Cell Metabolism.