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Aging induces aberrant state transition kinetics in murine muscle stem cells.


ABSTRACT: Murine muscle stem cells (MuSCs) experience a transition from quiescence to activation that is required for regeneration, but it remains unknown if the trajectory and dynamics of activation change with age. Here, we use time-lapse imaging and single cell RNA-seq to measure activation trajectories and rates in young and aged MuSCs. We find that the activation trajectory is conserved in aged cells, and we develop effective machine-learning classifiers for cell age. Using cell-behavior analysis and RNA velocity, we find that activation kinetics are delayed in aged MuSCs, suggesting that changes in stem cell dynamics may contribute to impaired stem cell function with age. Intriguingly, we also find that stem cell activation appears to be a random walk-like process, with frequent reversals, rather than a continuous linear progression. These results support a view of the aged stem cell phenotype as a combination of differences in the location of stable cell states and differences in transition rates between them.

SUBMITTER: Kimmel JC 

PROVIDER: S-EPMC7225128 | biostudies-literature | 2020 May

REPOSITORIES: biostudies-literature

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Aging induces aberrant state transition kinetics in murine muscle stem cells.

Kimmel Jacob C JC   Hwang Ara B AB   Scaramozza Annarita A   Marshall Wallace F WF   Brack Andrew S AS  

Development (Cambridge, England) 20200505 9


Murine muscle stem cells (MuSCs) experience a transition from quiescence to activation that is required for regeneration, but it remains unknown if the trajectory and dynamics of activation change with age. Here, we use time-lapse imaging and single cell RNA-seq to measure activation trajectories and rates in young and aged MuSCs. We find that the activation trajectory is conserved in aged cells, and we develop effective machine-learning classifiers for cell age. Using cell-behavior analysis and  ...[more]

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