Abstract
SummaryInsufficient regeneration is implicated in muscle pathologies, but much remains unknown about the regenerative output of individual muscle stem cells, called satellite cells (SCs). Prior work showed that individual SCs contribute to regeneration of more than one muscle fiber (“fiber-crossing”) after full-muscle damage. We investigated whether fiber-crossing also occurred in peripheral regions of a localized muscle injury. To assess fiber-crossing with a minimum number of mice, we used lineage tracing with confetti fluorescence, and developed a novel stochastic modeling method to interpret the ambiguity of multi-color fluorescent lineage tags. Microscopy of the regenerated muscle showed that adjacent fibers often expressed the same-colored tags. Computational analysis concluded that the observed color patches would be extremely unlikely to occur by chance unless SCs contributed myonuclei to multiple adjacent fibers (26-33% of SCs contributing to at most 1-2 additional fibers). Interestingly, these results were similar across the different regions studied, suggesting that severe destruction is not required for fiber-crossing. Our method to assess fiber-crossing may be useful for future study of gene and cell therapies that use fiber-crossing to aid muscle regeneration.
Publisher
Cold Spring Harbor Laboratory