1. Regenerating human skeletal muscle forms an emerging niche in vivo to support PAX7 cells
- Author
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Hicks, Michael R, Saleh, Kholoud K, Clock, Ben, Gibbs, Devin E, Yang, Mandee, Younesi, Shahab, Gane, Lily, Gutierrez-Garcia, Victor, Xi, Haibin, and Pyle, April D
- Subjects
Biochemistry and Cell Biology ,Biological Sciences ,Stem Cell Research - Nonembryonic - Non-Human ,Stem Cell Research - Embryonic - Human ,Stem Cell Research - Induced Pluripotent Stem Cell ,Regenerative Medicine ,Stem Cell Research ,Pediatric ,Rare Diseases ,Transplantation ,Musculoskeletal ,Animals ,Humans ,Mice ,Muscle ,Skeletal ,PAX7 Transcription Factor ,Pluripotent Stem Cells ,Satellite Cells ,Skeletal Muscle ,Regeneration ,Medical and Health Sciences ,Developmental Biology ,Biochemistry and cell biology - Abstract
Skeletal muscle stem and progenitor cells including those derived from human pluripotent stem cells (hPSCs) offer an avenue towards personalized therapies and readily fuse to form human-mouse myofibres in vivo. However, skeletal muscle progenitor cells (SMPCs) inefficiently colonize chimeric stem cell niches and instead associate with human myofibres resembling foetal niches. We hypothesized competition with mouse satellite cells (SCs) prevented SMPC engraftment into the SC niche and thus generated an SC ablation mouse compatible with human engraftment. Single-nucleus RNA sequencing of SC-ablated mice identified the absence of a transient myofibre subtype during regeneration expressing Actc1. Similarly, ACTC1+ human myofibres supporting PAX7+ SMPCs increased in SC-ablated mice, and after re-injury we found SMPCs could now repopulate into chimeric niches. To demonstrate ACTC1+ myofibres are essential to supporting PAX7 SMPCs, we generated caspase-inducible ACTC1 depletion human pluripotent stem cells, and upon SMPC engraftment we found a 90% reduction in ACTC1+ myofibres and a 100-fold decrease in PAX7 cell numbers compared with non-induced controls. We used spatial RNA sequencing to identify key factors driving emerging human niche formation between ACTC1+ myofibres and PAX7+ SMPCs in vivo. This revealed that transient regenerating human myofibres are essential for emerging niche formation in vivo to support PAX7 SMPCs.
- Published
- 2023