Hox11-expressing interstitial cells contribute to adult skeletal muscle at homeostasis

Abstract

AbstractAdult skeletal muscle possesses remarkable regenerative capacity. This is attributed to tissue-specific stem cells, satellite cells. Interstitial stromal cells also play critical roles in muscle, and we have previously reported that Hoxa11 and Hoxd11, expressed in the interstitial cells of muscles that attach to the zeugopod (radius and ulna), are critical for the proper patterning and development of these muscles during embryogenesis. Using a Hoxa11eGFP knock-in reporter, we show that expression continues in a subset of muscle interstitial cells through adult stages. Using Hoxa11-CreERT2 mediated lineage reporting induced at adult stages, we observe lineage initiation only in the interstitial cells of muscle, as expected. However, this Hoxa11-expressing interstitial cell lineage progressively contributes to muscle fibers at postnatal and adult stages. The contribution to these muscles at adult homeostasis significantly exceeds parallel Pax7-CreERT2 mediated lineage labeling performed in parallel. To confirm that interstitial cell nuclear contents are contributed to muscle fibers, we additionally used the nuclear specific lineage reporter, ROSA-LSL-H2BmCherry with Hoxa11-CreERT2 and observe that Hoxa11-expressing interstitial cells contribute their nuclei to myofibers. Hox lineage contribution is observed into all four muscle sub-types over months of lineage labeling. At no point after Hoxa11-mediated lineage induction do we observe lineage labeling into Pax7-expressing satellite cells. This adds to a small but growing body of evidence that supports a satellite cell-independent source of muscle tissue in vivo.Summary StatementHoxa11 expression marks a novel population of muscle interstitial cells capable of extensive, satellite cell-independent contribution to skeletal muscle fibers during adult homeostasis.