TY - JOUR
T1 - Isolation of human fibroadipogenic progenitors and satellite cells from frozen muscle biopsies
AU - Suárez-Calvet, X.
AU - Fernández-Simón, E.
AU - Piñol-Jurado, Patricia
AU - Alonso-Pérez, Jorge
AU - Carrasco-Rozas, Ana
AU - Lleixà, Cinta
AU - López-Fernández, Susana
AU - Pons, Gemma
AU - Soria, L.
AU - Bigot, Anne
AU - Mouly, V.
AU - Illa, Isabel
AU - Gallardo, Eduard
AU - Jaiswal, J. K.
AU - Diaz-Manera, Jordi
PY - 2021
Y1 - 2021
N2 - Skeletal muscle contains multiple cell types that work together to maintain tissue homeostasis. Among these, satellite cells (SC) and fibroadipogenic progenitors cells (FAPs) are the two main stem cell pools. Studies of these cells using animal models have shown the importance of interactions between these cells in repair of healthy muscle, and degeneration of dystrophic muscle. Due to the unavailability of fresh patient muscle biopsies, similar analysis of interactions between human FAPs and SCs is limited especially among the muscular dystrophy patients. To address this issue here we describe a method that allows the use of frozen human skeletal muscle biopsies to simultaneously isolate and grow SCs and FAPs from healthy or dystrophic patients. We show that while the purified SCs differentiate into mature myotubes, purified FAPs can differentiate into adipocytes or fibroblasts demonstrating their multipotency. We find that these FAPs can be immortalized and the immortalized FAPs (iFAPs) retain their multipotency. These approaches open the door for carrying out personalized analysis of patient FAPs and interactions with the SCs that lead to muscle loss.
AB - Skeletal muscle contains multiple cell types that work together to maintain tissue homeostasis. Among these, satellite cells (SC) and fibroadipogenic progenitors cells (FAPs) are the two main stem cell pools. Studies of these cells using animal models have shown the importance of interactions between these cells in repair of healthy muscle, and degeneration of dystrophic muscle. Due to the unavailability of fresh patient muscle biopsies, similar analysis of interactions between human FAPs and SCs is limited especially among the muscular dystrophy patients. To address this issue here we describe a method that allows the use of frozen human skeletal muscle biopsies to simultaneously isolate and grow SCs and FAPs from healthy or dystrophic patients. We show that while the purified SCs differentiate into mature myotubes, purified FAPs can differentiate into adipocytes or fibroblasts demonstrating their multipotency. We find that these FAPs can be immortalized and the immortalized FAPs (iFAPs) retain their multipotency. These approaches open the door for carrying out personalized analysis of patient FAPs and interactions with the SCs that lead to muscle loss.
KW - Duchenne muscular dystrophy
KW - Fibroadipogenic progenitors cells
KW - Muscle explant muscle biopsies
KW - Satellite cells
U2 - 10.1096/fj.202100588R
DO - 10.1096/fj.202100588R
M3 - Article
C2 - 34405910
SN - 1530-6860
VL - 35
JO - FASEB Journal
JF - FASEB Journal
IS - 9
ER -
