Muscle-derived stem/progenitor cell dysfunction in Zmpste24-deficient progeroid mice limits muscle regeneration

Abstract

Introduction. Loss of adult stem cell function during aging contributes to impaired tissue regeneration. Here, we tested the aging-related decline in regeneration potential of adult stem cells residing in the skeletal muscle. Methods. We isolated muscle-derived stem/progenitor cells (MDSPCs) from progeroid Zmpste24-deficient mice (Zmpste24§ssup§-/-§esup§) with accelerated aging phenotypes to investigate whether mutation in lamin A has an adverse effect on muscle stem/progenitor cell function. Results: Our results indicate that MDSPCs isolated from Zmpste24§ssup§-/- §esup§mice show reduced proliferation and myogenic differentiation. In addition, Zmpste24§ssup§-/- §esup§MDSPCs showed impaired muscle regeneration, with a limited engraftment potential when transplanted into dystrophic muscle, compared with wild-type (WT) MDSPCs. Exposure of progeroid Zmpste24§ssup§-/- §esup§MDSPCs to WT MDSPCs rescued the myogenic differentiation defect in vitro. Conclusions: These results demonstrate that adult stem/progenitor cell dysfunction contributes to impairment of tissue regeneration and suggest that factors secreted by functional cells are indeed important for the therapeutic effect of adult stem cells. © 2013 Song et al.; licensee BioMed Central Ltd.