Platelet releasate normalises the compromised muscle regeneration in a mouse model of hyperlipidaemia

Barlow, J., Sfyri, P. P., Mitchell, R., Verpoorten, S., Scully, D., Andreeou, C., Papadopoulos, P., Patel, K. and Matsakas, A. (2021) Platelet releasate normalises the compromised muscle regeneration in a mouse model of hyperlipidaemia. Experimental Physiology, 106 (3). pp. 700-713. ISSN 0958-0670 doi: 10.1113/EP088937

Abstract/Summary

Muscle satellite cells are important stem cells for skeletal muscle regeneration and repair after injury. ApoE deficient mice, an established mouse model of hyperlipidaemia and atherosclerosis, show evidence of oxidative stress-induced lessions and fat infiltration in skeletal muscle followed by impaired repair after injury. However, the mechanisms underpinning attenuated muscle regeneration remain to be fully defined. Key to addressing the latter is to understand the properties of muscle stem cells from ApoE deficient mice and their myogenic potential. Muscle stem cells from ApoE deficient mice were cultured both ex vivo (on single fibres) and in vitro (primary myoblasts) and their myogenic capacity was determined. Skeletal muscle regeneration was studied on days 5 and 10 after cardiotoxin injury. ApoE deficient muscle stem cells showed delayed activation and differentiation on single muscle fibres ex vivo. Impaired proliferation and differentiation profiles were also evident on isolated primary muscle stem cells in culture. ApoE deficient mice displayed impaired skeletal muscle regeneration after acute injury in vivo. Administration of platelet releasate in ApoE deficient mice reversed the deficits of muscle regeneration after acute injury to wild-type levels. These findings indicate that muscle stem cell myogenic potential is perturbed in skeletal muscle of a mouse model of hyperlipidaemia. We propose that platelet-releasate could be a therapeutic intervention for conditions with associated myopathy such as peripheral arterial disease.

Item Type	Article
URI	https://reading-clone.eprints-hosting.org/id/eprint/95531
Item Type	Article
Refereed	Yes
Divisions	Life Sciences > School of Biological Sciences > Biomedical Sciences
Publisher	Wiley
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