Reduced mitochondrial DNA and OXPHOS protein content in skeletal muscle of children with cerebral palsy.
Ferdinand von WaldenIvan J VechettiDavis A EnglundVandré Casagrande FigueiredoRodrigo Fernandez-GonzaloKevin A MurachJessica PingelJohn J MccarthyPer S StålEva PonténPublished in: Developmental medicine and child neurology (2021)
Mitochondrial biogenesis, mtDNA, and oxidative phosphorylation protein content are reduced in CP muscle compared with typically developing muscle. Transcriptional pathways shared between aging and long-term unloading suggests metabolic dysregulation in CP, which may guide therapeutic strategies for combatting CP muscle pathology. What this paper adds Cerebral palsy (CP) muscle contains fewer energy-generating organelles than typically developing muscle. Gene expression in CP muscle is similar to aging and long-term bed rest.