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Thome 2020 JCI Insight

From Bioblast
Publications in the MiPMap
Thome T, Kumar RA, Burke SK, Khattri RB, Salyers ZR, Kelley RC, Coleman MD, Christou DD, Hepple RT, Scali ST, Ferreira LF, Ryan TE (2020) Impaired muscle mitochondrial energetics is associated with uremic metabolite accumulation in chronic kidney disease. JCI Insight 6:e139826.

Β» PMID: 33290279 Open Access

Thome Trace, Kumar Ravi A, Burke Sarah K, Khattri Ram B, Salyers Zachary R, Kelley Rachel C, Coleman Madeline D, Christou Demetra D, Hepple Russel T, Scali Salvatore T, Ferreira Leonardo F, Ryan Terence E (2020) JCI Insight

Abstract: Chronic kidney disease (CKD) results in a progressive skeletal myopathy involving atrophy, weakness, and fatigue. Mitochondria have been thought to contribute to skeletal myopathy, however, the molecular mechanisms underlying changes in muscle metabolism in CKD are unknown. This study employed a comprehensive mitochondrial phenotyping platform to elucidate the mechanisms of skeletal muscle mitochondrial impairment in mice with adenine-induced CKD. CKD mice displayed significant reductions in mitochondrial oxidative phosphorylation (OXPHOS), which was strongly correlated with glomerular filtration rate, suggesting a link between kidney function and muscle mitochondrial health. Biochemical assays uncovered that OXPHOS dysfunction was driven principally by reduced activity of matrix dehydrogenases. Untargeted metabolomics analyses in skeletal muscle revealed a distinct metabolite profile in CKD muscle including accumulation of uremic toxins that strongly associated with the degree of mitochondrial impairment. Additional muscle phenotyping found that CKD mice experienced muscle atrophy and increased muscle protein degradation, but only male CKD mice had lower maximal contractile force. CKD mice also had morphological changes indicative of destabilization in the neuromuscular junction. This study provides the first comprehensive evaluation of mitochondrial health in murine CKD muscle and uncovers several unknown uremic metabolites that are strongly associated with the degree of mitochondrial impairment. β€’ Keywords: Bioenergetics, Mitochondria, Muscle Biology, Nephrology, Skeletal muscle β€’ Bioblast editor: Plangger M β€’ O2k-Network Lab: US FL Gainesville Ryan TE


Labels: MiParea: Respiration  Pathology: Myopathy, Other 

Organism: Mouse  Tissue;cell: Skeletal muscle  Preparation: Isolated mitochondria 

Regulation: PCr;Cr  Coupling state: LEAK, OXPHOS  Pathway: F, N, S  HRR: Oxygraph-2k 

2020-12