Journal of Cachexia, Sarcopenia and Muscle (Dec 2021)
Advanced oxidation protein products contribute to chronic kidney disease‐induced muscle atrophy by inducing oxidative stress via CD36/NADPH oxidase pathway
Abstract
Abstract Background Sarcopenia with chronic kidney disease (CKD) progression is associated with life prognosis. Oxidative stress has attracted interest as a trigger for causing CKD‐related muscular atrophy. Advanced oxidation protein products (AOPPs), a uraemic toxin, are known to increase oxidative stress. However, the role of AOPPs on CKD‐induced muscle atrophy remains unclear. Methods In a retrospective case–control clinical study, we evaluated the relationship between serum AOPPs levels and muscle strength in haemodialysis patients with sarcopenia (n = 26, mean age ± SEM: 78.5 ± 1.4 years for male patients; n = 22, mean age ± SEM: 79.1 ± 1.5 for female patients), pre‐sarcopenia (n = 12, mean age ± SEM: 73.8 ± 2.0 years for male patients; n = 4, mean age ± SEM: 74.3 ± 4.1 for female patients) or without sarcopenia (n = 12, mean age ± SEM: 71.3 ± 1.6 years for male patients; n = 7, mean age ± SEM: 77.7 ± 1.6 for female ). The molecular mechanism responsible for the AOPPs‐induced muscle atrophy was investigated by using 5/6‐nephrectomized CKD mice, AOPPs‐overloaded mice, and C2C12 mouse myoblast cells. Results The haemodialysis patients with sarcopenia showed higher serum AOPPs levels as compared with the patients without sarcopenia. The serum AOPPs levels showed a negative correlation with grip strength (P < 0.01 for male patients, P < 0.01 for female patients) and skeletal muscle index (P < 0.01 for male patients). Serum AOPPs levels showed a positive correlation with cysteinylated albumin (Cys‐albumin), a marker of oxidative stress (r2 = 0.398, P < 0.01). In the gastrocnemius of CKD mice, muscle AOPPs levels were also increased, and it showed a positive correlation with atrogin‐1 (r2 = 0.538, P < 0.01) and myostatin expression (r2 = 0.421, P < 0.05), but a negative correlation with PGC‐1α expression (r2 = 0.405, P < 0.05). Using C2C12 cells, AOPPs increased atrogin‐1 and myostatin expression through the production of reactive oxygen species via CD36/NADPH oxidase pathway, and decreased myotube formation. AOPPs also induced mitochondrial dysfunction. In the AOPPs‐overloaded mice showed that decreasing running time and hanging time accompanied by increasing AOPPs levels and decreasing cross‐sectional area in gastrocnemius. Conclusions Advanced oxidation protein products contribute to CKD‐induced sarcopenia, suggesting that AOPPs or its downstream signalling pathway could be a therapeutic target for the treatment of CKD‐induced sarcopenia. Serum AOPPs or Cys‐albumin levels could be a new diagnostic marker for sarcopenia in CKD.
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