Abstract
Chronic kidney disease (CKD) substantially increases the severity of peripheral arterial disease (PAD) symptomology, however, the biological mechanisms remain unclear. The objective herein was to determine the impact of CKD on PAD pathology in mice. C57BL6/J mice were subjected to a diet-induced model of CKD by delivery of adenine for six weeks. CKD was confirmed by measurements of glomerular filtration rate, blood urea nitrogen, and kidney histopathology. Mice with CKD displayed lower muscle force production and greater ischemic lesions in the tibialis anterior muscle (78.1 ± 14.5% vs. 2.5 ± 0.5% in control mice, P < 0.0001, N = 5–10/group) and decreased myofiber size (1661 ± 134 μm2 vs. 2221 ± 100 μm2 in control mice, P < 0.01, N = 5–10/group). This skeletal myopathy occurred despite normal capillary density (516 ± 59 vs. 466 ± 45 capillaries/20x field of view) and limb perfusion. CKD mice displayed a ~50–65% reduction in muscle mitochondrial respiratory capacity in ischemic muscle, whereas control mice had normal mitochondrial function. Hydrogen peroxide emission was modestly higher in the ischemic muscle of CKD mice, which coincided with decreased oxidant buffering. Exposure of cultured myotubes to CKD serum resulted in myotube atrophy and elevated oxidative stress, which were attenuated by mitochondrial-targeted therapies. Taken together, these findings suggest that mitochondrial impairments caused by CKD contribute to the exacerbation of ischemic pathology.
Highlights
Chronic kidney disease (CKD) substantially increases the severity of peripheral arterial disease (PAD) symptomology, the biological mechanisms remain unclear
Our previous work uncovered a role of skeletal muscle mitochondria and mitochondrial-derived oxidative stress in the worsening of skeletal myopathy observed in diabetic mice, another strong risk factor for PAD26
There is an abundance of clinical and epidemiological data demonstrating that chronic kidney disease (CKD) is linked to worsened health outcomes in PAD patients[3,5,6,7,8,9,11,12,43], the biological mechanisms are not known
Summary
Chronic kidney disease (CKD) substantially increases the severity of peripheral arterial disease (PAD) symptomology, the biological mechanisms remain unclear. Chronic kidney disease (CKD) has been reported to accelerate the development of atherosclerosis, decrease functional capacity and increase the risk of amputation or death in PAD patients[3,4,5]. Our previous work uncovered a role of skeletal muscle mitochondria and mitochondrial-derived oxidative stress in the worsening of skeletal myopathy observed in diabetic mice, another strong risk factor for PAD26. Coupled with this body of work, emerging pre-clinical studies have demonstrated that therapeutically targeting ischemic skeletal muscle metabolism can improve limb blood flow recovery and reduce/prevent tissue necrosis[27,28]. We aimed to evaluate the impact of renal dysfunction on the development of skeletal myopathy in mice subjected to femoral artery ligation, a mouse model of PAD
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