Aerobic exercise prevents renal osteodystrophy via irisin-activated osteoblasts
Meng Wu, Huilan Li, Xiaoting Sun, Rongrong Zhong, Linli Cai, Ruibo Chen, Madiya Madeniyet, Kana Ren, Zhen Peng, Yujie Yang, Weiqin Chen, Yanling Tu, Miaoxin Lai, Jinxiu Deng, Yuting Wu, Shumin Zhao, Qingyan Ruan, Mei Rao, Sisi Xie, Ying Ye, Jianxin Wan
Meng Wu, Huilan Li, Xiaoting Sun, Rongrong Zhong, Linli Cai, Ruibo Chen, Madiya Madeniyet, Kana Ren, Zhen Peng, Yujie Yang, Weiqin Chen, Yanling Tu, Miaoxin Lai, Jinxiu Deng, Yuting Wu, Shumin Zhao, Qingyan Ruan, Mei Rao, Sisi Xie, Ying Ye, Jianxin Wan
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Research Article Bone biology Cell biology Metabolism

Aerobic exercise prevents renal osteodystrophy via irisin-activated osteoblasts

Abstract

Renal osteodystrophy is commonly seen in patients with chronic kidney disease (CKD) due to disrupted mineral homeostasis. Given the impaired renal function in these patients, common antiresorptive agents, including bisphosphonates, must be used with caution or even contraindicated. Therefore, an alternative therapy without renal burden to combat renal osteodystrophy is urgently needed. Here, we report that clinically relevant aerobic exercise significantly prevents high-turnover renal osteodystrophy in CKD mice and patients with CKD without compromising renal function. Mechanistically, 4-week aerobic exercise in CKD mice increased expression of skeletal muscle PPARγ coactivator-1α (PGC-1α) and circulating irisin. Both exercise and irisin administration significantly activated osteoblasts, but not osteoclasts, via integrin αvβ5, thereby conferring bone quality benefits. Removal of irisin-influenced thermogenic adipose tissues or genetic ablation of uncoupling protein 1 did not alter the irisin-conferred antiosteodystrophy effect. Importantly, in a pilot clinical study, 12-week aerobic exercise in patients with high-grade CKD significantly increased circulating irisin and prevented osteodystrophy progression, without detectable renal burden. The combination of irisin and current antiresorptive agents effectively rescued renal osteodystrophy in mice. Our work provides mechanistic insights into the role of exercise and irisin in renal osteodystrophy, and it highlights a clinically relevant, low-cost, kidney-friendly therapy for patients with this devastating disease.

Authors

Meng Wu, Huilan Li, Xiaoting Sun, Rongrong Zhong, Linli Cai, Ruibo Chen, Madiya Madeniyet, Kana Ren, Zhen Peng, Yujie Yang, Weiqin Chen, Yanling Tu, Miaoxin Lai, Jinxiu Deng, Yuting Wu, Shumin Zhao, Qingyan Ruan, Mei Rao, Sisi Xie, Ying Ye, Jianxin Wan

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Figure 4

Adipose tissue browning–independent antiosteodystrophy effect of irisin in CKD mice.

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Adipose tissue browning–independent antiosteodystrophy effect of irisin ...
(A) Schematic diagram of BAT removal and irisin administration regimen in CKD model. (B) Representative μ-CT images of the femur tissues from vehicle- or irisin-treated BAT-removed CKD mice. Irisin-treated sham-operated CKD mice served as controls. Analysis of BV/TV, Tb.N, trabecular thickness (Tb.th), Tb.Sp, and SMI of these groups (n = 3 mice per group). (C) P1NP and crosslaps in serum from vehicle- or irisin-treated BAT removed CKD mice. Healthy mice and irisin-treated sham-operated CKD mice served as controls (n = 3 mice per group). (D) Representative μ-CT images of the femur tissues from WT or Ucp1–/– CKD mice. Analysis of BV/TV, Tb.N, Tb.th, Tb.Sp, and SMI of these groups (n = 3 mice per group). (E) P1NP and crosslaps in serum from WT or Ucp1–/– CKD mice (n = 3 mice per group). Data were analyzed by 1-way ANOVA (B, C, and E) and unpaired, 2-tailed Student’s t test (D). *P < 0.05; **P < 0.01; ***P < 0.001. Data were presented as mean ± SD.