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Muscle-derived interleukin 6 increases exercise capacity by signaling in osteoblasts

by Yadav, Vijay K. , Chowdhury, Subrata , Hidalgo, Juan , Brüning, Jens , Schulz, Logan , Karsenty, Gerard , Palmisano, Biagio , Ellingsgaard, Helga , Singh, Parminder , Berger, Julian M. , Mera, Paula

in Animals / Antibodies / Biomedical research / Capacity / Cytokines / Exercise / Experiments / Female / Fitness equipment / Health insurance / Interleukin 6 / Interleukin 6 receptors / Interleukin-6 - genetics / Interleukin-6 - immunology / Interleukins / Macaca mulatta / Mice / Mice, Knockout / Muscle function / Muscle, Skeletal - immunology / Nutrient uptake / Osteoblastogenesis / Osteoblasts / Osteoblasts - immunology / Osteocalcin / Osteoclastogenesis / Physiology / Running / Scientific equipment industry / Signal Transduction - genetics / Signal Transduction - immunology

2020

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Muscle-derived interleukin 6 increases exercise capacity by signaling in osteoblasts

2020

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Muscle-derived interleukin 6 increases exercise capacity by signaling in osteoblasts

2020

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Journal Article

Muscle-derived interleukin 6 increases exercise capacity by signaling in osteoblasts

Yadav, Vijay K.,

Chowdhury, Subrata,

Hidalgo, Juan,

Brüning, Jens,

Schulz, Logan,

Karsenty, Gerard,

Palmisano, Biagio,

Ellingsgaard, Helga,

Singh, Parminder,

Berger, Julian M.,

Mera, Paula

2020

Overview

Given the numerous health benefits of exercise, understanding how exercise capacity is regulated is a question of paramount importance. Circulating interleukin 6 (IL-6) levels surge during exercise and IL-6 favors exercise capacity. However, neither the cellular origin of circulating IL-6 during exercise nor the means by which this cytokine enhances exercise capacity has been formally established yet. Here we show through genetic means that the majority of circulating IL-6 detectable during exercise originates from muscle and that to increase exercise capacity, IL-6 must signal in osteoblasts to favor osteoclast differentiation and the release of bioactive osteocalcin in the general circulation. This explains why mice lacking the IL-6 receptor only in osteoblasts exhibit a deficit in exercise capacity of similar severity to the one seen in mice lacking muscle-derived IL-6 (mIL-6), and why this deficit is correctable by osteocalcin but not by IL-6. Furthermore, in agreement with the notion that IL-6 acts through osteocalcin, we demonstrate that mIL-6 promotes nutrient uptake and catabolism into myofibers during exercise in an osteocalcin-dependent manner. Finally, we show that the crosstalk between osteocalcin and IL-6 is conserved between rodents and humans. This study provides evidence that a muscle-bone-muscle endocrine axis is necessary to increase muscle function during exercise in rodents and humans.

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Publisher

American Society for Clinical Investigation

Subject

Animals

/ Antibodies

/ Biomedical research