AI Article Synopsis
- Exercise plays a significant role in activating autophagy, a process that helps break down and recycle proteins and organelles, in both muscle and non-contractile tissues like the liver.
- Muscle-secreted fibronectin (FN1) is identified as a key factor that triggers autophagy in the liver following exercise, contributing to improved metabolic health.
- The mechanism involves the interaction between FN1 and the receptor α5β1 integrin in the liver, activating a signaling pathway that enhances insulin sensitivity and metabolic responses crucial for combating diabetes.
Article Abstract
How exercise elicits systemic metabolic benefits in both muscles and non-contractile tissues is unclear. Autophagy is a stress-induced lysosomal degradation pathway that mediates protein and organelle turnover and metabolic adaptation. Exercise activates autophagy in not only contracting muscles but also non-contractile tissues including the liver. However, the role and mechanism of exercise-activated autophagy in non-contractile tissues remain mysterious. Here, we show that hepatic autophagy activation is essential for exercise-induced metabolic benefits. Plasma or serum from exercised mice is sufficient to activate autophagy in cells. By proteomic studies, we identify fibronectin (FN1), which was previously considered as an extracellular matrix protein, as an exercise-induced, muscle-secreted, autophagy-inducing circulating factor. Muscle-secreted FN1 mediates exercise-induced hepatic autophagy and systemic insulin sensitization via the hepatic receptor α5β1 integrin and the downstream IKKα/β-JNK1-BECN1 pathway. Thus, we demonstrate that hepatic autophagy activation drives exercise-induced metabolic benefits against diabetes via muscle-secreted soluble FN1 and hepatic α5β1 integrin signaling.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC10079584 | PMC |
| http://dx.doi.org/10.1016/j.cmet.2023.01.011 | DOI Listing |
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