Pharmacologic or genetic interference with atrogene signaling protects against glucocorticoid-induced musculoskeletal and cardiac disease
Amy Y. Sato, … , Tamara Alliston, Teresita Bellido
Amy Y. Sato, … , Tamara Alliston, Teresita Bellido
Published October 15, 2024
Citation Information: JCI Insight. 2024;9(21):e182664. https://doi.org/10.1172/jci.insight.182664.
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Research Article Bone biology

Pharmacologic or genetic interference with atrogene signaling protects against glucocorticoid-induced musculoskeletal and cardiac disease

Abstract

Despite their beneficial actions as immunosuppressants, glucocorticoids (GC) have devastating effects on the musculoskeletal and cardiac systems, as long-term treated patients exhibit high incidence of falls, bone fractures, and cardiovascular events. Herein, we show that GC upregulate simultaneously in bone, skeletal muscle, and the heart the expression of E3 ubiquitin ligases (atrogenes), known to stimulate the proteasomal degradation of proteins. Activation of vitamin D receptor (VDR) signaling with the VDR ligands calcitriol or eldecalcitol prevented GC-induced atrogene upregulation in vivo and ex vivo in bone/muscle organ cultures and preserved tissue structure/mass and function of the 3 tissues in vivo. Direct pharmacologic inhibition of the proteasome with carfilzomib also conferred musculoskeletal protection. Genetic loss of the atrogene MuRF1-mediated protein ubiquitination in ΔRING mice afforded temporary or sustained protection from GC excess in bone or skeletal and heart muscle. We concluded that the atrogene pathway downstream of MuRF1 underlies GC action in bone, muscle, and the heart, and it can be pharmacologically or genetically targeted to confer protection against the damaging actions of GC simultaneously in the 3 tissues.

Authors

Amy Y. Sato, Meloney Cregor, Kevin McAndrews, Charles A. Schurman, Eric Schaible, Jennifer Shutter, Punit Vyas, Bhawana Adhikari, Monte S. Willis, Marjan Boerma, Tamara Alliston, Teresita Bellido

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Figure 7

Atrogene upregulation is a central mechanistic hub underlying the damaging actions of GC excess in bone, skeletal muscle, and the heart.

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Atrogene upregulation is a central mechanistic hub underlying the damagi...
Interfering with the E3 ubiquitin (ub) ligase (atrogene) pathway via increased vitamin D3 (Vit D3) signaling blocks the deterioration of tissue structure and function in the musculoskeletal and cardiac systems. Likewise, usage of proteasomal inhibitor carfilzomib preserves bone and skeletal muscle in the setting of excessive GC, indicating that proteasomal-driven protein catabolism mediates musculoskeletal atrophy by GC. Likewise, genetic loss of function of MuRF1-mediated ubiquitination protects against adverse GC actions in muscle tissues (both skeletal and cardiac) and initially protects bone. Overall, these in vivo findings demonstrate (a) that the atrogene pathway is commonly upregulated in excessive GC disease in 3 distinct and highly specialized tissues, bone, skeletal muscle, and the heart; (b) that increased vitamin D3 signaling preserves tissue structure and function by interfering with GC actions on the atrogene pathway in each of these organs; and (c) that MuRF1’s molecular ubiquitination function is the mechanistic contributor to the loss of tissue structure and function in skeletal and cardiac muscle tissues.