Glucocorticoid steroids such as prednisone are prescribed for chronic muscle conditions
such as Duchenne muscular dystrophy, where their use is associated with prolonged
ambulation. The positive effects of chronic steroid treatment in muscular dystrophy are
paradoxical because these steroids are also known to trigger muscle atrophy. Chronic
steroid use usually involves once-daily dosing, although weekly dosing in children has
been suggested for its reduced side effects on behavior. In this work, we tested steroid
dosing in mice and found that a single pulse of glucocorticoid steroids improved
sarcolemmal repair through increased expression of annexins A1 and A6, which mediate
myofiber repair. This increased expression was dependent on glucocorticoid response
elements upstream of annexins and was reinforced by the expression of forkhead box O1
(FOXO1). We compared weekly versus daily steroid treatment in mouse models of acute muscle
injury and in muscular dystrophy and determined that both regimens provided comparable
benefits in terms of annexin gene expression and muscle repair. However, daily dosing
activated atrophic pathways, including F-box protein 32 (
Mattia Quattrocelli, David Y. Barefield, James L. Warner, Andy H. Vo, Michele Hadhazy, Judy U. Earley, Alexis R. Demonbreun, Elizabeth M. McNally
Facioscapulohumeral muscular dystrophy (FSHD) is an autosomal dominant neuromuscular disorder that is characterized by extreme variability in symptoms, with females being less severely affected than males and presenting a higher proportion of asymptomatic carriers. The sex-related factors involved in the disease are not known. Here, we have utilized myoblasts isolated from FSHD patients (FSHD myoblasts) to investigate the effect of estrogens on muscle properties. Our results demonstrated that estrogens counteract the differentiation impairment of FSHD myoblasts without affecting cell proliferation or survival. Estrogen effects are mediated by estrogen receptor β (ERβ), which reduces chromatin occupancy and transcriptional activity of double homeobox 4 (DUX4), a protein whose aberrant expression has been implicated in FSHD pathogenesis. During myoblast differentiation, we observed that the levels and activity of DUX4 increased progressively and were associated with its enhanced recruitment in the nucleus. ERβ interfered with this recruitment by relocalizing DUX4 in the cytoplasm. This work identifies estrogens as a potential disease modifier that underlie sex-related differences in FSHD by protecting against myoblast differentiation impairments in this disease.
Emanuela Teveroni, Marsha Pellegrino, Sabrina Sacconi, Patrizia Calandra, Isabella Cascino, Stefano Farioli-Vecchioli, Angela Puma, Matteo Garibaldi, Roberta Morosetti, Giorgio Tasca, Enzo Ricci, Carlo Pietro Trevisan, Giuliana Galluzzi, Alfredo Pontecorvi, Marco Crescenzi, Giancarlo Deidda, Fabiola Moretti
Mutations in laminin α2-subunit (Lmα2, encoded by
Karen K. McKee, Stephanie C. Crosson, Sarina Meinen, Judith R. Reinhard, Markus A. Rüegg, Peter D. Yurchenco
Myotonic dystrophy type I (DM1) is a disabling multisystemic disease that predominantly affects skeletal muscle. It is caused by expanded CTG repeats in the 3′-UTR of the dystrophia myotonica protein kinase (
Marielle Brockhoff, Nathalie Rion, Kathrin Chojnowska, Tatiana Wiktorowicz, Christopher Eickhorst, Beat Erne, Stephan Frank, Corrado Angelini, Denis Furling, Markus A. Rüegg, Michael Sinnreich, Perrine Castets
Treatment options are limited for severe asthma, and the need for additional therapies remains great. Previously, we demonstrated that integrin αvβ6-deficient mice are protected from airway hyperresponsiveness, due in part to increased expression of the murine ortholog of human chymase. Here, we determined that chymase protects against cytokine-enhanced bronchoconstriction by cleaving fibronectin to impair tension transmission in airway smooth muscle (ASM). Additionally, we identified a pathway that can be therapeutically targeted to mitigate the effects of airway hyperresponsiveness. Administration of chymase to human bronchial rings abrogated IL-13–enhanced contraction, and this effect was not due to alterations in calcium homeostasis or myosin light chain phosphorylation. Rather, chymase cleaved fibronectin, inhibited ASM adhesion, and attenuated focal adhesion phosphorylation. Disruption of integrin ligation with an RGD-containing peptide abrogated IL-13–enhanced contraction, with no further effect from chymase. We identified α5β1 as the primary fibronectin-binding integrin in ASM, and α5β1-specific blockade inhibited focal adhesion phosphorylation and IL-13–enhanced contraction, with no additional effect from chymase. Delivery of an α5β1 inhibitor into murine airways abrogated the exaggerated bronchoconstriction induced by allergen sensitization and challenge. Finally, α5β1 blockade enhanced the effect of the bronchodilator isoproterenol on airway relaxation. Our data identify the α5β1 integrin as a potential therapeutic target to mitigate the severity of airway contraction in asthma.
Aparna Sundaram, Chun Chen, Amin Khalifeh-Soltani, Amha Atakilit, Xin Ren, Wenli Qiu, Hyunil Jo, William DeGrado, Xiaozhu Huang, Dean Sheppard
Myotubular myopathy (MTM) is a devastating pediatric neuromuscular disorder of phosphoinositide (PIP) metabolism resulting from mutations of the PIP phosphatase
Nesrin Sabha, Jonathan R. Volpatti, Hernan Gonorazky, Aaron Reifler, Ann E. Davidson, Xingli Li, Nadine M. Eltayeb, Claudia Dall’Armi, Gilbert Di Paolo, Susan V. Brooks, Ana Buj-Bello, Eva L. Feldman, James J. Dowling
The X chromosome–encoded histone demethylase UTX (also known as KDM6A) mediates removal of repressive trimethylation of histone H3 lysine 27 (H3K27me3) to establish transcriptionally permissive chromatin. Loss of UTX in female mice is embryonic lethal. Unexpectedly, male UTX-null mice escape embryonic lethality due to expression of UTY, a paralog that lacks H3K27 demethylase activity, suggesting an enzyme-independent role for UTX in development and thereby challenging the need for active H3K27 demethylation in vivo. However, the requirement for active H3K27 demethylation in stem cell–mediated tissue regeneration remains untested. Here, we employed an inducible mouse KO that specifically ablates
Hervé Faralli, Chaochen Wang, Kiran Nakka, Aissa Benyoucef, Soji Sebastian, Lenan Zhuang, Alphonse Chu, Carmen G. Palii, Chengyu Liu, Brendan Camellato, Marjorie Brand, Kai Ge, F. Jeffrey Dilworth
The maintenance of skeletal muscle mass is critical for sustaining health; however, the mechanisms responsible for muscle loss with aging and chronic diseases, such as diabetes and obesity, are poorly understood. We found that expression of a member of the AMPK-related kinase family, the SNF1-AMPK-related kinase (SNARK, also known as NUAK2), increased with muscle cell differentiation. SNARK expression increased in skeletal muscles from young mice exposed to metabolic stress and in muscles from healthy older human subjects. The regulation of SNARK expression in muscle with differentiation and physiological stress suggests that SNARK may function in the maintenance of muscle mass. Consistent with this hypothesis, decreased endogenous SNARK expression (using siRNA) in cultured muscle cells resulted in increased apoptosis and decreased cell survival under conditions of metabolic stress. Likewise, muscle-specific transgenic animals expressing a SNARK dominant-negative inactive mutant (SDN) had increased myonuclear apoptosis and activation of apoptotic mediators in muscle. Moreover, animals expressing SDN had severe, age-accelerated muscle atrophy and increased adiposity, consistent with sarcopenic obesity. Reduced SNARK activity, in vivo and in vitro, caused downregulation of the Rho kinase signaling pathway, a key mediator of cell survival. These findings reveal a critical role for SNARK in myocyte survival and the maintenance of muscle mass with age.
Sarah J. Lessard, Donato A. Rivas, Kawai So, Ho-Jin Koh, André Lima Queiroz, Michael F. Hirshman, Roger A. Fielding, Laurie J. Goodyear
Here, we have described and validated a strategy for monitoring skeletal muscle protein synthesis rates in rodents and humans over days or weeks from blood samples. We based this approach on label incorporation into proteins that are synthesized specifically in skeletal muscle and escape into the circulation. Heavy water labeling combined with sensitive tandem mass spectrometric analysis allowed integrated synthesis rates of proteins in muscle tissue across the proteome to be measured over several weeks. Fractional synthesis rate (FSR) of plasma creatine kinase M-type (CK-M) and carbonic anhydrase 3 (CA-3) in the blood, more than 90% of which is derived from skeletal muscle, correlated closely with FSR of CK-M, CA-3, and other proteins of various ontologies in skeletal muscle tissue in both rodents and humans. Protein synthesis rates across the muscle proteome generally changed in a coordinate manner in response to a sprint interval exercise training regimen in humans and to denervation or clenbuterol treatment in rodents. FSR of plasma CK-M and CA-3 revealed changes and interindividual differences in muscle tissue proteome dynamics. In human subjects, sprint interval training primarily stimulated synthesis of structural and glycolytic proteins. Together, our results indicate that this approach provides a virtual biopsy, sensitively revealing individualized changes in proteome-wide synthesis rates in skeletal muscle without a muscle biopsy. Accordingly, this approach has potential applications for the diagnosis, management, and treatment of muscle disorders.
Mahalakshmi Shankaran, Chelsea L. King, Thomas E. Angel, William E. Holmes, Kelvin W. Li, Marc Colangelo, John C. Price, Scott M. Turner, Christopher Bell, Karyn L. Hamilton, Benjamin F. Miller, Marc K. Hellerstein
The Popeye domain–containing 1 (
Roland F.R. Schindler, Chiara Scotton, Jianguo Zhang, Chiara Passarelli, Beatriz Ortiz-Bonnin, Subreena Simrick, Thorsten Schwerte, Kar-Lai Poon, Mingyan Fang, Susanne Rinné, Alexander Froese, Viacheslav O. Nikolaev, Christiane Grunert, Thomas Müller, Giorgio Tasca, Padmini Sarathchandra, Fabrizio Drago, Bruno Dallapiccola, Claudio Rapezzi, Eloisa Arbustini, Francesca Romana Di Raimo, Marcella Neri, Rita Selvatici, Francesca Gualandi, Fabiana Fattori, Antonello Pietrangelo, Wenyan Li, Hui Jiang, Xun Xu, Enrico Bertini, Niels Decher, Jun Wang, Thomas Brand, Alessandra Ferlini