GSK3 inhibition improves skeletal muscle function and whole-body metabolism in male mouse models of Duchenne muscular dystrophy

Bianca M. Marcella; Briana L. Hockey; Jessica L. Braun; Kennedy C. Whitley; Mia S. Geromella; Ryan W. Baranowski; Colton J.F. Watson; Sebastian Silvera; Sophie I. Hamstra; Luc J. Wasilewicz; Robert W.E. Crozier; Amélie A.T. Marais; Kun Ho Kim; Gabsang Lee; Rene Vandenboom; Brian D. Roy; Adam J. MacNeil; Rebecca E.K. MacPherson; Val A. Fajardo

doi:10.1038/s41467-024-53886-y

GSK3 inhibition improves skeletal muscle function and whole-body metabolism in male mouse models of Duchenne muscular dystrophy

Bianca M. Marcella, Briana L. Hockey, Jessica L. Braun, Kennedy C. Whitley, Mia S. Geromella, Ryan W. Baranowski, Colton J.F. Watson, Sebastian Silvera, Sophie I. Hamstra, Luc J. Wasilewicz, Robert W.E. Crozier, Amélie A.T. Marais, Kun Ho Kim, Gabsang Lee, Rene Vandenboom, Brian D. Roy, Adam J. MacNeil, Rebecca E.K. MacPherson, Val A. Fajardo

School of Medicine

Research output: Contribution to journal › Article › peer-review

Abstract

Inhibiting glycogen synthase kinase 3 (GSK3) improves muscle function, metabolism, and bone health in many diseases and conditions; however, whether GSK3 should be targeted for Duchenne muscular dystrophy (DMD), a severe muscle wasting disorder with no cure, remains unknown. Here, we show the effects of GSK3 inhibition in male DBA/2J (D2) and C57BL/10 (C57) mdx mice. Treating D2 mdx mice with GSK3 inhibitors alone or in combination with aerobic exercise improves muscle strength, endurance, and morphology, attenuates the hypermetabolic phenotype, and enhances insulin sensitivity. GSK3 inhibition in C57 mdx mice also improves muscle fatigue resistance and increases cage ambulation. Moreover, muscle-specific GSK3 knockdown in mdx mice augments muscle force production and endurance. In both mdx strains, GSK3 inhibition increases bone mineral content and density. Overall, these improvements to muscle, metabolic, and bone health with GSK3 inhibition in mdx mice may have clinical implications for patients with DMD, where the current standard of care, glucocorticoids, delay the loss of ambulation but increase the risk for insulin resistance and osteoporosis. Along with our observation of lowered β-catenin content in DMD myoblasts, a known cellular target for GSK3, this study provides ample evidence in support of inhibiting GSK3 for this disease.

Original language	English (US)
Article number	10210
Journal	Nature communications
Volume	15
Issue number	1
DOIs	https://doi.org/10.1038/s41467-024-53886-y
State	Published - Dec 2024

ASJC Scopus subject areas

General Chemistry
General Biochemistry, Genetics and Molecular Biology
General Physics and Astronomy

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Marcella, B. M., Hockey, B. L., Braun, J. L., Whitley, K. C., Geromella, M. S., Baranowski, R. W., Watson, C. J. F., Silvera, S., Hamstra, S. I., Wasilewicz, L. J., Crozier, R. W. E., Marais, A. A. T., Kim, K. H., Lee, G., Vandenboom, R., Roy, B. D., MacNeil, A. J., MacPherson, R. E. K., & Fajardo, V. A. (2024). GSK3 inhibition improves skeletal muscle function and whole-body metabolism in male mouse models of Duchenne muscular dystrophy. Nature communications, 15(1), Article 10210. https://doi.org/10.1038/s41467-024-53886-y

Marcella, BM, Hockey, BL, Braun, JL, Whitley, KC, Geromella, MS, Baranowski, RW, Watson, CJF, Silvera, S, Hamstra, SI, Wasilewicz, LJ, Crozier, RWE, Marais, AAT, Kim, KH, Lee, G, Vandenboom, R, Roy, BD, MacNeil, AJ, MacPherson, REK & Fajardo, VA 2024, 'GSK3 inhibition improves skeletal muscle function and whole-body metabolism in male mouse models of Duchenne muscular dystrophy', Nature communications, vol. 15, no. 1, 10210. https://doi.org/10.1038/s41467-024-53886-y

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title = "GSK3 inhibition improves skeletal muscle function and whole-body metabolism in male mouse models of Duchenne muscular dystrophy",

abstract = "Inhibiting glycogen synthase kinase 3 (GSK3) improves muscle function, metabolism, and bone health in many diseases and conditions; however, whether GSK3 should be targeted for Duchenne muscular dystrophy (DMD), a severe muscle wasting disorder with no cure, remains unknown. Here, we show the effects of GSK3 inhibition in male DBA/2J (D2) and C57BL/10 (C57) mdx mice. Treating D2 mdx mice with GSK3 inhibitors alone or in combination with aerobic exercise improves muscle strength, endurance, and morphology, attenuates the hypermetabolic phenotype, and enhances insulin sensitivity. GSK3 inhibition in C57 mdx mice also improves muscle fatigue resistance and increases cage ambulation. Moreover, muscle-specific GSK3 knockdown in mdx mice augments muscle force production and endurance. In both mdx strains, GSK3 inhibition increases bone mineral content and density. Overall, these improvements to muscle, metabolic, and bone health with GSK3 inhibition in mdx mice may have clinical implications for patients with DMD, where the current standard of care, glucocorticoids, delay the loss of ambulation but increase the risk for insulin resistance and osteoporosis. Along with our observation of lowered β-catenin content in DMD myoblasts, a known cellular target for GSK3, this study provides ample evidence in support of inhibiting GSK3 for this disease.",

author = "Marcella, {Bianca M.} and Hockey, {Briana L.} and Braun, {Jessica L.} and Whitley, {Kennedy C.} and Geromella, {Mia S.} and Baranowski, {Ryan W.} and Watson, {Colton J.F.} and Sebastian Silvera and Hamstra, {Sophie I.} and Wasilewicz, {Luc J.} and Crozier, {Robert W.E.} and Marais, {Am{\'e}lie A.T.} and Kim, {Kun Ho} and Gabsang Lee and Rene Vandenboom and Roy, {Brian D.} and MacNeil, {Adam J.} and MacPherson, {Rebecca E.K.} and Fajardo, {Val A.}",

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year = "2024",

month = dec,

doi = "10.1038/s41467-024-53886-y",

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T1 - GSK3 inhibition improves skeletal muscle function and whole-body metabolism in male mouse models of Duchenne muscular dystrophy

AU - Marcella, Bianca M.

AU - Hockey, Briana L.

AU - Braun, Jessica L.

AU - Whitley, Kennedy C.

AU - Geromella, Mia S.

AU - Baranowski, Ryan W.

AU - Watson, Colton J.F.

AU - Silvera, Sebastian

AU - Hamstra, Sophie I.

AU - Wasilewicz, Luc J.

AU - Crozier, Robert W.E.

AU - Marais, Amélie A.T.

AU - Kim, Kun Ho

AU - Lee, Gabsang

AU - Vandenboom, Rene

AU - Roy, Brian D.

AU - MacNeil, Adam J.

AU - MacPherson, Rebecca E.K.

AU - Fajardo, Val A.

PY - 2024/12

Y1 - 2024/12

N2 - Inhibiting glycogen synthase kinase 3 (GSK3) improves muscle function, metabolism, and bone health in many diseases and conditions; however, whether GSK3 should be targeted for Duchenne muscular dystrophy (DMD), a severe muscle wasting disorder with no cure, remains unknown. Here, we show the effects of GSK3 inhibition in male DBA/2J (D2) and C57BL/10 (C57) mdx mice. Treating D2 mdx mice with GSK3 inhibitors alone or in combination with aerobic exercise improves muscle strength, endurance, and morphology, attenuates the hypermetabolic phenotype, and enhances insulin sensitivity. GSK3 inhibition in C57 mdx mice also improves muscle fatigue resistance and increases cage ambulation. Moreover, muscle-specific GSK3 knockdown in mdx mice augments muscle force production and endurance. In both mdx strains, GSK3 inhibition increases bone mineral content and density. Overall, these improvements to muscle, metabolic, and bone health with GSK3 inhibition in mdx mice may have clinical implications for patients with DMD, where the current standard of care, glucocorticoids, delay the loss of ambulation but increase the risk for insulin resistance and osteoporosis. Along with our observation of lowered β-catenin content in DMD myoblasts, a known cellular target for GSK3, this study provides ample evidence in support of inhibiting GSK3 for this disease.

AB - Inhibiting glycogen synthase kinase 3 (GSK3) improves muscle function, metabolism, and bone health in many diseases and conditions; however, whether GSK3 should be targeted for Duchenne muscular dystrophy (DMD), a severe muscle wasting disorder with no cure, remains unknown. Here, we show the effects of GSK3 inhibition in male DBA/2J (D2) and C57BL/10 (C57) mdx mice. Treating D2 mdx mice with GSK3 inhibitors alone or in combination with aerobic exercise improves muscle strength, endurance, and morphology, attenuates the hypermetabolic phenotype, and enhances insulin sensitivity. GSK3 inhibition in C57 mdx mice also improves muscle fatigue resistance and increases cage ambulation. Moreover, muscle-specific GSK3 knockdown in mdx mice augments muscle force production and endurance. In both mdx strains, GSK3 inhibition increases bone mineral content and density. Overall, these improvements to muscle, metabolic, and bone health with GSK3 inhibition in mdx mice may have clinical implications for patients with DMD, where the current standard of care, glucocorticoids, delay the loss of ambulation but increase the risk for insulin resistance and osteoporosis. Along with our observation of lowered β-catenin content in DMD myoblasts, a known cellular target for GSK3, this study provides ample evidence in support of inhibiting GSK3 for this disease.

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GSK3 inhibition improves skeletal muscle function and whole-body metabolism in male mouse models of Duchenne muscular dystrophy

Abstract

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