Lack of myostatin results in excessive muscle growth but impaired force generation

H Amthor; R Macharia; R Navarrete; M Schuelke; S C Brown; A Otto; T Voit; F Muntoni; G Vrbova; T Partridge; P Zammit; L Bunger; K Patel

doi:10.1073/pnas.0604893104

Lack of myostatin results in excessive muscle growth but impaired force generation

H Amthor, R Macharia, R Navarrete, M Schuelke, S C Brown, A Otto, T Voit, F Muntoni, G Vrbova, T Partridge, P Zammit, L Bunger, K Patel

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Abstract

The lack of myostatin promotes growth of skeletal muscle, and blockade of its activity has been proposed as a treatment for various muscle-wasting disorders. Here, we have examined two independent mouse lines that harbor mutations in the myostatin gene, constitutive null (Mstn(-/-)) and compact (Berlin High Line, BEHc/c). We report that, despite a larger muscle mass relative to age-matched wild types, there was no increase in maximum tetanic force generation, but that when expressed as a function of muscle size (specific force), muscles of myostatin-deficient mice were weaker than wild-type muscles. In addition, Mstn(-/-) muscle contracted and relaxed faster during a single twitch and had a marked increase in the number of type IIb fibers relative to wild-type controls. This change was also accompanied by a significant increase in type IIB fibers containing tubular aggregates. Moreover, the ratio of mitochondrial DNA to nuclear DNA and mitochondria number were decreased in myostatin-deficient muscle, suggesting a mitochondrial depletion. Overall, our results suggest that lack of myostatin compromises force production in association with loss of oxidative characteristics of skeletal muscle

Original language	English
Pages (from-to)	1835 - 1840
Number of pages	6
Journal	Proceedings of the National Academy of Sciences of the United States of America
Volume	104
Issue number	6
DOIs	https://doi.org/10.1073/pnas.0604893104
Publication status	Published - 6 Feb 2007

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Amthor, H., Macharia, R., Navarrete, R., Schuelke, M., Brown, S. C., Otto, A., Voit, T., Muntoni, F., Vrbova, G., Partridge, T., Zammit, P., Bunger, L., & Patel, K. (2007). Lack of myostatin results in excessive muscle growth but impaired force generation. Proceedings of the National Academy of Sciences of the United States of America, 104(6), 1835 - 1840. https://doi.org/10.1073/pnas.0604893104

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title = "Lack of myostatin results in excessive muscle growth but impaired force generation",

abstract = "The lack of myostatin promotes growth of skeletal muscle, and blockade of its activity has been proposed as a treatment for various muscle-wasting disorders. Here, we have examined two independent mouse lines that harbor mutations in the myostatin gene, constitutive null (Mstn(-/-)) and compact (Berlin High Line, BEHc/c). We report that, despite a larger muscle mass relative to age-matched wild types, there was no increase in maximum tetanic force generation, but that when expressed as a function of muscle size (specific force), muscles of myostatin-deficient mice were weaker than wild-type muscles. In addition, Mstn(-/-) muscle contracted and relaxed faster during a single twitch and had a marked increase in the number of type IIb fibers relative to wild-type controls. This change was also accompanied by a significant increase in type IIB fibers containing tubular aggregates. Moreover, the ratio of mitochondrial DNA to nuclear DNA and mitochondria number were decreased in myostatin-deficient muscle, suggesting a mitochondrial depletion. Overall, our results suggest that lack of myostatin compromises force production in association with loss of oxidative characteristics of skeletal muscle",

author = "H Amthor and R Macharia and R Navarrete and M Schuelke and Brown, {S C} and A Otto and T Voit and F Muntoni and G Vrbova and T Partridge and P Zammit and L Bunger and K Patel",

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Amthor, H, Macharia, R, Navarrete, R, Schuelke, M, Brown, SC, Otto, A, Voit, T, Muntoni, F, Vrbova, G, Partridge, T, Zammit, P, Bunger, L & Patel, K 2007, 'Lack of myostatin results in excessive muscle growth but impaired force generation', Proceedings of the National Academy of Sciences of the United States of America, vol. 104, no. 6, pp. 1835 - 1840. https://doi.org/10.1073/pnas.0604893104

TY - JOUR

T1 - Lack of myostatin results in excessive muscle growth but impaired force generation

AU - Amthor, H

AU - Macharia, R

AU - Navarrete, R

AU - Schuelke, M

AU - Brown, S C

AU - Otto, A

AU - Voit, T

AU - Muntoni, F

AU - Vrbova, G

AU - Partridge, T

AU - Zammit, P

AU - Bunger, L

AU - Patel, K

PY - 2007/2/6

Y1 - 2007/2/6

N2 - The lack of myostatin promotes growth of skeletal muscle, and blockade of its activity has been proposed as a treatment for various muscle-wasting disorders. Here, we have examined two independent mouse lines that harbor mutations in the myostatin gene, constitutive null (Mstn(-/-)) and compact (Berlin High Line, BEHc/c). We report that, despite a larger muscle mass relative to age-matched wild types, there was no increase in maximum tetanic force generation, but that when expressed as a function of muscle size (specific force), muscles of myostatin-deficient mice were weaker than wild-type muscles. In addition, Mstn(-/-) muscle contracted and relaxed faster during a single twitch and had a marked increase in the number of type IIb fibers relative to wild-type controls. This change was also accompanied by a significant increase in type IIB fibers containing tubular aggregates. Moreover, the ratio of mitochondrial DNA to nuclear DNA and mitochondria number were decreased in myostatin-deficient muscle, suggesting a mitochondrial depletion. Overall, our results suggest that lack of myostatin compromises force production in association with loss of oxidative characteristics of skeletal muscle

AB - The lack of myostatin promotes growth of skeletal muscle, and blockade of its activity has been proposed as a treatment for various muscle-wasting disorders. Here, we have examined two independent mouse lines that harbor mutations in the myostatin gene, constitutive null (Mstn(-/-)) and compact (Berlin High Line, BEHc/c). We report that, despite a larger muscle mass relative to age-matched wild types, there was no increase in maximum tetanic force generation, but that when expressed as a function of muscle size (specific force), muscles of myostatin-deficient mice were weaker than wild-type muscles. In addition, Mstn(-/-) muscle contracted and relaxed faster during a single twitch and had a marked increase in the number of type IIb fibers relative to wild-type controls. This change was also accompanied by a significant increase in type IIB fibers containing tubular aggregates. Moreover, the ratio of mitochondrial DNA to nuclear DNA and mitochondria number were decreased in myostatin-deficient muscle, suggesting a mitochondrial depletion. Overall, our results suggest that lack of myostatin compromises force production in association with loss of oxidative characteristics of skeletal muscle

U2 - 10.1073/pnas.0604893104

DO - 10.1073/pnas.0604893104

M3 - Article

SN - 1091-6490

VL - 104

SP - 1835

EP - 1840

JO - Proceedings of the National Academy of Sciences of the United States of America

JF - Proceedings of the National Academy of Sciences of the United States of America

IS - 6

ER -

Lack of myostatin results in excessive muscle growth but impaired force generation

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