Mark L. Palmer scite author profile

Non-technical summaryThe force developed by a single fibre in frog muscles is transmitted laterally to the muscle surface with little or no loss. To demonstrate this phenomenon in mammals, a 'yoke' apparatus was developed that attached to the surface of whole, parallel-fibred muscles and permitted measurements of the lateral transmission of forces. We then demonstrated that for wild-type mice and rats longitudinal and lateral transmission of forces in muscles were not different. In contrast, for skeletal muscles of dystrophic mice and very old rats, in which the dystrophin-associated glycoprotein complex (DGC) of fibres was disrupted, the forces transmitted laterally were impaired severely. We conclude that during contractions of skeletal muscles, an intact DGC is essential for the lateral transmission of force and disruptions of the DGC lead to sarcomere instability and contraction-induced injury.Abstract The dystrophin-glycoprotein complex (DGC) provides an essential link from the muscle fibre cytoskeleton to the extracellular matrix. In dystrophic humans and mdx mice, mutations in the dystrophin gene disrupt the structure of the DGC causing severe damage to muscle fibres. In frog muscles, transmission of force laterally from an activated fibre to the muscle surface occurs without attenuation, but lateral transmission of force has not been demonstrated in mammalian muscles. A unique 'yoke' apparatus was developed that attached to the epimysium of muscles midway between the tendons and enabled the measurement of lateral force. We now report that in muscles of young wild-type (WT) mice and rats, compared over a wide range of longitudinal forces, forces transmitted laterally showed little or no decrement. In contrast, for muscles of mdx mice and very old rats, forces transmitted laterally were impaired severely. Muscles of both mdx mice and very old rats showed major reductions in the expression of dystrophin. We conclude that during contractions, forces developed by skeletal muscles of young WT mice and rats are transmitted laterally from fibre to fibre through the DGC without decrement. In contrast, in muscles of dystrophic or very old animals, disruptions in DGC structure and function impair lateral transmission of force causing instability and increased susceptibility of fibres to contraction-induced injury. Abbreviations ATB, anterior tibialis; DGC, dystrophin-associated glycoprotein complex; ECM, extracellular matrix; EDL, extensor digitorum longus.

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The Relationship Between Anterior Tibial Acceleration, Tibial Slope, and ACL Strain During a Simulated Jump Landing Task

McLean

Oh²,

Palmer

et al. 2011

142

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External Fixation And Secondary Intramedullary Nailing Of Open Tibial Fractures: A Randomised, Prospective Trial

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Soslowsky²,

Malicky³

et al. 1997

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Shoulder labral pathomechanics with rotator cuff tears

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Carpenter

Hughes

et al. 2014

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Mark L. Palmer

Lateral transmission of force is impaired in skeletal muscles of dystrophic mice and very old rats

The Relationship Between Anterior Tibial Acceleration, Tibial Slope, and ACL Strain During a Simulated Jump Landing Task

External Fixation And Secondary Intramedullary Nailing Of Open Tibial Fractures: A Randomised, Prospective Trial

Shoulder labral pathomechanics with rotator cuff tears

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