Musculoskeletal Disorders. Sean Gallagher

Musculoskeletal Disorders - Sean Gallagher


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schematic of a sarcomere is shown. A sarcomere is composed of actin and myosin filaments that are organized into a characteristic pattern displaying A‐, I‐, M‐, and Z‐bands.

      Modified from Nayak, A. & Amrute‐Nayak, M. (2020). SUMO system – A key regulator in sarcomere organization. FEBS Journal, 287, 2176–2190. https://doi.org/10.1111/febs.15263.

      Sarcoplasmic reticulum and calcium storage and release

Schematic illustration of the sarcoplasmic reticulum and T-tubule system of a mammalian skeletal muscle fiber.

      Mukund, K. & Subramaniam, S. (2019). Skeletal muscle: A review of molecular structure and function, in health and disease. Wiley Interdisciplinary Reviews: Systems Biology and Medicine, 12, e1462./John Wiley & Sons/CC BY‐4.0.

      Vascularization

      Function of Skeletal Muscle Components

      Proper function of skeletal muscle also requires careful coordination between muscle fibers and their proteins with connective tissues, blood vessels, and nerves. Overall, muscles, using their ability to contract, transmit their forces through tendons onto the endoskeleton (bones and cartilage), which allows the movement of the skeleton.

Schematic illustration of vascular anatomy within skeletal muscle.

      From: Gilbert‐Honick, J. & Grayson, W. (2020). Vascularized and innervated skeletal muscle tissue engineering. Advanced Healthcare Materials 9(1): e1900626. Wiley.

      Myosin filament sliding

      The contraction of muscle tissues provides motion, maintenance of posture, and heat production. The mechanisms of contraction of sarcomeres are key to muscle function. The thin and thick filaments only partially overlap in resting sarcomeres (Figure 3.7). However, during contraction, the amount of overlap between these filaments increases due to sliding of the filaments past one another (Figure 3.10), which causes shortening of the sarcomere. This contraction is induced by an action potential produced at the myoneural synapse (the juncture of a somatic motor axon and a muscle fiber). At the sarcomere level, during contraction, a small subset of myosin heads align with available actin‐binding sites. As the bound myosin heads move the actin, they provide for alignment of new actin–myosin cross bridges. The old bridges detach only after the myosin binds a new ATP molecule. This action resets the myosin head and prepares it for another contraction cycle. If no ATP is available, the actin–myosin complex become stable, which accounts for the extreme muscle rigidity associated with death (rigor mortis). A single muscle contraction is the result of hundreds of bridge‐forming and bridge‐breaking cycles. The contraction activity that leads to a complete overlap between thin and thick filaments continues until Ca2+ ions are removed, and the troponin–tropomyosin complex again covers the myosin‐binding site.

      Neuromuscular junction and muscle contraction


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