Modulation of Passive (Visco-) Elasticity in Cyclic Stretch-Shortening Experiments of Skeletal Muscle Myofibrils

Authors

  • Jens Herzog Mount Allison Unviersity

Keywords:

skeletal muscle, titin, actin, myosin, stretch-shortening cycles, passive properties, stiffness, elastic, visco-elastic, energy loss, hysteresis, muscle properties, cross-bridge theory, sliding filament theory, sarcomere, sarcomere mechanics.

Abstract

Titin is the third most abundant protein in sarcomeres and fulfills a number of mechanical and signaling functions. Specifically, titin is responsible for most of the passive forces in sarcomeres and the passive visco-elastic behaviour of myofibrils and muscles. It has been suggested, based on mechanical testing of isolated titin molecules, that titin is an essentially elastic spring if Ig domain un/refolding is prevented either by working at short titin lengths, prior to any unfolding of Ig domains, or at long sarcomere (and titin) lengths when Ig domain un/refolding is effectively prevented. However, these properties of titin, and by extension of muscles, have not been tested with titin in its natural structural environment within a sarcomere. The purpose of this study was to gain insight into the Ig domain un/refolding kinetics and test the idea that titin could behave essentially elastically at any sarcomere length by preventing Ig domain un/refolding during passive stretch-shortening cycles. Although not completely successful, we demonstrate here that titin’s visco-elastic properties appear to depend on the Ig domain un/refolding kinetics and that indeed, titin (and thus myofibrils) can become virtually elastic when Ig domain un/refolding is prevented.

References

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Published

2014-07-31

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Vol. 4 (2014)

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