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July 11, 2024
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Muscle machine: How water controls the speed of muscle contraction
by University of Michigan
Muscle machine: How water controls the speed of muscle contraction
Muscle fibers are multiscale soft, wet, active engines. Credit:
Nature Physics (2024). DOI: 10.1038/s41567-024-02540-x
The flow of water within a muscle fiber may dictate how quickly
muscle can contract, according to a University of Michigan study.
Nearly all animals use muscle to move, and it's been known for a long
time that muscle, like all other cells, is composed of about 70%
water. But researchers don't know what sets the range and upper
limits of muscle performance. Previous research into how muscle works
focused only on how it worked on a molecular level rather than how
muscle fibers are shaped, that they are three-dimensional and are
full of fluid.
U-M physicist Suraj Shankar together with L. Mahadevan, a professor
of physics at Harvard University, created a theoretical model of
water's role in muscle contraction and found that how fluid moves
through a muscle fiber determines how quickly a muscle fiber can
contract.
They also found that muscle exhibits a new kind of elasticity called
odd elasticity that allows muscle to generate power using three
dimensional deformations, shown in a common observation that when a
muscle fiber contracts lengthwise, it also bulges perpendicularly.
Their results are published in the journal Nature Physics.
"Our results suggest that even such basic questions as how quickly
muscle can contract or how many ways muscle can generate power have
new and unexpected answers when one takes a more integrated and
holistic view of muscle as a complex and hierarchically organized
material rather than just a bag of molecules," Shankar said. "Muscle
is more than the sum of its parts."
[INS::INS]
The researchers envision each muscle fiber as a self-squeezing active
sponge, a water-filled, sponge-like material that can contract and
squeeze itself through the action of molecular motors, he says.
"Muscle fibers are composed of many components, such as various
proteins, cell nuclei, organelles such as mitochondria, and molecular
motors such as myosin that convert chemical fuel into motion and
drive muscle contraction," Shankar said. "All of these components
form a porous network that is bathed in water. So an appropriate,
coarse-grained description for muscle is that of an active sponge."
But the squeezing process takes time to move water around, so the
researchers suspected that this movement of water through the muscle
fiber set an upper limit on how rapidly a muscle fiber can twitch.
To test their theory, they modeled muscle movements in multiple
organisms across mammals, insects, birds, fish and reptiles, focusing
on animals that use muscles for very fast motions. They found that
muscles that produce sound, such as the rattle in a rattlesnake's
tail, that can contract ten to hundreds of times per second typically
don't rely on fluid flows. Instead, these contractions are controlled
by the nervous system and are more strongly dictated by molecular
properties, or the time it takes for molecular motors within cells to
bind and generate forces.
But in smaller organisms, such as flying insects who are beating
their wings a few hundred to a thousand times per second, these
contractions are too fast for neurons to directly control. Here fluid
flows are more important.
"In these cases, we found that fluid flows within the muscle fiber
are important and our mechanism of active hydraulics is likely to
limit the fastest rates of contraction," Shankar said. "Some insects
such as mosquitos seem to be close to our theoretically predicted
limit, but direct experimental testing is needed to check and
challenge our predictions."
The researchers also found that when muscle fibers act as an active
sponge, the process also causes the muscles to act as an active
elastic engine. When something is elastic, such as a rubber band, it
stores energy as it tries to resist deformation. Imagine holding a
rubber band between two fingers and pulling it back.
When you release the rubber band, the band also releases the energy
stored when it was being stretched. In this case, energy is
conserved--a basic law of physics that dictates that the amount of
energy within a closed system should remain the same over time.
But when muscle converts chemical fuel into mechanical work, it can
produce energy like an engine, violating the law of the conservation
of energy. In this case, muscle shows a new property called "odd
elasticity," where its response when squashed in one direction versus
another is not mutual.
Unlike the rubber band, when muscle contracts and relaxes along its
length, it also bulges out perpendicularly, and its energy does not
stay the same. This allows muscle fibers to generate power from
repetitive deformations, behaving as a soft engine.
"These results are in contrast to prevailing thought, which focuses
on molecular details and neglects the fact that muscles are long and
filamentous, are hydrated, and have processes on multiple scales,"
Shankar said.
"All together, our results suggest a revised view of how muscle
functions is essential to understand its physiology. This is also
crucial to understanding the origins, extent and limits that underlie
the diverse forms of animal movement."
More information: Suraj Shankar et al, Active hydraulics and odd
elasticity of muscle fibres, Nature Physics (2024). DOI: 10.1038/
s41567-024-02540-x
Journal information: Nature Physics
Provided by University of Michigan
Citation: Muscle machine: How water controls the speed of muscle
contraction (2024, July 11) retrieved 11 July 2024 from https://
phys.org/news/2024-07-muscle-machine.html
This document is subject to copyright. Apart from any fair dealing
for the purpose of private study or research, no part may be
reproduced without the written permission. The content is provided
for information purposes only.
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