Leveraging microtopography to pattern multi-oriented muscle actuators

Rossy, Tamara; Schwendeman, Laura; Bawa, Maheera; Umashankar, Pavankumar; Raman, Ritu

doi:10.1101/2024.07.31.606059

2024

DOI: 10.1101/2024.07.31.606059

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Leveraging microtopography to pattern multi-oriented muscle actuators

Tamara Rossy,

Laura Schwendeman,

Maheera Bawa

et al.

Abstract: Engineering skeletal muscle tissue with precisely defined alignment is of significant importance for applications ranging from drug screening to biohybrid robotics. Aligning 2D contractile muscle monolayers, which are compatible with high-content imaging and can be deployed in planar soft robots, typically require micropatterned cues. However, current protocols for integrating microscale topographical features in extracellular matrix hydrogels require expensive microfabrication equipment and multi-step procedu… Show more

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Actuating Extracellular Matrices Decouple the Mechanical and Biochemical Effects of Muscle Contraction on Motor Neurons

Bu,

Afghah,

Castro

et al. 2024

Adv Healthcare Materials

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Emerging in vivo evidence suggests that repeated muscle contraction, or exercise, impacts peripheral nerves. However, the difficulty of isolating the muscle‐specific impact on motor neurons in vivo, as well as the inability to decouple the biochemical and mechanical impacts of muscle contraction in this setting, motivates investigating this phenomenon in vitro. This study demonstrates that tuning the mechanical properties of fibrin enables longitudinal culture of highly contractile skeletal muscle monolayers, enabling functional characterization of and long‐term secretome harvesting from exercised tissues. Motor neurons stimulated with exercised muscle‐secreted factors significantly upregulate neurite outgrowth and migration, with an effect size dependent on muscle contraction intensity. Actuating magnetic microparticles embedded within fibrin hydrogels enable dynamically stretching motor neurons and non‐invasively mimicking the mechanical effects of muscle contraction. Interestingly, axonogenesis is similarly upregulated in both mechanically and biochemically stimulated motor neurons, but RNA sequencing reveals different transcriptomic signatures between groups, with biochemical stimulation having a greater impact on cell signaling related to axonogenesis and synapse maturation. This study leverages actuating extracellular matrices to robustly validate a previously hypothesized role for muscle contraction in regulating motor neuron growth and maturation from the bottom‐up through both mechanical and biochemical signaling.

show abstract

Actuating Extracellular Matrices Decouple the Mechanical and Biochemical Effects of Muscle Contraction on Motor Neurons

Bu,

Afghah,

Castro

et al. 2024

Adv Healthcare Materials

View full text Add to dashboard Cite

show abstract

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Leveraging microtopography to pattern multi-oriented muscle actuators

Cited by 1 publication

References 65 publications

Actuating Extracellular Matrices Decouple the Mechanical and Biochemical Effects of Muscle Contraction on Motor Neurons

Actuating Extracellular Matrices Decouple the Mechanical and Biochemical Effects of Muscle Contraction on Motor Neurons

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