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The utility of the rodent synergist ablation model in identifying molecular and cellular mechanisms of skeletal muscle hypertrophy

Benjamin I. Burke, Ahmed Ismaeel, John J. McCarthy

2024American Journal of Physiology-Cell Physiology15 citationsDOIOpen Access PDF

Abstract

Skeletal muscle exhibits remarkable plasticity to adapt to stimuli such as mechanical loading. The mechanisms that regulate skeletal muscle hypertrophy due to mechanical overload have been thoroughly studied. Remarkably, our understanding of many of the molecular and cellular mechanisms that regulate hypertrophic growth were first identified using the rodent synergist ablation (SA) model and subsequently corroborated in human resistance exercise training studies. To demonstrate the utility of the SA model, we briefly summarize the hypertrophic mechanisms identified using the model and the following translation of these mechanism to human skeletal muscle hypertrophy induced by resistance exercise training.

Topics & Concepts

Muscle hypertrophySkeletal muscleResistance trainingRodentTranslation (biology)Animal modelMechanism (biology)BiologyNeuroscienceCell biologyInternal medicineMedicineEndocrinologyGeneticsGeneEcologyPhilosophyEpistemologyMessenger RNAMuscle Physiology and DisordersCardiomyopathy and Myosin StudiesMuscle activation and electromyography studies
The utility of the rodent synergist ablation model in identifying molecular and cellular mechanisms of skeletal muscle hypertrophy | Litcius