Acute sleep deprivation induces synaptic remodeling at the soleus muscle neuromuscular junction in rats

Sleep is important for cognitive and physical performance. Sleep deprivation not only affects neural functions but also results in muscular fatigue. A good night’s sleep reverses these functional derangements caused by sleep deprivation. The role of sleep in brain function has been extensively studied. However, its role in neuromuscular junction or skeletal muscle morphology is sparsely addressed although skeletal muscle atonia and suspended thermoregulation during rapid eye movement sleep possibly provides a conducive environment for the muscle to rest and repair; somewhat similar to slow-wave sleep for synaptic downscaling. In the present study, we have investigated the effect of 24 h sleep deprivation on the neuromuscular junction morphology and neurochemistry using electron microscopy and immunohistochemistry in the rat soleus muscle. Acute sleep deprivation altered synaptic ultra-structure viz. mitochondria, synaptic vesicle, synaptic proteins, basal lamina, and junctional folds needed for neuromuscular transmission. Further acute sleep deprivation showed the depletion of the neurotransmitter acetylcholine and the overactivity of its degrading enzyme acetylcholine esterase at the neuromuscular junction. The impact of sleep deprivation on synaptic homeostasis in the brain has been extensively reported recently. The present evidence from our studies shows new information on the role of sleep on neuromuscular junction homeostasis and its functioning. Statement of significance Sleep causes synaptic downscaling in the brain, and allows the brain to carry out various housekeeping functions. Here we have reported that the function of the sleep-wake cycle on the synaptic homeostasis extends beyond the brain. Acute sleep deprivation caused significant alteration at ultra and macrostructure of antigravity muscle and the neuromuscular junction along with adaptation to new fiber type in rats. These morpho-functional changes were well correlated with the biochemical assessment of the acetylcholine at the neuromuscular junction. These changes were partially recovered when the rats were allowed to recover from sleep deprivation. The findings suggest a new avenue for a sleep study; employing the neuromuscular junction for exploring the effect of sleep at energy and synaptic homeostasis levels. ### Competing Interest Statement The authors have declared no competing interest.