Abstract
Background.
Injuries to the peripheral nerve system are common conditions, with broad spectrum of symptoms depending on the impaired nerves and severity of damage. Although peripheral nervous system retains a remarkable ability for regeneration, it is estimated that less than ten percent of patients fully recover function after nerve injury and the available treatments remain suboptimal. Here, we identify a role for the obestatin/GPR39 system in the regulation of the Schwann cell plasticity as well as in the preservation of neuromuscular synapses in the course of nerve repair.
Methods.
Utilizing a compression model of sciatic nerve injury, axonotmesis, we assessed the obestatin-related regenerative response in the peripheral nerve system. The role of the obestatin/GPR39 system was further evaluated on immortalized rat Schwann cells, IFRS1, and the model of neuronal differentiation, PC12 cells. The interactions between SCs and neurons was evaluated using a co-culture system that combine the SC cell line IFRS1 and the NGF-primed PC12.
Results.
Obestatin signaling directs proliferation and migration of Schwann cells that sustain axonal regrowth and later remyelinate regenerated axons. We provide evidence supporting the preservation of skeletal muscle by the maintenance of neuromuscular synapses through the axonal regulation of calpain-calpastatin proteolytic system. This encompasses the control of skeletal muscle homeostasis by regulation of the ubiquitin proteasome system and the autophagy machinery.
Conclusions.
These results provide important insights into how the obestatin/GPR39 system promotes nerve repair through integration of multiple molecular cues of neuron-Schwann cells crosstalk aimed to promote axon growth and guide axons back to their targets.
Acetylcholinesterase and Butyrylcholinesterase – Important Enzymes of Human Body
