Litcius/Paper detail

Effects of PACAP on Schwann Cells: Focus on Nerve Injury

Grazia Maugeri, Agata Grazia D’Amico, Giuseppe Musumeci, Dóra Reglődi, Velia D’Agata

2020International Journal of Molecular Sciences57 citationsDOIOpen Access PDF

Abstract

Schwann cells, the most abundant glial cells of the peripheral nervous system, represent the key players able to supply extracellular microenvironment for axonal regrowth and restoration of myelin sheaths on regenerating axons. Following nerve injury, Schwann cells respond adaptively to damage by acquiring a new phenotype. In particular, some of them localize in the distal stump to form the Bungner band, a regeneration track in the distal site of the injured nerve, whereas others produce cytokines involved in recruitment of macrophages infiltrating into the nerve damaged area for axonal and myelin debris clearance. Several neurotrophic factors, including pituitary adenylyl cyclase-activating peptide (PACAP), promote survival and axonal elongation of injured neurons. The present review summarizes the evidence existing in the literature demonstrating the autocrine and/or paracrine action exerted by PACAP to promote remyelination and ameliorate the peripheral nerve inflammatory response following nerve injury.

Topics & Concepts

RemyelinationNerve guidance conduitRegeneration (biology)Nerve injuryMyelinCiliary neurotrophic factorParacrine signallingSchwann cellPeripheral nerve injuryAdenylyl cyclaseNeuroscienceNeurotrophinNeurotrophic factorsCell biologyPeripheral nervous systemAxonBiologyMedicineCentral nervous systemInternal medicineStimulationReceptorNeuropeptides and Animal PhysiologyNerve injury and regenerationSignaling Pathways in Disease