Exogenous CGRP Regulates Apoptosis and Autophagy to Alleviate Traumatic Brain Injury Through Akt/mTOR Signalling Pathway

With millions of traumatic brain injury (TBI) patients every year, TBI is regarded as one of the leading causes of human death and disability. Calcitonin gene-related peptide (CGRP) has been domenstrated to be a potential therapeutic target for TBI. However, the detailed effect and underlying mechanism of CGRP on the injured brain after TBI has hardly been investigated. In this work, we established TBI models of mice and injected CGRP before and after modelling to study its effects on the brain lesion, neurological functions and behaviours, neuron apoptosis and autophagy after TBI. Impacts of introduced CGRP on the activation of Akt/mTOR signalling in the cortical tissues surrounding injured areas after TBI were also evaluated. It was found that CGRP was reduced after TBI, and gradually restored over time. CGRP administration significantly restored the brain lesion induced by TBI. The permeability of blood–brain barrier and brain edema was increased dramatically after TBI, which was ameliorated by exogenous CGRP. Moreover, several neurological behaviour tests were performed, showing that CGRP introduction also relieved the cognitive abilities of mice which were impaired after TBI. Enhancing apoptosis and autophagy of neurons in the cortical tissues of injury sites following TBI were also alleviated by CGRP administration. Besides, CGRP-treated brain cortical tissues showed increased activation of Akt/mTOR signalling after TBI. Therefore, the results suggest that exogenous CGRP plays a neuroprotective role in the injuryed brain after TBI, to relieve cell apoptosis and autophagy, at least partially through Akt/mTOR signalling pathway. This finding also provides more evidence for the treatment of TBI through introducing exogenous CGRP or its related drugs.