Intranasal Exendin-4 modifies necroptosis-mediated innate immune response to combat septic encephalopathy in rats: Role of mTORC1 in immunogenic and tolerogenic cell demise

Septic encephalopathy (SE) is a critical mental status associated with potential long-term cognitive deficits and higher mortality rates in ICU patients. The shortfall in comprehending its pathophysiology limits effective treatment options, however, GLP-1 agonists opened an entry point for future neurodegenerative disease management. This work aims to explore the mTORC1 prospective role in the pathogenesis of SE using rapamycin (RAPA) and investigate the involvement of this complex in exendin-4 (EX4) neurotherapeutic potential using cecal ligation and puncturing (CLP)-induced SE model, focusing on necroptosis as a novel intervention besides necrosis and apoptosis. EX4 was administered intranasally alone or preceded by RAPA, which was also solely given to male Sprague-Dawley rats subjected to CLP. First, opposite to the SE effect, RAPA inhibited mTORC1 and blunted TNF-α-induced necroptosis and Drp1, a mitochondrial fission marker. However, RAPA worsened the SE effect on endotoxemia, functional/cortical structures, and apoptotic/necrotic cell deaths. Second, EX4 increased mTORC1 assembly in the cerebral cortex and reduced sepsis-induced endotoxemia and behavioral/cerebral histopathology deficits in an mTOR-dependent manner. EX4 also reduced the inflammatory marker TNF-α and necroptosis as indicated by RIPK-1/RIPK-3/MLKL dephosphorylation and deactivated PGAM/Drp1 axis. Besides, EX4 turned off the apoptotic cue, caspase-3&8/cytochrome-C. However, RAPA pre-administration nullified the EX4 effect on apoptosis and HMGB1-induced necrosis. In conclusion, our research declares that targeting mTORC1 could be a promising approach for managing SE. Additionally, we highlight that the novel neuroprotective effect of EX4 in ameliorating SE is achieved by reducing necroptosis and utilizing the anti-apoptotic and anti-necrotic properties of mTORC1.