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TIGAR plays neuroprotective roles in KA-induced excitotoxicity through reducing neuroinflammation and improving mitochondrial function

Si-si Huang, Yi-Chao Sheng, Yi‐Yue Jiang, Na Liu, Miaomiao Lin, Junchao Wu, Zhong‐Qin Liang, Zheng‐Hong Qin, Yan Wang

2021Neurochemistry International53 citationsDOIOpen Access PDF

Abstract

Excitotoxicity refers to the ability of excessive extracellular excitatory amino acids to damage neurons via receptor activation. It is a crucial pathogenetic process in neurodegenerative diseases. TP53 is confirmed to be involved in excitotoxicity. It is demonstrated that TP53 induced glycolysis and apoptotic regulator (TIGAR)-regulated metabolic pathway can protect against neuronal injury. However, the role of TIGAR in excitotoxicity and specific mechanisms is still unknown. In this study, an in vivo excitotoxicity model was constructed via stereotypical kainic acid (KA) injection into the striatum of mice. KA reduced TIGAR expression levels, neuroinflammatory responses and mitochondrial dysfunction. TIGAR overexpression could reverse KA-induced neuronal injury by reducing neuroinflammation and improving mitochondrial function, thereby exerting neuroprotective effects. Therefore, this study could provide a potential therapeutic target for neurodegenerative diseases.

Topics & Concepts

ExcitotoxicityNeuroprotectionNeuroinflammationKainic acidNeurodegenerationNeuroscienceBiologyPharmacologyChemistryCell biologyGlutamate receptorReceptorMedicineBiochemistryInternal medicineImmunologyInflammationDiseaseAlzheimer's disease research and treatmentsCell death mechanisms and regulationNeuroscience and Neuropharmacology Research