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Pyridoxine induces glutathione synthesis via PKM2-mediated Nrf2 transactivation and confers neuroprotection

Wei Yao, Ming Lu, Meng Mei, Haoran Wang, Zhitao Han, Miaomiao Chen, Hang Yao, Nanshan Song, Xiao Ding, Jianhua Ding, Ming Xiao, Gang Hu

2020Nature Communications192 citationsDOIOpen Access PDF

Abstract

Oxidative stress is a major pathogenic mechanism in Parkinson's disease (PD). As an important cellular antioxidant, glutathione (GSH) balances the production and incorporation of free radicals to protect neurons from oxidative damage. GSH level is decreased in the brains of PD patients. Hence, clarifying the molecular mechanism of GSH deficiency may help deepen our knowledge of PD pathogenesis. Here we report that the astrocytic dopamine D2 receptor (DRD2) regulates GSH synthesis via PKM2-mediated Nrf2 transactivation. In addition we find that pyridoxine can dimerize PKM2 to promote GSH biosynthesis. Further experiments show that pyridoxine supplementation increases the resistance of nigral dopaminergic neurons to 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP)-induced neurotoxicity in wild-type mice as well as in astrocytic Drd2 conditional knockout mice. We conclude that dimerizing PKM2 may be a potential target for PD treatment.

Topics & Concepts

GlutathioneTransactivationNeuroprotectionOxidative stressNeurotoxicityPKM2ChemistryPharmacologyPyridoxineBiochemistryCell biologyBiologyToxicityGlycolysisMetabolismTranscription factorGeneOrganic chemistryEnzymePyruvate kinaseGenomics, phytochemicals, and oxidative stressTryptophan and brain disordersAdenosine and Purinergic Signaling
Pyridoxine induces glutathione synthesis via PKM2-mediated Nrf2 transactivation and confers neuroprotection | Litcius