Abstract

Excitatory neurotoxicity caused by the accumulation of glutamate in the synaptic cleft is an important cause of Parkinson's disease (PD). Astrocyte glutamate transporter 1 (GLT-1) is the main transporter responsible for transporting glutamate, and investigations toward the regulation of GLT-1 in astrocytes can reveal important insights. Vitamin C (VC) has important protective effects on the brain, but its effect on the regulation of GLT-1 expression is unclear. The purpose of this study was to explore any regulatory effect of VC on GLT-1 expression in astrocytes and to clarify the possible mechanism of such regulation. We found that GLT-1 expression was impaired in 1-methyl-4-phenylpyridinium iodide (MPP+)-treated astrocytes, and the transport capacity for glutamate was significantly reduced. Pretreatment with VC restored the GLT-1 expression in the MPP+-treated astrocytes. Intraperitoneal VC administration in a PD murine model confirmed that GLT-1 expression was restored in midbrain tissue. The VC-dependent rescue of GLT-1 expression in the MPP+-treated astrocytes was shown to be due to inhibition of GLT-1 ubiquitination. Transcriptome sequence analysis revealed a number of differentially expressed genes as a result of VC treatment on MPP+-treated astrocytes, including the downregulation of HECT Domain E3 ubiquitin protein ligase 1 (Hectd1). After knocking down Hectd1, the impaired GLT-1 expression caused by MPP+ was alleviated, while overexpression of Hectd1 significantly reduced the expression of GLT-1. After overexpression of Hectd1, VC could no longer increase GLT-1 expression of MPP+-treated astrocytes, indicating that HECTD1 is essential for VC regulation of GLT-1. Thus, VC reduces the ubiquitination of GLT-1 in astrocytes by inhibiting the expression of HECTD1. Our findings have identified a novel mechanism by which VC regulates the expression of GLT-1 in astrocytes.

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