Temporal lobe epilepsy (TLE) is the most frequent type of focal epilepsy in adults, typically resistant to pharmacological treatment, and mostly presents with cognitive impairment and psychiatric comorbidities. The most common neuropathological hallmark in TLE patients is hippocampal sclerosis (HS). However, the underlying molecular mechanisms involved remain poorly characterized. The dentate gyrus (DG), one specific hippocampal subarea, structural and functional changes imply a key involvement of the DG in the development of TLE. In this study, a isobaric tags for relative and absolute quantitation (iTRAQ)-based quantitative proteomic technique was performed for the analysis of hippocampal DG obtained from patients with TLE-HS compared to control samples obtained from autopsy. Our proteomic data identified 5,583 proteins, of which 82 proteins were upregulated and 90 proteins were downregulated. Bioinformatics analysis indicated that differentially expressed proteins were enriched in "synaptic vesicle," "mitochondrion," "cell-cell adhesion," "regulation of synaptic plasticity," "ATP binding," and "oxidative phosphorylation." Protein-protein interaction network analysis found a pivotal module of 10 proteins that were related to "oxidative phosphorylation." This study has investigated proteomic alterations in the DG region of TLE-HS patients, and paved the way for the better understanding of epileptogenesis mechanisms and future therapeutic intervention.
Keywords: dentate gyrus; hippocampal sclerosis; iTRAQ; quantitative proteomics; temporal lobe epilepsy.
Copyright © 2021 Xiao, Yang, Yan, Feng, Long, Tu, Deng, Chen, Xiao, Long and Zeng.