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Geniposide Alleviates Oxidative Stress of Mice With Depression-Like Behaviors by Upregulating Six3os1

Tianyu Zou, Kazuo Sugimoto, Jielin Zhang, Yongxiu Liu, Yiming Zhang, Hao Liang, Yinan Jiang, Jing Wang, Guoxiang Duan, Cheng Mei

2020Frontiers in Cell and Developmental Biology40 citationsDOIOpen Access PDF

Abstract

Depression is a major cause of disease burden and severely impairs well-being of patients around the globe. Geniposide (GP) has been revealed to play a significant role in depression treatment. Of note, RNA sequencing of this study identified highly expressed long non-coding RNA Six3os1 in response to GP treatment. Thus, we aim to explore how GP affected chronic unpredictable mild stress (CUMS)-induced depression-like behaviors in mice in vivo and in vitro and the downstream molecular mechanism related to Six3os1. The relationship of Six3os1, miR-511-3p and Fezf1 was evaluated by dual-luciferase reporter gene assay, RIP assay, and RNA pulling down assay. Ectopic expression and knockdown experiments were developed in CUMS-induced mice and neurons with or without GP treatment. In vitro experiments and behavioral tests were conducted to examine alteration of CUMS-triggered oxidative stress following different interferences. The experimental data validated that GP treatment resulted in high expression of Six3os1 and Fezf1 and poor expression of miR-511-3p in CUMS-induced neurons. Six3os1 activated the AKT signaling pathway by upregulating miR-511-3p-targeted Fezf1. Either GP treatment or overexpression of Six3os1 or Fezf1 alleviated depression-like behaviors of CUMS-induced mice. GP treatment, miR-511-3p inhibition or overexpression of Six3os1 or Fezf1 not only reduced oxidative stress in CUMS-induced mice and neurons, but also reduced CUMS-induced neuronal apoptosis. Collectively, GP treatment-mediated Six3os1 upregulation ameliorated oxidative stress of mice with depression-like behaviors via the miR-511-3p/Fezf1/AKT axis.

Topics & Concepts

Gene knockdownOxidative stressDownregulation and upregulationProtein kinase BIn vivoEctopic expressionApoptosisIn vitroPharmacologyMedicineCell biologyChemistryBiologySignal transductionInternal medicineGeneBiochemistryBiotechnologyAdipose Tissue and MetabolismGenomics, phytochemicals, and oxidative stressStress Responses and Cortisol
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