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Age-related Loss of miR-124 Causes Cognitive Deficits <i>via</i> Derepressing RyR3 Expression

Kai Liu, Yongjia Yin, Yuan Le, Wen Ouyang, Aihua Pan, Jufang Huang, Zhongcong Xie, Qubo Zhu, Jianbin Tong

2022Aging and Disease15 citationsDOIOpen Access PDF

Abstract

Epigenetic alterations of brain contribute to age-related cognitive decline. The challenge now is to identify these tractable epigenetic molecules working as the downstream cell-signaling nodes mediating age-related cognitive decline. Here we reported age-related loss of miR-124 in human and rat brains. To further validate these findings, knockout mice in which one of the three miR-124 genes (miR-124-3) was deleted using CRISPR/Cas9-mediated gene engineering were generated. MiR-124-3 knockout mice developed cognitive deficit phenotype. MiR-124 deficiency in the mouse brain resulted in upregulation of the Ryanodine receptor 3 (<i>RyR3</i>) gene, and the cognitive deficits in miR-124-3 knockout mice were ameliorated by knocking down RyR3 expression using RNAi. In addition, miR-124 deficiency facilitated Aβ42-induced neuron apoptosis. Our work suggested that age-related cognitive decline, at least in part, was associated with miR-124 deficiency and subsequently upregulated RyR3 expression in inducing neuronal death.

Topics & Concepts

Downregulation and upregulationCognitive declinePhenotypeKnockout mouseCognitionEpigeneticsBiologyMedicineNeuroscienceGeneBioinformaticsInternal medicineGeneticsDementiaDiseaseMicroRNA in disease regulationRNA Research and SplicingRNA modifications and cancer