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MicroRNA134 of Ventral Hippocampus Is Involved in Cocaine Extinction-Induced Anxiety-like and Depression-like Behaviors in Mice

Yuehan Li, Xue Lu, Jiaxun Nie, Panpan Hu, Feifei Ge, Ti‐Fei Yuan, Xiaowei Guan

2020Molecular Therapy — Nucleic Acids17 citationsDOIOpen Access PDF

Abstract

We previously found that cocaine abuse could increase microRNA134 (miR134) levels in the hippocampus; yet the roles of miR134 in cocaine-related abnormal psychiatric outcomes remain unknown. In this study, using the cocaine-induced conditioned place preference (CPP) mice model, we found that mice exhibit enhanced anxiety-like and depression-like behaviors during the cocaine extinction (CE) period of CPP, accompanied by obviously increased miR134 levels and decreased levels of 19 genes that are associated with synaptic plasticity, glia activity, and neurochemical microenvironments, in the ventral hippocampus (vHP). Knockdown of miR134 in vHP in vivo reversed the changes in 15 of 19 potential gene targets of miR134 and rescued the abnormal anxiety-like and depression-like behavioral outcomes in CE mice. In parallel, knockdown of miR134 reversed CE-induced changes in dendritic spines and synaptic proteins and increased the field excitatory postsynaptic potential (fEPSP) of CA1 pyramidal neurons in the vHP of CE mice. In addition, knockdown of miR134 suppressed the CE-enhanced microglia activity, inflammatory, apoptotic, and oxidative stress statuses in the vHP. With the data taken together, miR134 may be involved in cocaine-associated psychiatric problems, potentially via regulating the expressions of its gene targets that are related to synaptic plasticity and neurochemical microenvironments.

Topics & Concepts

NeurochemicalConditioned place preferenceHippocampusGene knockdownNeuroscienceExcitatory postsynaptic potentialSynaptic plasticityExtinction (optical mineralogy)NeurotransmissionEndocrinologyPsychologyInternal medicineMedicineChemistryAddictionApoptosisInhibitory postsynaptic potentialReceptorBiochemistryMineralogyNeurogenesis and neuroplasticity mechanismsNeuroinflammation and Neurodegeneration MechanismsMicroRNA in disease regulation