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Astrocyte‐selective <scp>STAT3</scp> knockdown rescues methamphetamine withdrawal‐disrupted spatial memory in mice via restoring the astrocytic capacity of glutamate clearance in <scp>dCA1</scp>

Pengbo Shi, Zhaosu Li, Teng He, Nanqin Li, Xing Xu, Peiyao Yu, Xue Lü, Jiaxun Nie, Dekang Liu, Qinglong Cai, Yun Guan, Feifei Ge, Jun Wang, Xiaowei Guan

2021Glia14 citationsDOI

Abstract

Methamphetamine (METH) is a common abused drug. METH-triggered glutamate (Glu) levels in dorsal CA1 (dCA1) could partially explain the etiology of METH-caused abnormal memory, but the synaptic mechanism remains unclear. Here, we found that METH withdrawal disrupted spatial memory in mice, accompanied by the increases in Glu levels and postsynaptic neuronal activities at dCA1 synapses. METH withdrawal weakened the capacity of Glu clearance in astrocytes, as indicated by increasing the A1-like astrocytes and phosphorylated signal transducer and activator of transcription 3 (p-STAT3), decreasing the Glu transporter 1(GLT-1, also known as EAAT2 or SLC1A2), Glu-aspartate-transporter (GLAST also known as EAAT1 or SLC1A3) and astrocytic glutamine synthase (GS), but failed to affect the presynaptic Glu release from dCA3 within dCA1. Moreover, we identified that in vitro A1-like astrocytes exhibited an increased STAT3 activation and the impaired capacity of Glu clearance. Most importantly, selective knockdown of astrocytic STAT3 in vivo in dCA1 restored the astrocytic capacity of Glu clearance, normalized Glu levels at dCA1 synapses, and finally rescued METH withdrawal-disrupted spatial memory in mice. Thus, astrocytic Glu clearance system, especially STAT3, serves as a novel target for future therapies against METH neurotoxicity.

Topics & Concepts

Meth-AstrocyteMethamphetamineGlutamate receptorBiologyNeurotoxicityGene knockdownSTAT3NeuroscienceSynaptic cleftCell biologyNeurotransmitterPharmacologyInternal medicineCentral nervous systemSignal transductionChemistryBiochemistryToxicityMedicineReceptorApoptosisMonomerOrganic chemistryPolymerAcrylateNeuroscience and Neuropharmacology ResearchNeuroinflammation and Neurodegeneration MechanismsMemory and Neural Mechanisms