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AHR 缺失促进成年产生的颗粒神经元的异常形态发生和突触活动,并损害海马依赖的记忆。

AhR Deletion Promotes Aberrant Morphogenesis and Synaptic Activity of Adult-Generated Granule Neurons and Impairs Hippocampus-Dependent Memory.

机构信息

Unidad De Investigación Neurovascular, Dpto. Farmacología y Toxicología, Facultad De Medicina, and Instituto Universitario De Investigación En Neuroquímica (IUIN), Universidad Complutense De Madrid (UCM); Instituto De Investigación Hospital 12 De Octubre (i+12), Madrid, Spain.

Departamento De Bioquímica y Biología Molecular, Facultad De Veterinaria and IUIN, UCM, Madrid, Spain.

出版信息

eNeuro. 2018 Aug 22;5(4). doi: 10.1523/ENEURO.0370-17.2018. eCollection 2018 Jul-Aug.

DOI:10.1523/ENEURO.0370-17.2018
PMID:30225360
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6140122/
Abstract

Newborn granule cells are continuously produced in the subgranular zone of dentate gyrus throughout life. Once these cells mature, they integrate into pre-existing circuits modulating hippocampus-dependent memory. Subsequently, mechanisms controlling generation and maturation of newborn cells are essential for proper hippocampal function. Therefore, we have studied the role of aryl hydrocarbon receptor (AhR), a ligand-activated bHLH-PAS transcription factor, in hippocampus-dependent memory and granule neuronal morphology and function using genetic loss-of-function approaches based on constitutive and inducible-nestin AhR mice. The results presented here show that the impaired hippocampus-dependent memory in AhR absence is not due to its effects on neurogenesis but to aberrant dendritic arborization and an increased spine density, albeit with a lower number of mature mushrooms spines in newborn granule cells, a finding that is associated with an immature electrophysiological phenotype. Together, our data strongly suggest that AhR plays a pivotal role in the regulation of hippocampal function, by controlling hippocampal granule neuron morphology and synaptic maturation.

摘要

新生颗粒细胞在整个生命过程中不断产生于齿状回的颗粒下区。这些细胞成熟后,它们整合到调节海马体依赖记忆的预先存在的回路中。随后,控制新生细胞产生和成熟的机制对于海马体的正常功能至关重要。因此,我们使用基于组成型和诱导型巢蛋白 AhR 小鼠的遗传功能丧失方法,研究了芳香烃受体 (AhR) 在海马体依赖记忆以及颗粒神经元形态和功能中的作用。这里呈现的结果表明,AhR 缺失导致的海马体依赖记忆损伤不是由于其对神经发生的影响,而是由于树突分支异常和棘突密度增加,尽管新生颗粒细胞中成熟蘑菇棘突的数量较少,这一发现与不成熟的电生理表型有关。总之,我们的数据强烈表明,AhR 通过控制海马颗粒神经元的形态和突触成熟,在调节海马体功能方面发挥着关键作用。

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