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成年海马体内 NMDA 受体依赖性突触前稳态:突触生长和跨模态抑制性可塑性。

NMDAR-dependent presynaptic homeostasis in adult hippocampus: Synapse growth and cross-modal inhibitory plasticity.

机构信息

Department of Biochemistry and Biophysics, Kavli Institute for Fundamental Neuroscience, University of California, San Francisco, San Francisco, CA 94941, USA.

Department of Biological Sciences, Dartmouth College, Hanover, NH 03755, USA.

出版信息

Neuron. 2022 Oct 19;110(20):3302-3317.e7. doi: 10.1016/j.neuron.2022.08.014. Epub 2022 Sep 6.

DOI:10.1016/j.neuron.2022.08.014
PMID:36070750
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9588671/
Abstract

Homeostatic plasticity (HP) encompasses a suite of compensatory physiological processes that counteract neuronal perturbations, enabling brain resilience. Currently, we lack a complete description of the homeostatic processes that operate within the mammalian brain. Here, we demonstrate that acute, partial AMPAR-specific antagonism induces potentiation of presynaptic neurotransmitter release in adult hippocampus, a form of compensatory plasticity that is consistent with the expression of presynaptic homeostatic plasticity (PHP) documented at peripheral synapses. We show that this compensatory plasticity can be induced within minutes, requires postsynaptic NMDARs, and is expressed via correlated increases in dendritic spine volume, active zone area, and docked vesicle number. Further, simultaneous postsynaptic genetic reduction of GluA1, GluA2, and GluA3 in triple heterozygous knockouts induces potentiation of presynaptic release. Finally, induction of compensatory plasticity at excitatory synapses induces a parallel, NMDAR-dependent potentiation of inhibitory transmission, a cross-modal effect consistent with the anti-epileptic activity of AMPAR-specific antagonists used in humans.

摘要

内稳态可塑性(HP)包含一系列代偿性生理过程,可抵消神经元的干扰,使大脑具有弹性。目前,我们缺乏对哺乳动物大脑内稳态过程的完整描述。在这里,我们证明急性、部分 AMPAR 特异性拮抗作用会诱导成年海马体中突触前神经递质释放的增强,这是一种与在周围突触中记录到的突触前内稳态可塑性(PHP)一致的代偿性可塑性。我们表明,这种代偿性可塑性可以在数分钟内诱导,需要突触后 NMDA 受体,并通过树突棘体积、活性区面积和停泊囊泡数量的相关性增加来表达。此外,在三重杂合敲除小鼠中同时进行突触后遗传减少 GluA1、GluA2 和 GluA3 会诱导突触前释放的增强。最后,兴奋性突触的代偿性可塑性诱导会引起平行的、NMDA 受体依赖性的抑制性传递增强,这是一种与人类中使用的 AMPAR 特异性拮抗剂的抗癫痫活性一致的跨模态效应。

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