海马功能的β-肾上腺素能控制:为突触信息储存和记忆的编排服务

Hardy Hagena, Niels Hansen, D. Manahan‐Vaughan
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引用次数: 115

摘要

去甲肾上腺素(NA)是调节行为状态和认知的重要神经调节剂。它通过提高觉醒和警觉性来支持学习,因此新的体验被“指定”用于编码。在海马体内,经验依赖的信息存储通过突触可塑性发生。此外,新的空间、语境或联想学习驱动突触强度的变化,反映在长期增强(LTP)或长期抑制(LTD)的增强上。NA作用于β-肾上腺素能受体(β-AR)是新体验是否导致海马突触持续可塑性的关键决定因素。这甚至可以指示突触强度变化的方向。不同的海马体子区在通过LTP和LTD编码空间表征成分方面发挥着不同的作用。值得注意的是,这些亚区突触可塑性对β-肾上腺素能控制的敏感性非常明显(齿状回> CA3 > CA1)。此外,蓝斑释放的NA作用于β-AR导致海马LTD和LTD相关记忆加工的增强。我们认为,NA作用于海马体β-AR,根据经验的新颖性或显著性分级,决定了海马体亚区突触信息存储的内容和持久性,从而决定了空间记忆的内容和持久性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
β-Adrenergic Control of Hippocampal Function: Subserving the Choreography of Synaptic Information Storage and Memory
Noradrenaline (NA) is a key neuromodulator for the regulation of behavioral state and cognition. It supports learning by increasing arousal and vigilance, whereby new experiences are “earmarked” for encoding. Within the hippocampus, experience-dependent information storage occurs by means of synaptic plasticity. Furthermore, novel spatial, contextual, or associative learning drives changes in synaptic strength, reflected by the strengthening of long-term potentiation (LTP) or long-term depression (LTD). NA acting on β-adrenergic receptors (β-AR) is a key determinant as to whether new experiences result in persistent hippocampal synaptic plasticity. This can even dictate the direction of change of synaptic strength. The different hippocampal subfields play different roles in encoding components of a spatial representation through LTP and LTD. Strikingly, the sensitivity of synaptic plasticity in these subfields to β-adrenergic control is very distinct (dentate gyrus > CA3 > CA1). Moreover, NA released from the locus coeruleus that acts on β-AR leads to hippocampal LTD and an enhancement of LTD-related memory processing. We propose that NA acting on hippocampal β-AR, that is graded according to the novelty or saliency of the experience, determines the content and persistency of synaptic information storage in the hippocampal subfields and therefore of spatial memories.
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