Auditory fear conditioning alters neural gain in the cochlear nucleus: a wireless neural recording study in freely behaving rats.

Q4 Neuroscience
Neuronal signaling Pub Date : 2020-11-16 eCollection Date: 2020-12-01 DOI:10.1042/NS20200009
Antonio G Paolini, Simeon J Morgan, Jee Hyun Kim
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引用次数: 3

Abstract

Anxiety disorders involve distorted perception of the world including increased saliency of stress-associated cues. However, plasticity in the initial sensory regions of the brain following a fearful experience has never been examined. The cochlear nucleus (CN) is the first station in the central auditory system, with heterogeneous collections of neurons that not only project to but also receive projections from cortico-limbic regions, suggesting a potential for experience-dependent plasticity. Using wireless neural recordings in freely behaving rats, we demonstrate for the first time that neural gain in the CN is significantly altered by fear conditioning to auditory sequences. Specifically, the ventral subnuclei significantly increased firing rate to the conditioned tone sequence, while the dorsal subnuclei significantly decreased firing rate during the conditioning session overall. These findings suggest subregion-specific changes in the balance of inhibition and excitation in the CN as a result of conditioning experience. Heart rate was measured as the conditioned response (CR), which showed that while pre-conditioned stimulus (CS) responding did not change across baseline and conditioning sessions, significant changes in heart rate were observed to the tone sequence followed by shock. Heart-rate findings support acquisition of conditioned fear. Taken together, the present study presents first evidence for potential experience-dependent changes in auditory perception that involve novel plasticity within the first site of processing auditory information in the brain.

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听觉恐惧调节改变了耳蜗核的神经增益:对自由行为的大鼠的无线神经记录研究。
焦虑症涉及对世界的扭曲感知,包括与压力相关的线索越来越明显。然而,恐惧经历后大脑初始感觉区域的可塑性从未被研究过。耳蜗核(CN)是中枢听觉系统的第一个站,它有异质的神经元集合,不仅投射到皮质边缘区域,也接受来自皮质边缘区域的投射,这表明可能存在经验依赖的可塑性。利用自由行为大鼠的无线神经记录,我们首次证明了神经网络中的神经增益被听觉序列的恐惧条件反射显著改变。具体来说,腹侧亚核显著增加了对条件调音序列的放电速率,而背侧亚核在整个条件调音过程中显著降低了放电速率。这些发现表明,由于条件反射经验,CN中抑制和兴奋平衡的亚区域特异性变化。心率作为条件反应(CR)进行测量,结果表明,虽然预条件刺激(CS)反应在基线和条件反射过程中没有变化,但在休克后的音调序列中观察到心率的显著变化。心率研究结果支持条件性恐惧的习得。综上所述,本研究首次提出了听觉感知中潜在的经验依赖变化的证据,这种变化涉及大脑中处理听觉信息的第一个部位的新可塑性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
4.60
自引率
0.00%
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审稿时长
14 weeks
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