Neural processing in the primary auditory cortex following cholinergic lesions of the basal forebrain in ferrets

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Fernando R. Nodal , Nicholas D. Leach , Peter Keating , Johannes C. Dahmen , Dylan Zhao , Andrew J. King , Victoria M. Bajo
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Abstract

Cortical acetylcholine (ACh) release has been linked to various cognitive functions, including perceptual learning. We have previously shown that cortical cholinergic innervation is necessary for accurate sound localization in ferrets, as well as for their ability to adapt with training to altered spatial cues. To explore whether these behavioral deficits are associated with changes in the response properties of cortical neurons, we recorded neural activity in the primary auditory cortex (A1) of anesthetized ferrets in which cholinergic inputs had been reduced by making bilateral injections of the immunotoxin ME20.4-SAP in the nucleus basalis (NB) prior to training the animals. The pattern of spontaneous activity of A1 units recorded in the ferrets with cholinergic lesions (NB ACh) was similar to that in controls, although the proportion of burst-type units was significantly lower. Depletion of ACh also resulted in more synchronous activity in A1. No changes in thresholds, frequency tuning or in the distribution of characteristic frequencies were found in these animals. When tested with normal acoustic inputs, the spatial sensitivity of A1 neurons in the NB ACh ferrets and the distribution of their preferred interaural level differences also closely resembled those found in control animals, indicating that these properties had not been altered by sound localization training with one ear occluded. Simulating the animals’ previous experience with a virtual earplug in one ear reduced the contralateral preference of A1 units in both groups, but caused azimuth sensitivity to change in slightly different ways, which may reflect the modest adaptation observed in the NB ACh group. These results show that while ACh is required for behavioral adaptation to altered spatial cues, it is not required for maintenance of the spectral and spatial response properties of A1 neurons.

雪貂前脑基底胆碱能损伤后初级听觉皮层的神经处理过程
皮层乙酰胆碱(ACh)的释放与包括知觉学习在内的各种认知功能有关。我们之前已经证明,皮质胆碱能神经支配是雪貂准确声音定位的必要条件,也是雪貂通过训练适应改变的空间线索的必要条件。为了探索这些行为缺陷是否与大脑皮层神经元反应特性的变化有关,我们记录了麻醉雪貂初级听觉皮层(A1)的神经活动,在训练动物之前,通过在基底核(NB)双侧注射免疫毒素 ME20.4-SAP,减少了雪貂的胆碱能输入。胆碱能损伤雪貂(NB ACh-)记录到的 A1 单元自发活动模式与对照组相似,但爆发型单元的比例明显降低。ACh 的耗竭也导致 A1 的同步活动增加。这些动物的阈值、频率调谐或特征频率分布均未发生变化。用正常声输入进行测试时,NB ACh 雪貂 A1 神经元的空间灵敏度及其偏好的耳际电平差分布也与对照组动物非常相似,这表明这些特性并未因单耳闭塞的声音定位训练而改变。模拟动物之前在一只耳朵上使用虚拟耳塞的经历降低了两组 A1 单元的对侧偏好,但导致方位敏感性的变化方式略有不同,这可能反映了在 NB ACh- 组观察到的适度适应。这些结果表明,虽然行为适应改变的空间线索需要 ACh,但维持 A1 神经元的频谱和空间反应特性却不需要 ACh。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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