Effective Regulation of Auditory Processing by Parvalbumin Interneurons in the Tail of the Striatum

Xuan Li, Jiapeng You, Yidi Pan, Changbao Song, Hai-fu Li, Xuying Ji, F. Liang
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Abstract

Parvalbumin (PV) interneurons in the auditory cortex (AC) play a crucial role in shaping auditory processing, including receptive field formation, temporal precision enhancement, and gain regulation. PV interneurons are also the primary inhibitory neurons in the tail of the striatum (TS), which is one of the major descending brain regions in the auditory nervous system. However, the specific roles of TS-PV interneurons in auditory processing remain elusive. In this study, morphological and slice recording experiments in both male and female mice revealed that TS-PV interneurons, compared to AC-PV interneurons, were present in fewer numbers but exhibited longer projection distances, which enabled them to provide sufficient inhibitory inputs to spiny projection neurons (SPNs). Furthermore, TS-PV interneurons received dense auditory input from both the AC and medial geniculate body (MGB), particularly from the MGB, which rendered their auditory responses comparable to those of AC-PV interneurons. Optogenetic manipulation experiments demonstrated that TS-PV interneurons were capable of bidirectionally regulating the auditory responses of SPNs. Our findings suggest that PV interneurons can effectively modulate auditory processing in the TS and may play a critical role in auditory-related behaviors.Significance StatementPV interneurons are one of the main inhibitory cell types in the TS, even though they are relatively scarce. Currently, it remains unclear whether or to what extent these neurons contribute to auditory processing in the TS. Here, we demonstrated that optogenetic manipulation of PV neuron activity significantly altered the auditory responses of SPNs, providing valuable insights into the role of the TS PV interneurons in auditory processing and their potential role in auditory-related behaviors.
纹状体尾部的副发光体中间神经元对听觉处理的有效调节
听觉皮层的小白蛋白(PV)中间神经元在听觉加工过程中起着重要作用,包括感受野形成、时间精度增强和增益调节。PV中间神经元也是位于纹状体尾部的初级抑制神经元,是听觉神经系统的主要下行脑区之一。然而,TS-PV中间神经元在听觉加工中的具体作用尚不清楚。在本研究中,雌雄小鼠的形态学和切片记录实验表明,与AC-PV中间神经元相比,TS-PV中间神经元数量较少,但投射距离更长,这使得它们能够为棘投射神经元(SPNs)提供足够的抑制输入。此外,TS-PV中间神经元接受来自AC和内侧膝状体(MGB)的密集听觉输入,特别是来自MGB的听觉输入,这使得它们的听觉反应与AC- pv中间神经元相当。光遗传操作实验表明,TS-PV中间神经元能够双向调节spn的听觉反应。我们的研究结果表明,PV中间神经元可以有效地调节TS中的听觉加工,并可能在听觉相关行为中发挥关键作用。pv中间神经元是TS中主要的抑制性细胞类型之一,尽管它们相对较少。目前,尚不清楚这些神经元是否或在多大程度上参与了TS的听觉加工。在这里,我们证明了光遗传学操作PV神经元活动显著改变了spn的听觉反应,为TS PV中间神经元在听觉加工中的作用及其在听觉相关行为中的潜在作用提供了有价值的见解。
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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