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蒙古沙鼠外侧上橄榄核的抑制性和兴奋性细胞类型的音位分布和下丘投射模式。

Tonotopic distribution and inferior colliculus projection pattern of inhibitory and excitatory cell types in the lateral superior olive of Mongolian gerbils.

机构信息

Department of Anatomy and Neurobiology, Hearing Research Group, Northeast Ohio Medical University, Rootstown, Ohio, USA.

Brain Health Research Institute, Kent State University, Kent, Ohio, USA.

出版信息

J Comp Neurol. 2022 Feb;530(2):506-517. doi: 10.1002/cne.25226. Epub 2021 Aug 11.

Abstract

Sound localization critically relies on brainstem neurons that compare information from the two ears. The conventional role of the lateral superior olive (LSO) is extraction of intensity differences; however, it is increasingly clear that relative timing, especially of transients, is also an important function. Cellular diversity within the LSO that is not well understood may underlie its multiple roles. There are glycinergic inhibitory and glutamatergic excitatory principal neurons in the LSO, however, there is some disagreement regarding their relative distribution and projection pattern. Here we employ in situ hybridization to definitively identify transmitter types combined with retrograde labeling of projections to the inferior colliculus (IC) to address these questions. Excitatory LSO neurons were more numerous (76%) than inhibitory ones. A smaller proportion of inhibitory neurons were IC-projecting (45% vs. 64% for excitatory) suggesting that inhibitory LSO neurons may have more projections to other regions such the lateral lemniscus or more distributed IC projections. Inhibitory LSO neurons almost exclusively projected ipsilaterally making up a sizeable proportion (41%) of the transmitter type-labeled ipsilateral IC projection from LSO and exhibited a moderate low frequency bias (10% difference H-L). Two thirds of excitatory neurons projected contralaterally and had a slight high frequency bias (4%). One third of excitatory LSO neurons projected ipsilaterally to the IC and these cells were strongly biased toward the low frequency limb of the LSO (37%). This projection appears to be species specific in animals with good low frequency hearing suggesting that it may be a specialization for such ability.

摘要

声音定位严重依赖于比较双耳信息的脑干神经元。外侧上橄榄核(LSO)的传统作用是提取强度差异;然而,越来越清楚的是,相对时间,特别是瞬态,也是一个重要的功能。LSO 内尚未被很好理解的细胞多样性可能是其多种功能的基础。LSO 中有甘氨酸能抑制性和谷氨酸能兴奋性主神经元,但关于它们的相对分布和投射模式存在一些分歧。在这里,我们采用原位杂交技术来明确鉴定递质类型,并结合对下丘(IC)的逆行标记来解决这些问题。兴奋性 LSO 神经元比抑制性神经元多(76%)。抑制性神经元中投射到 IC 的比例较小(45%比兴奋性神经元的 64%),这表明抑制性 LSO 神经元可能具有更多投射到其他区域(如外侧丘系)或更分布的 IC 投射。抑制性 LSO 神经元几乎完全投射到同侧,构成了同侧 LSO 到 IC 的递质类型标记投射的相当大比例(41%),并表现出适度的低频偏向(10%的 H-L 差异)。三分之二的兴奋性神经元投射到对侧,具有轻微的高频偏向(4%)。三分之一的兴奋性 LSO 神经元投射到同侧的 IC,这些细胞强烈偏向 LSO 的低频臂(37%)。这种投射在具有良好低频听力的动物中是种特异性的,表明它可能是对这种能力的专门化。

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