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舌下前核的背侧被盖核和展神经核的解剖投射来自于核旁正中舌下核中的不同细胞群体,但在内侧前庭核中则有重叠的细胞群体。

Anatomical projections to the dorsal tegmental nucleus and abducens nucleus arise from separate cell populations in the nucleus prepositus hypoglossi, but overlapping cell populations in the medial vestibular nucleus.

机构信息

Department of Psychological and Brain Sciences, Dartmouth College, Hanover, New Hampshire, USA.

出版信息

J Comp Neurol. 2021 Jul 1;529(10):2706-2726. doi: 10.1002/cne.25119. Epub 2021 Mar 7.

DOI:10.1002/cne.25119
PMID:33511641
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8113086/
Abstract

Specialized circuitry in the brain processes spatial information to provide a sense of direction used for navigation. The dorsal tegmental nucleus (DTN) is a core component of this circuitry and utilizes vestibular inputs to generate neural activity encoding the animal's directional heading. Projections arising from the nucleus prepositus hypoglossi (NPH) and the medial vestibular nucleus (MVe) are thought to transmit critical vestibular signals to the DTN and other brain areas, including the abducens nucleus (ABN), a component of eye movement circuitry. Here, we utilized a dual retrograde tracer approach in rats to investigate whether overlapping or distinct populations of neurons project from the NPH or MVe to the DTN and ABN. We report that individual MVe neurons project to both the DTN and ABN. In contrast, we observed individual NPH neurons that project to either the DTN or ABN, but rarely to both structures simultaneously. We also examined labeling patterns in other structures located in the brainstem and posterior cortex and observed (1) complex patterns of interhemispheric connectivity between the left and right DTN, (2) projections from the supragenual nucleus, interpeduncular nucleus, and retrosplenial cortex to the DTN, (3) projections from the lateral superior olive to the ABN, and (4) a unique population of cerebrospinal fluid-contacting neurons in the dorsal raphe nucleus. Collectively, our experiments provide valuable new information that extends our understanding of the anatomical organization of the brain's spatial processing circuitry.

摘要

大脑中的特定电路处理空间信息,为导航提供方向感。背侧被盖核(DTN)是该电路的核心组成部分,它利用前庭输入产生编码动物方向的神经活动。来自舌下神经前核(NPH)和内侧前庭核(MVe)的投射被认为将关键的前庭信号传递到 DTN 和其他脑区,包括眼球运动电路的一部分——外展神经核(ABN)。在这里,我们在大鼠中使用双逆行示踪剂方法来研究来自 NPH 或 MVe 的神经元是否投射到 DTN 和 ABN 中的重叠或不同群体。我们报告说,单个 MVe 神经元投射到 DTN 和 ABN。相比之下,我们观察到单个 NPH 神经元投射到 DTN 或 ABN,但很少同时投射到这两个结构。我们还检查了位于脑干和后皮质中的其他结构的标记模式,并观察到:(1)左、右 DTN 之间的半球间连接的复杂模式;(2)来自上丘核、脚间核和后穹窿皮质的投射到 DTN;(3)来自外侧上橄榄核的投射到 ABN;(4)中缝背核中独特的脑脊液接触神经元群体。总的来说,我们的实验提供了有价值的新信息,扩展了我们对大脑空间处理电路解剖组织的理解。

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