杏仁核中生长抑素表达神经元的靶向投射到下丘脑和脑干。

Target-specific projections of amygdala somatostatin-expressing neurons to the hypothalamus and brainstem.

机构信息

Department of Anatomical Sciences and Neurobiology, University of Louisville School of Medicine, Louisville, KY 40202, USA.

出版信息

Chem Senses. 2022 Jan 1;47. doi: 10.1093/chemse/bjac009.

DOI:10.1093/chemse/bjac009

PMID:35522083

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9074687/

Abstract

Somatostatin neurons in the central nucleus of the amygdala (CeA/Sst) can be parsed into subpopulations that project either to the nucleus of the solitary tract (NST) or parabrachial nucleus (PBN). We have shown recently that inhibition of CeA/Sst-to-NST neurons increased the ingestion of a normally aversive taste stimulus, quinine HCl (QHCl). Because the CeA innervates other forebrain areas such as the lateral hypothalamus (LH) that also sends axonal projections to the NST, the effects on QHCl intake could be, in part, the result of CeA modulation of LH-to-NST neurons. To address these issues, the present study investigated whether CeA/Sst-to-NST neurons are distinct from CeA/Sst-to-LH neurons. For comparison purposes, additional experiments assessed divergent innervation of the LH by CeA/Sst-to-PBN neurons. In Sst-cre mice, two different retrograde transported flox viruses were injected into the NST and the ipsilateral LH or PBN and ipsilateral LH. The results showed that 90% or more of retrograde-labeled CeA/Sst neurons project either to the LH, NST, or PBN. Separate populations of CeA/Sst neurons projecting to these different regions suggest a highly heterogeneous population in terms of synaptic target and likely function.

摘要

杏仁中央核（CeA/Sst）中的生长抑素神经元可以分为投射到孤束核（NST）或臂旁核（PBN）的亚群。我们最近已经表明，抑制 CeA/Sst 到 NST 神经元的活动会增加对正常厌恶味觉刺激物——盐酸奎宁（QHCl）的摄入。由于 CeA 支配其他前脑区域，如外侧下丘脑（LH），其也向 NST 发送轴突投射，因此对 QHCl 摄入的影响可能部分是由于 CeA 对 LH 到 NST 神经元的调节。为了解决这些问题，本研究探讨了 CeA/Sst 到 NST 神经元是否与 CeA/Sst 到 LH 神经元不同。出于比较目的，还进行了其他实验来评估 CeA/Sst 到 PBN 神经元对 LH 的不同支配。在 Sst-cre 小鼠中，将两种不同的逆行转运 flox 病毒注入 NST 和同侧 LH 或 PBN 及同侧 LH。结果表明，逆行标记的 CeA/Sst 神经元中有 90%或更多的神经元投射到 LH、NST 或 PBN。投射到这些不同区域的 CeA/Sst 神经元的不同群体表明，就突触靶标和可能的功能而言，其是一个高度异质的群体。

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