在活体小鼠中阻断脊髓传入神经与大脑的通讯。

Disengaging spinal afferent nerve communication with the brain in live mice.

机构信息

Visceral Neurophysiology Laboratory, College of Medicine and Public Health, Flinders Health and Medical Research Institute, Flinders University, Bedford Park, SA, Australia.

Visceral Pain Research Group, College of Medicine and Public Health, Flinders Health and Medical Research Institute, Flinders University, Bedford Park, SA, Australia.

出版信息

Commun Biol. 2022 Sep 14;5(1):915. doi: 10.1038/s42003-022-03876-x.

DOI:10.1038/s42003-022-03876-x

PMID:36104503

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9475039/

Abstract

Our understanding of how abdominal organs (like the gut) communicate with the brain, via sensory nerves, has been limited by a lack of techniques to selectively activate or inhibit populations of spinal primary afferent neurons within dorsal root ganglia (DRG), of live animals. We report a survival surgery technique in mice, where select DRG are surgically removed (unilaterally or bilaterally), without interfering with other sensory or motor nerves. Using this approach, pain responses evoked by rectal distension were abolished by bilateral lumbosacral L5-S1 DRG removal, but not thoracolumbar T13-L1 DRG removal. However, animals lacking T13-L1 or L5-S1 DRG both showed reduced pain sensitivity to distal colonic distension. Removal of DRG led to selective loss of peripheral CGRP-expressing spinal afferent axons innervating visceral organs, arising from discrete spinal segments. This method thus allows spinal segment-specific determination of sensory pathway functions in conscious, free-to-move animals, without genetic modification.

摘要

我们对于腹部器官（如肠道）如何通过感觉神经与大脑进行交流的理解，一直受到缺乏选择性激活或抑制背根神经节（DRG）中脊髓初级传入神经元群体的技术的限制。我们在小鼠中报告了一种存活手术技术，其中选择性地进行 DRG 手术切除（单侧或双侧），而不会干扰其他感觉或运动神经。使用这种方法，直肠扩张引起的疼痛反应被双侧腰骶部 L5-S1 DRG 切除所消除，但胸腰段 T13-L1 DRG 切除则没有。然而，缺乏 T13-L1 或 L5-S1 DRG 的动物对远端结肠扩张的疼痛敏感性均降低。DRG 的去除导致了表达 CGRP 的外周脊髓传入轴突对内脏器官的支配的选择性丧失，这些轴突起源于离散的脊髓节段。因此，这种方法允许在意识清醒、自由活动的动物中进行特定脊髓节段的感觉通路功能的确定，而无需基因修饰。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/4c41/9475039/78259f6de214/42003_2022_3876_Fig1_HTML.jpg

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在活体小鼠中阻断脊髓传入神经与大脑的通讯。

Disengaging spinal afferent nerve communication with the brain in live mice.

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