类似干呕行为的脑回路。

Brain circuits for retching-like behavior.

作者信息

Huo Lifang, Ye Zhimin, Liu Meiling, He Ziqing, Huang Meizhu, Li Dapeng, Wu Qian, Wang Qian, Wang Xiaoqun, Cao Peng, Dong Ji, Shang Congping

机构信息

School of Basic Medical Sciences, Guangzhou National Laboratory, The Fifth Affiliated Hospital, Guangzhou Medical University, Guangzhou 510799, China.

Bioland Laboratory (Guangzhou Regenerative Medicine and Health Guangdong Laboratory), Guangzhou 510320, China.

出版信息

Natl Sci Rev. 2023 Sep 27;11(1):nwad256. doi: 10.1093/nsr/nwad256. eCollection 2024 Jan.

DOI:10.1093/nsr/nwad256

PMID:38288368

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10824557/

Abstract

Nausea and vomiting are important defensive responses to cope with pathogens and toxins that invade the body. The nucleus of the solitary tract (NTS) is important for initiating these responses. However, the molecular heterogeneities and cellular diversities of the NTS occlude a better understanding of these defensive responses. Here, we constructed the single-nucleus transcriptomic atlas of NTS cells and found multiple populations of NTS neurons that may be involved in these defensive responses. Among these, we identified Calbindin1-positive (Calb1) NTS neurons that are molecularly distinct from Tac1 neurons. These Calb1 neurons are critical for nausea and retching induced by cereulide; an emetic toxin secreted by . Strikingly, we found that cereulide can directly modulate vagal sensory neurons that innervate Calb1 NTS neurons, a novel mechanism distinct from that for nausea and retching induced by Staphylococcal enterotoxin A. Together, our transcriptomic atlas of NTS neurons and the functional analyses revealed the neural mechanism for cereulide-induced retching-like behavior. These results demonstrate the molecular and cellular complexities in the brain that underlie defensive responses to the diversities of pathogens and toxins.

摘要

恶心和呕吐是应对侵入人体的病原体和毒素的重要防御反应。孤束核（NTS）对于启动这些反应很重要。然而，NTS的分子异质性和细胞多样性阻碍了我们对这些防御反应的深入理解。在这里，我们构建了NTS细胞的单核转录组图谱，并发现了多个可能参与这些防御反应的NTS神经元群体。其中，我们鉴定出了与Tac1神经元在分子上不同的钙结合蛋白1阳性（Calb1）NTS神经元。这些Calb1神经元对于由蜡样芽孢杆菌分泌的催吐毒素——cereulide诱导的恶心和干呕至关重要。引人注目的是，我们发现cereulide可以直接调节支配Calb1 NTS神经元的迷走感觉神经元，这是一种不同于葡萄球菌肠毒素A诱导恶心和干呕的新机制。总之，我们的NTS神经元转录组图谱和功能分析揭示了cereulide诱导的类似干呕行为的神经机制。这些结果证明了大脑中分子和细胞的复杂性，它们是对病原体和毒素多样性的防御反应的基础。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/c942/10824557/dd99682e3ca7/nwad256fig1.jpg

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类似干呕行为的脑回路。

Brain circuits for retching-like behavior.

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