外侧臂旁核谷氨酸能神经元中的钠泄漏通道有助于维持七氟醚麻醉下的呼吸频率。

Sodium Leak Channel in Glutamatergic Neurons of the Lateral Parabrachial Nucleus Helps to Maintain Respiratory Frequency Under Sevoflurane Anesthesia.

作者信息

Wu Lin, Zhang Donghang, Wu Yujie, Liu Jin, Jiang Jingyao, Zhou Cheng

机构信息

Department of Anesthesiology, West China Hospital, Sichuan University, Chengdu, 610041, China.

Laboratory of Anesthesia and Critical Care Medicine, National-Local Joint Engineering Research Centre of Translational Medicine of Anesthesiology, West China Hospital, Sichuan University, Chengdu, 610041, China.

出版信息

Neurosci Bull. 2024 Aug;40(8):1127-1140. doi: 10.1007/s12264-024-01223-0. Epub 2024 May 20.

DOI:10.1007/s12264-024-01223-0

PMID:38767833

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11306470/

Abstract

The lateral parabrachial nucleus (PBL) is implicated in the regulation of respiratory activity. Sodium leak channel (NALCN) mutations disrupt the respiratory rhythm and influence anesthetic sensitivity in both rodents and humans. Here, we investigated whether the NALCN in PBL glutamatergic neurons maintains respiratory function under general anesthesia. Our results showed that chemogenetic activation of PBL glutamatergic neurons increased the respiratory frequency (RF) in mice; whereas chemogenetic inhibition suppressed RF. NALCN knockdown in PBL glutamatergic neurons but not GABAergic neurons significantly reduced RF under physiological conditions and caused more respiratory suppression under sevoflurane anesthesia. NALCN knockdown in PBL glutamatergic neurons did not further exacerbate the respiratory suppression induced by propofol or morphine. Under sevoflurane anesthesia, painful stimuli rapidly increased the RF, which was not affected by NALCN knockdown in PBL glutamatergic neurons. This study suggested that the NALCN is a key ion channel in PBL glutamatergic neurons that maintains respiratory frequency under volatile anesthetic sevoflurane but not intravenous anesthetic propofol.

摘要

外侧臂旁核（PBL）参与呼吸活动的调节。钠漏通道（NALCN）突变会破坏呼吸节律，并影响啮齿动物和人类的麻醉敏感性。在此，我们研究了PBL谷氨酸能神经元中的NALCN在全身麻醉下是否维持呼吸功能。我们的结果表明，化学遗传学激活PBL谷氨酸能神经元会增加小鼠的呼吸频率（RF）；而化学遗传学抑制则会抑制RF。在生理条件下，PBL谷氨酸能神经元而非GABA能神经元中的NALCN敲低显著降低了RF，并在七氟醚麻醉下导致更多的呼吸抑制。PBL谷氨酸能神经元中的NALCN敲低并未进一步加重丙泊酚或吗啡诱导的呼吸抑制。在七氟醚麻醉下，疼痛刺激会迅速增加RF，这不受PBL谷氨酸能神经元中NALCN敲低的影响。这项研究表明，NALCN是PBL谷氨酸能神经元中的关键离子通道，在挥发性麻醉剂七氟醚而非静脉麻醉剂丙泊酚作用下维持呼吸频率。

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