An α7 nicotinic and GABA_B receptor-mediated pathway controls acetylcholine release in the tripartite neuromuscular junction.

IF 4.7 2区医学 Q1 NEUROSCIENCES Journal of Physiology-London Pub Date : 2025-01-01 Epub Date: 2024-12-30 DOI:10.1113/JP287243

Konstantin Petrov, Oksana Lenina, Jacqueline Leroy, Véronique Bernard, Thibaut Germain, Charles Truong, Leniz Nurullin, Guzel Sibgatullina, Kinji Ohno, Dmitry Samigullin, Eric Krejci

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Abstract

Terminal Schwann cells (TSCs) are capable of regulating acetylcholine (ACh) release at the neuromuscular junction (NMJ). We have identified GABA as a gliotransmitter at mouse NMJs. When ACh activates α7 nicotinic ACh receptor (nAChRs) on TSCs, GABA is released and activates GABA_B receptors on the nerve terminal that subsequently reduce ACh release. Indeed, specific deletion of the α7 nAChR in TSCs or inhibition of the metabotropic GABA_B receptor prevents the reduction in the quantal content of the end-plate potential induced by cholinesterase inhibitors. The α7/GABA_B receptor-mediated pathway is activated when ACh that escapes from collagen Q (ColQ) anchored AChE in the synaptic cleft and from PRiMA-anchored butyrylcholinesterase on the TSC activates α7 nAChRs on the TSC. Consequently, prolonged tetanic stimulation of isolated muscle activates the α7/GABA_B receptor pathway, which reduces post-tetanic ACh release. When AChE levels are low in neonatal mice, the α7/GABA_B receptor-mediated pathway decreases ACh release and reduces ex vivo muscle fatigue. For ColQ-deficient mice where AChE is not clustered, the decrease in AСh release following activation of this pathway contributes to mouse fatigue in vivo. KEY POINTS: Acetylcholine (ACh) released from the nerve terminal at the neuromuscular junction (NMJ) can activate α7 nicotinic ACh receptor (nAChR) on terminal Schwann cells, releasing gamma-aminobutyric acid (GABA) that activates metabotropic GABA_B receptors on the nerve terminal which then reduces further ACh release from the nerve. At the mature NMJ, before reaching α7 nAChRs on terminal Schwann cells ACh is normally hydrolyzed by AChE clustered in the synaptic cleft and by BChE anchored to the TSC. ACh can activate the α7/GABAB receptor-mediated pathway and depress subsequent ACh release when AChE at the NMJ is low, either during development or in congenital myasthenic syndrome. In the latter case, this pathway contributes to muscle fatigue.

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α7烟碱和GABAB受体介导的途径控制三边神经肌肉接点的乙酰胆碱释放。

末端雪旺细胞（TSCs）能够调节神经肌肉接点（NMJ）的乙酰胆碱（ACh）释放。我们已经确定GABA是小鼠NMJs中的胶质递质。当ACh激活tsc上的α7烟碱ACh受体（nAChRs）时，GABA被释放并激活神经末梢上的GABAB受体，从而减少ACh的释放。事实上，TSCs中α7 nAChR的特异性缺失或代谢性GABAB受体的抑制阻止了胆碱酯酶抑制剂诱导的终板电位量含量的减少。当从胶原Q （ColQ）锚定突触间隙中的AChE和从TSC上的prima锚定的丁基胆碱酯酶中逃逸的ACh激活TSC上的α7 nachr时，α7/GABAB受体介导的途径被激活。因此，长时间的强直刺激可激活α7/GABAB受体通路，从而减少强直后乙酰胆碱的释放。当新生小鼠乙酰胆碱酯酶水平较低时，α7/GABAB受体介导的途径可减少乙酰胆碱酯酶释放，减轻离体肌肉疲劳。对于AChE不聚集的colq缺陷小鼠，该途径激活后AСh释放的减少有助于小鼠体内疲劳。重点：神经肌肉接点（NMJ）神经末梢释放的乙酰胆碱（ACh）可激活末端许旺细胞上α7烟碱性乙酰胆碱受体（nAChR），释放γ -氨基丁酸（GABA），激活神经末梢代谢性GABAB受体，进一步减少神经乙酰胆碱的释放。在成熟的NMJ中，在到达末端雪旺细胞α7 nachr之前，ACh通常被聚集在突触间隙中的AChE和锚定在TSC上的BChE水解。无论是在发育过程中还是在先天性肌无力综合征中，当乙酰胆碱酯酶在NMJ处较低时，乙酰胆碱酯酶可以激活α7/GABAB受体介导的通路，抑制随后的乙酰胆碱酯酶释放。在后一种情况下，这种途径会导致肌肉疲劳。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Journal of Physiology-London 医学-神经科学

CiteScore

9.70

自引率

7.30%

发文量

817

审稿时长

2 months

期刊介绍： The Journal of Physiology publishes full-length original Research Papers and Techniques for Physiology, which are short papers aimed at disseminating new techniques for physiological research. Articles solicited by the Editorial Board include Perspectives, Symposium Reports and Topical Reviews, which highlight areas of special physiological interest. CrossTalk articles are short editorial-style invited articles framing a debate between experts in the field on controversial topics. Letters to the Editor and Journal Club articles are also published. All categories of papers are subjected to peer reivew. The Journal of Physiology welcomes submitted research papers in all areas of physiology. Authors should present original work that illustrates new physiological principles or mechanisms. Papers on work at the molecular level, at the level of the cell membrane, single cells, tissues or organs and on systems physiology are all acceptable. Theoretical papers and papers that use computational models to further our understanding of physiological processes will be considered if based on experimentally derived data and if the hypothesis advanced is directly amenable to experimental testing. While emphasis is on human and mammalian physiology, work on lower vertebrate or invertebrate preparations may be suitable if it furthers the understanding of the functioning of other organisms including mammals.