氯化汞对运动神经末梢兴奋-分泌偶联及肌细胞兴奋-收缩偶联的抑制作用。

Inhibitory effects of HgCl2 on excitation-secretion coupling at the motor nerve terminal and excitation-contraction coupling in the muscle cell.

作者信息

Røed A, Herlofson B B

机构信息

Department of Oral Biology, Dental Faculty, University of Oslo, Norway.

出版信息

Cell Mol Neurobiol. 1994 Dec;14(6):623-36. doi: 10.1007/BF02088672.

DOI:10.1007/BF02088672

PMID:7543823

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11566777/

Abstract

Indirect and direct twitch (0.1-Hz) stimulation of the rat phrenic nerve-diaphragm disclosed that the inhibitory effect of HgCl2, 3.7 x 10(-5) M, on the neuromuscular transmission and in the muscle cell, was accelerated by 10-sec periods of 50-Hz tetanic stimulation every 10 min. This activity-dependent enhancement suggested an inhibitory mechanism of HgCl2 related to the development of fatigue, like membrane depolarization or decreased excitability, decreased availability of transmitter, or interference with the factors controlling excitation-secretion coupling of the nerve terminal, i.e. (Ca2+)0 or (Ca2+)i, and excitation-contraction coupling in the muscle cell, i.e., (Ca2+)i. 2. During both indirect and direct stimulation, HgCl2-induced inhibition was enhanced markedly by pretreatment with caffeine, which releases Ca2+ from endoplasmic and sarcoplasmic reticulum in the nerve terminal and muscle cell, respectively. This caffeine-induced enhancement was completely antagonized by dantrolene, which inhibits the caffeine-induced release. However, dantrolene alone did not antagonize the HgCl2-induced inhibition. 3. Since caffeine depletes the intracellular Ca2+ stores of the smooth endoplasmic reticulum, HgCl2 probably inhibits by binding to SH groups of transport proteins conveying the messenger function of (Ca2+)i. In the muscle cell this leads to inhibition of contraction. In the nerve terminal, an additional enhancement of the HgCl2-induced inhibition, by inhibiting reuptake of choline by TEA and tetanic stimulation, suggested that HgCl2 inhibited a (Ca2+)i signal necessary for this limiting factor in resynthesis of acetylcholine. 4. The (Ca2+)0 signal necessary for stimulus-induced release of acetylcholine was not affected by HgCl2. Hyperpolarization in K(+)-free solution antagonized the inhibitory effect of HgCl2 at indirect stimulation, and Ca(2+)-free solution enhanced the inhibitory effect at direct stimulation. K+ depolarization, membrane electric field increase with high Ca2+, membrane stabilization with lidocaine, and half-threshold stimulation, did not change the inhibitory effect of HgCl CH3HgCl. 1.85 x 10(-5) M, disclosed a synergistic interaction with caffeine during direct, but not during indirect, stimulation.

摘要

对大鼠膈神经 - 膈肌进行间接和直接抽搐（0.1赫兹）刺激发现，3.7×10⁻⁵ M的HgCl₂对神经肌肉传递和肌肉细胞的抑制作用，每隔10分钟进行10秒的50赫兹强直刺激可使其加速。这种依赖活动的增强表明HgCl₂的抑制机制与疲劳的发展有关，如膜去极化或兴奋性降低、递质可用性降低，或干扰控制神经末梢兴奋 - 分泌偶联的因素，即细胞外钙（Ca²⁺）₀或细胞内钙（Ca²⁺）i，以及肌肉细胞中的兴奋 - 收缩偶联，即（Ca²⁺）i。2. 在间接和直接刺激过程中，用咖啡因预处理可显著增强HgCl₂诱导的抑制作用，咖啡因分别从神经末梢和肌肉细胞的内质网和肌浆网释放Ca²⁺。这种咖啡因诱导的增强作用被丹曲林完全拮抗，丹曲林抑制咖啡因诱导的释放。然而，单独使用丹曲林并不能拮抗HgCl₂诱导的抑制作用。3. 由于咖啡因耗尽了光滑内质网的细胞内钙储存，HgCl₂可能通过与传递（Ca²⁺）i信使功能的转运蛋白的巯基结合而产生抑制作用。在肌肉细胞中，这导致收缩抑制。在神经末梢，通过抑制TEA对胆碱的再摄取和强直刺激，HgCl₂诱导的抑制作用进一步增强，表明HgCl₂抑制了乙酰胆碱再合成中这个限制因素所需的（Ca²⁺）i信号。4. 刺激诱导乙酰胆碱释放所需的（Ca²⁺）₀信号不受HgCl₂影响。无钾溶液中的超极化拮抗了HgCl₂在间接刺激时的抑制作用，无钙溶液增强了HgCl₂在直接刺激时的抑制作用。钾离子去极化、高钙时膜电场增加、利多卡因使膜稳定以及阈下刺激，均未改变HgCl₂（CH₃HgCl，1.85×10⁻⁵ M）的抑制作用，在直接刺激而非间接刺激过程中，其与咖啡因表现出协同相互作用。