Noronha-Matos José B, Oliveira Laura, Peixoto Ana R, Almeida Liliana, Castellão-Santana Lilian Martins, Ambiel Célia R, Alves-do Prado Wilson, Correia-de-Sá Paulo
Laboratório de Farmacologia e Neurobiologia, Centro de Investigação Farmacológica e Inovação Medicamentosa (MedInUP), ICBAS, Universidade do Porto, Porto, Portugal.
Departamento de Farmacologia e Terapêutica, Universidade Estadual de Maringá, Paraná, Brazil.
J Neurochem. 2020 Aug;154(3):263-283. doi: 10.1111/jnc.14975. Epub 2020 Feb 23.
Acetylcholine (ACh) spillover from motor endplates occurs after neuronal firing bursts being potentiated by cholinesterase inhibitors (e.g., neostigmine). Nicotinic α7 receptors (α7nAChR) on perisynaptic Schwann cells (PSCs) can control ACh spillover by unknown mechanisms. We hypothesized that adenosine might be the gliotransmitter underlying PSCs-nerve terminal communication. Rat isolated hemidiaphragm preparations were used to measure (1) the outflow of [ H]ACh, (2) real-time transmitter exocytosis by video-microscopy with the FM4-64 fluorescent dye, and (3) skeletal muscle contractions during high-frequency (50 Hz) nerve stimulation bursts in the presence of a selective α7nAChR agonist, PNU 282987, or upon inhibition of cholinesterase activity with neostigmine. To confirm our prediction that α7nAChR-mediated effects require direct activation of PSCs, we used fluorescence video-microscopy in the real-time mode to measure PNU 282987-induced [Ca ] transients from Fluo-4 NW loaded PSCs in non-stimulated preparations. The α7nAChR agonist, PNU 282987, decreased nerve-evoked diaphragm tetanic contractions. PNU 282987-induced inhibition was mimicked by neostigmine and results from the reduction of ACh exocytosis measured as decreases in [ H]ACh release and FM4-64 fluorescent dye unloading. Methyllycaconitine blockage of α7nAChR and the fluoroacetate gliotoxin both prevented inhibition of nerve-evoked ACh release and PSCs [Ca ] transients triggered by PNU 282987 and neostigmine. Adenosine deamination, inhibition of the ENT1 nucleoside outflow, and blockage of A receptors prevented PNU 282987-induced inhibition of transmitter release. Data suggest that α7nAChR controls tetanic-induced ACh spillover from the neuromuscular synapse by promoting adenosine outflow from PSCs via ENT1 transporters and retrograde activation of presynaptic A inhibitory receptors.
在胆碱酯酶抑制剂(如新斯的明)增强神经元放电爆发后,运动终板会出现乙酰胆碱(ACh)溢出。突触周围施万细胞(PSC)上的烟碱型α7受体(α7nAChR)可通过未知机制控制ACh溢出。我们推测腺苷可能是PSC与神经末梢通信的神经胶质递质。使用大鼠离体半膈肌标本测量:(1)[³H]ACh的流出量;(2)通过FM4-64荧光染料视频显微镜观察实时递质胞吐作用;(3)在选择性α7nAChR激动剂PNU 282987存在下或用新斯的明抑制胆碱酯酶活性时,高频(50Hz)神经刺激爆发期间的骨骼肌收缩。为证实我们的预测,即α7nAChR介导的效应需要PSC的直接激活,我们使用实时荧光视频显微镜测量未刺激标本中PNU 282987诱导的Fluo-4 NW负载PSC中的[Ca²⁺]瞬变。α7nAChR激动剂PNU 282987降低了神经诱发的膈肌强直收缩。新斯的明模拟了PNU 282987诱导的抑制作用,其结果是ACh胞吐作用减少,表现为[³H]ACh释放和FM4-64荧光染料卸载减少。α7nAChR的甲基lycaconitine阻断和氟乙酸神经毒素均阻止了PNU 282987和新斯的明对神经诱发的ACh释放和PSC [Ca²⁺]瞬变的抑制作用。腺苷脱氨酶、ENT1核苷流出抑制和A受体阻断均阻止了PNU 282987诱导的递质释放抑制。数据表明,α7nAChR通过促进腺苷经ENT1转运体从PSC流出以及突触前A抑制性受体的逆行激活,控制强直诱导的ACh从神经肌肉突触溢出。
