Nematode neurons generally produce graded potentials instead of action potentials (APs). It is unclear how the graded potentials control postsynaptic cells under physiological conditions. Here we show that postsynaptic currents (PSCs) frequently occur in bursts at the neuromuscular junction of C. elegans. Cholinergic bursts concur with facilitated AP firing, elevated cytosolic [Ca2+], and contraction of the muscle whereas GABA ergic bursts suppress AP firing. The bursts, distinct from artificially evoked responses, are characterized by a persistent current (the primary component of burst-associated charge transfer)and increased frequency and mean amplitude of PSC events. The persistent current of cholinergic PSC bursts is mostly mediated by levamisole-sensitive acetylcholine receptors, which correlates well with locomotory phenotypes of receptor mutants. Eliminating command interneurons abolishes the bursts whereas mutating SLO-1 K+ channel, a potent presynaptic inhibitor of exocytosis, greatly increases the mean burst duration. These observations suggest that motoneurons control muscle by producing PSC bursts.
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机译:线虫神经元通常产生分级电位而不是动作电位(AP)。尚不清楚在生理条件下梯度电位如何控制突触后细胞。在这里,我们显示突触后电流(PSC)经常在秀丽隐杆线虫的神经肌肉交界处爆发。胆碱能爆发与促进AP射击,胞质[Ca 2 + ]升高和肌肉收缩相一致,而GABA能量爆发抑制AP射击。与人工诱发的反应不同,这些脉冲的特征是持续电流(与脉冲相关的电荷转移的主要成分)和PSC事件的频率和平均幅度增加。胆碱能PSC爆发的持续电流主要由对乙酰氨基酚敏感的乙酰胆碱受体介导,这与受体突变体的运动表型密切相关。消除命令神经元消除了爆发,而突变SLO-1 K + 通道(一种有效的突触前胞吐抑制剂)大大延长了平均爆发持续时间。这些观察结果表明,运动神经元通过产生PSC爆发来控制肌肉。
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