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条件性爆发神经元中爆发的多种机制。

Multiple mechanisms of bursting in a conditional bursting neuron.

作者信息

Harris-Warrick R M, Flamm R E

出版信息

J Neurosci. 1987 Jul;7(7):2113-28. doi: 10.1523/JNEUROSCI.07-07-02113.1987.

DOI:10.1523/JNEUROSCI.07-07-02113.1987

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6568948/

Abstract

The anterior burster (AB) neuron in the stomatogastric ganglion of the spiny lobster, Panulirus interruptus, is a conditional burster in the pyloric motor circuit. Bath application of the monoamines dopamine, serotonin, and octopamine induces rhythmic bursting pacemaker potentials in a silent, synaptically isolated AB cell. However, each amine produces a unique and characteristic burst shape, resulting from different ionic dependences of the burst mechanisms. Bursting induced by serotonin or octopamine is critically dependent upon sodium entry through tetrodotoxin-sensitive channels; dopamine-induced bursting is not TTX-sensitive. Dopamine-induced bursting is abolished when extracellular calcium is reduced to 25% of normal; serotonin- and octopamine-induced bursts continue in this saline, although they are abolished in salines with calcium reduced to 10% or less of normal. Quantitative differences between the amines are also seen in the tetraethylammonium (TEA) sensitivity of the burst amplitude and in the dependence of the interburst hyperpolarization on extracellular potassium. These experiments demonstrate that there are both quantitative and qualitative differences in the ionic currents underlying every phase of the bursts induced by the 3 amines. Thus, a single neuron can burst via more than one ionic mechanism.

摘要

多刺龙虾（Panulirus interruptus）口胃神经节中的前爆发神经元（AB）是幽门运动回路中的一个条件性爆发神经元。在体外浴灌中，单胺类物质多巴胺、5-羟色胺和章鱼胺能在沉默的、突触隔离的AB细胞中诱导出节律性爆发起搏器电位。然而，每种胺类都会产生独特的爆发形状，这是由爆发机制的不同离子依赖性导致的。5-羟色胺或章鱼胺诱导的爆发严重依赖于通过河豚毒素敏感通道进入的钠离子；多巴胺诱导的爆发对河豚毒素不敏感。当细胞外钙降低到正常水平的25%时，多巴胺诱导的爆发就会消失；在这种盐溶液中，5-羟色胺和章鱼胺诱导的爆发仍会继续，不过在钙降低到正常水平的10%或更低的盐溶液中，它们会消失。在爆发幅度的四乙铵（TEA）敏感性以及爆发间期超极化对细胞外钾的依赖性方面，也能看到胺类之间的定量差异。这些实验表明，由这三种胺类诱导的爆发的每个阶段所涉及的离子电流在数量和性质上都存在差异。因此，单个神经元可以通过不止一种离子机制产生爆发。