杏仁核神经元对胆囊收缩素反应性的突触后机制由一种类瞬时受体电位电流介导。

Postsynaptic mechanisms underlying responsiveness of amygdaloid neurons to cholecystokinin are mediated by a transient receptor potential-like current.

作者信息

Meis Susanne, Munsch Thomas, Sosulina Ludmila, Pape Hans-Christian

机构信息

Institut für Physiologie, Medizinische Fakultät, Otto-von-Guericke-Universität, Leipziger Str. 44, D-39120 Magdeburg, Germany.

出版信息

Mol Cell Neurosci. 2007 Jun;35(2):356-67. doi: 10.1016/j.mcn.2007.03.012. Epub 2007 Apr 1.

DOI:10.1016/j.mcn.2007.03.012

PMID:17482476

Abstract

Projection neurons of mouse basolateral amygdala responded to CCK with an inward current at a holding potential of -70 mV. This response was mediated by CCK2 receptors as indicated by agonist and antagonist effectiveness, and conveyed via G-proteins of the G(q/11) family as it was abolished in gene knockout mice. Maximal current amplitude was insensitive to extracellular potassium, cesium, and calcium ions, respectively, whereas amplitude and reversal potential critically depended upon extracellular sodium concentration. The current reversed near -20 mV consistent with activation of a mixed cationic channel reminiscent of transient receptor potential (TRP) channels. Extracellular application of the non-selective TRP channel blockers 2-APB, flufenamic acid, Gd3+, and ruthenium red, respectively, inhibited CCK induced inward currents. Single cell PCR confirmed the expression of TRPC1,4,5 and coexpression of TRPC1 with TRPC4 or TRPC5 in some cells. CCK responses were associated with depolarization leading to an increase in cell excitability.

摘要

在-70mV的钳制电位下，小鼠基底外侧杏仁核的投射神经元对胆囊收缩素（CCK）产生内向电流反应。如激动剂和拮抗剂的效果所示，该反应由CCK2受体介导，并通过G(q/11)家族的G蛋白传递，因为在基因敲除小鼠中该反应消失。最大电流幅度分别对细胞外钾离子、铯离子和钙离子不敏感，而幅度和反转电位则严格依赖于细胞外钠离子浓度。电流在-20mV附近反转，这与一种混合阳离子通道的激活一致，这种通道让人联想到瞬时受体电位（TRP）通道。分别在细胞外应用非选择性TRP通道阻滞剂2-氨基乙氧基二苯硼酸（2-APB）、氟芬那酸、钆离子（Gd3+）和钌红，可抑制CCK诱导的内向电流。单细胞聚合酶链反应（PCR）证实了瞬时受体电位阳离子通道亚家族C成员1、4、5（TRPC1、4、5）的表达，并且在一些细胞中TRPC1与TRPC4或TRPC5共表达。CCK反应与去极化相关，导致细胞兴奋性增加。

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杏仁核神经元对胆囊收缩素反应性的突触后机制由一种类瞬时受体电位电流介导。

Postsynaptic mechanisms underlying responsiveness of amygdaloid neurons to cholecystokinin are mediated by a transient receptor potential-like current.

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