通过Ca(2+)诱导的环磷酸腺苷（cAMP）生成刺激来调节起搏电流。

Modulation of a pacemaker current through Ca(2+)-induced stimulation of cAMP production.

作者信息

Lüthi A, McCormick D A

机构信息

Yale University School of Medicine, Section of Neurobiology, New Haven, Connecticut 06510, USA.

出版信息

Nat Neurosci. 1999 Jul;2(7):634-41. doi: 10.1038/10189.

DOI:10.1038/10189

PMID:10404196

Abstract

Brief increases in [Ca2+]i can result in prolonged changes in neuronal properties. A Ca(2+)-dependent modulation of the hyperpolarization-activated cation current (Ih) controls the slow recurrence of synchronized thalamocortical activity. Here we show that the persistent activation of Ih is initiated by rapidly increased [Ca2+]i and subsequent production of cAMP. The modulation is maintained via a facilitated interaction of cAMP with open (voltage-gated) h-channels, inducing prolonged activation of Ih that may outlast the presence of increased free [Ca2+]i and [cAMP]i. This persistent Ih activation may control the presence and periodicity of both normal and abnormal synchronized thalamocortical rhythms.

摘要

细胞内钙离子浓度（[Ca2+]i）的短暂升高可导致神经元特性的长期变化。超极化激活阳离子电流（Ih）的钙依赖性调节控制着丘脑皮质同步活动的缓慢复发。在此我们表明，Ih的持续激活是由[Ca2+]i的快速升高及随后的环磷酸腺苷（cAMP）生成所启动。这种调节通过cAMP与开放（电压门控）h通道的易化相互作用得以维持，诱导Ih的长期激活，这可能在细胞内游离[Ca2+]i和[ cAMP]i升高状态消失后仍持续存在。这种Ih的持续激活可能控制正常和异常丘脑皮质同步节律的存在和周期性。

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通过Ca(2+)诱导的环磷酸腺苷（cAMP）生成刺激来调节起搏电流。

Modulation of a pacemaker current through Ca(2+)-induced stimulation of cAMP production.

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