Anatomy and Cell Biology, University of Melbourne, Parkville, Victoria, Australia.
J Neurophysiol. 2011 Oct;106(4):2045-56. doi: 10.1152/jn.00798.2010. Epub 2011 Jul 13.
Hyperpolarization-activated inward currents (I(h)) contribute to neuronal excitability in sensory neurons. Four subtypes of hyperpolarization-activated cyclic nucleotide-gated (HCN) channels generate I(h), with different activation kinetics and cAMP sensitivities. The aim of the present study was to examine the postnatal development of I(h) and HCN channel subunits in trigeminal ganglion (TG) neurons. I(h) was investigated in acutely dissociated TG neurons from rats aged between postnatal day (P)1 and P35 with whole cell patch-clamp electrophysiology. In voltage-clamp studies, I(h) was activated by a series of hyperpolarizing voltage steps from -40 mV to -120 mV in -10-mV increments. Tail currents from a common voltage step (-100 mV) were used to determine I(h) voltage dependence. I(h) activation was faster in older rats and occurred at more depolarized potentials; the half-maximal activation voltage (V(1/2)) changed from -89.4 mV (P1) to -81.6 mV (P35). In current-clamp studies, blocking I(h) with ZD7288 caused membrane hyperpolarization and increases in action potential half-duration at all postnatal ages examined. ZD7288 also reduced the action potential firing frequency in multiple-firing neurons. Western blot analysis of the TG detected immunoreactive bands corresponding to all HCN subtypes. HCN1 and HCN2 band density increased with postnatal age, whereas the low-intensity HCN3 and moderate-intensity HCN4 bands were not changed. This study suggests that functional I(h) are activated in rat trigeminal sensory neurons from P1 during postnatal development, have an increasing role with age, and modify neuronal excitability.
超极化激活内向电流 (I(h)) 有助于感觉神经元的神经元兴奋性。四种亚型的超极化激活环核苷酸门控 (HCN) 通道产生 I(h),具有不同的激活动力学和 cAMP 敏感性。本研究的目的是研究三叉神经节 (TG) 神经元中 I(h) 和 HCN 通道亚基的出生后发育。使用全细胞膜片钳电生理学在出生后第 1 天 (P1) 至第 35 天的大鼠急性分离的 TG 神经元中研究 I(h)。在电压钳研究中,通过从 -40 mV 到 -120 mV 的一系列超极化电压阶跃以 -10 mV 的增量激活 I(h)。从共同电压阶跃 (-100 mV) 的尾电流用于确定 I(h) 的电压依赖性。在较老的大鼠中,I(h) 的激活更快,发生在更去极化的电位; 半激活电压 (V(1/2)) 从 -89.4 mV (P1) 变为 -81.6 mV (P35)。在电流钳研究中,用 ZD7288 阻断 I(h) 导致膜超极化和所有检查的出生后年龄的动作电位半持续时间增加。ZD7288 还降低了多发射神经元的动作电位发射频率。TG 的 Western blot 分析检测到对应于所有 HCN 亚型的免疫反应性带。HCN1 和 HCN2 带密度随出生后年龄增加而增加,而低强度 HCN3 和中等强度 HCN4 带没有变化。这项研究表明,在出生后发育过程中,大鼠三叉神经感觉神经元从 P1 开始激活功能性 I(h),随着年龄的增长其作用逐渐增强,并调节神经元兴奋性。
