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体外慢性低氧和环磷酸腺苷对氧化学感受器内向电流的长期调节作用

Long-term modulation of inward currents in O2 chemoreceptors by chronic hypoxia and cyclic AMP in vitro.

作者信息

Stea A, Jackson A, Macintyre L, Nurse C A

机构信息

Department of Biology, McMaster University, Hamilton, Ontario, Canada.

出版信息

J Neurosci. 1995 Mar;15(3 Pt 2):2192-202. doi: 10.1523/JNEUROSCI.15-03-02192.1995.

Abstract

In mammals, ventilatory acclimatization to hypoxia is associated with an enhanced chemosensitivity of the O2-sensing carotid body, resulting in an increased respiratory drive. To test whether this sensitization involves long-term modulation of ion channel function in endogenous O2 chemoreceptors, i.e., type 1 cells, we exposed cultures of dissociated rat carotid body to chronic hypoxia (6% O2) for 1-2 weeks, before monitoring the electrophysiological properties of type 1 cells using whole-cell, perforated patch recording. Chronic hypoxia augmented voltage-dependent inward Na+ and Ca2+ currents in type 1 cells, without significant changes in voltage dependence of activation or steady-state inactivation. However, after normalizing for the concomitant increase in cell size, indicated by the whole-cell capacitance, only the Na+ current density was significantly enhanced. The Na+ current was sensitive to tetrodotoxin (TTX; 0.5-1 microM) or choline substitution, whereas most of the Ca2+ current was sensitive to the L-type calcium channel blocker, nifedipine (10 microM). Several of these effects of hypoxia were mimicked qualitatively by growing normoxic cultures in the presence of agents that elevate intracellular cyclic AMP, including dibutyryl cAMP (db-cAMP; 200 microM-1 mM) and forskolin (10 microM); treatment with similar concentrations of dibutyryl cyclic GMP was ineffective. Na+ channel induction by db-cAMP was abolished by the protein synthesis inhibitor, cycloheximide (90-180 microM). In current-clamp mode, these altered chemoreceptors had typical resting potentials of approximately -55 mV, and following depolarization often fired multiple spikes that appeared to consist of both short-duration Na+ and long-duration Ca2+ components. We propose that chronic hypoxia, acting in part through cAMP-dependent pathways, increases electrical excitability and calcium mobilization in type 1 cells, and these adaptations may help enhance chemosensitivity during hypoxic acclimatization.

摘要

在哺乳动物中,对低氧的通气适应与氧敏感的颈动脉体化学敏感性增强有关,从而导致呼吸驱动增加。为了测试这种敏感性是否涉及内源性氧化学感受器(即1型细胞)中离子通道功能的长期调节,我们将解离的大鼠颈动脉体培养物暴露于慢性低氧(6% O₂)环境中1 - 2周,然后使用全细胞穿孔膜片钳记录来监测1型细胞的电生理特性。慢性低氧增强了1型细胞中电压依赖性内向Na⁺和Ca²⁺电流,而激活或稳态失活的电压依赖性没有显著变化。然而,在用全细胞电容表示的细胞大小相应增加进行归一化后,只有Na⁺电流密度显著增强。Na⁺电流对河豚毒素(TTX;0.5 - 1 μM)或胆碱替代敏感,而大部分Ca²⁺电流对L型钙通道阻滞剂硝苯地平(10 μM)敏感。低氧的这些效应中有几种在定性上可被在能升高细胞内环状AMP的试剂存在下培养的常氧培养物模拟,这些试剂包括二丁酰环化AMP(db - cAMP;200 μM - 1 mM)和福斯可林(10 μM);用类似浓度的二丁酰环化GMP处理无效。db - cAMP诱导的Na⁺通道被蛋白质合成抑制剂环己酰亚胺(90 - 180 μM)消除。在电流钳模式下,这些改变的化学感受器具有约 - 55 mV的典型静息电位,去极化后通常会发放多个动作电位,这些动作电位似乎由短时程的Na⁺和长时程的Ca²⁺成分组成。我们提出,慢性低氧部分通过依赖cAMP的途径起作用,增加1型细胞的电兴奋性和钙动员,并且这些适应性变化可能有助于在低氧适应过程中增强化学敏感性。

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