Pardal R, Ludewig U, Garcia-Hirschfeld J, Lopez-Barneo J
Departamento de Fisiologia, Facultad de Medicina y Hospital Universitario Virgen del Rocio, Universidad de Sevilla, E-41009, Sevilla, Spain.
Proc Natl Acad Sci U S A. 2000 Feb 29;97(5):2361-6. doi: 10.1073/pnas.030522297.
We have developed a thin-slice preparation of whole rat carotid body that allows us to perform patch-clamp recording of membrane ionic currents and to monitor catecholamine secretion by amperometry in single glomus cells under direct visual control. In normoxic conditions (P(O(2)) approximately 140 mmHg; 1 mmHg = 133 Pa), most glomus cells did not have measurable secretory activity, but exposure to hypoxia (P(O(2)) approximately 20 mmHg) elicited the appearance of a large number of spike-like exocytotic events. This neurosecretory response to hypoxia was fully reversible and required extracellular Ca(2+) influx. The average charge of single quantal events was 46 +/- 25 fC (n = 218), which yields an estimate of approximately 140,000 catecholamine molecules per vesicle. Addition of tetraethylammonium (TEA; 2-5 mM) to the extracellular solution induced in most (>95%) cells tested (n = 32) a secretory response similar to that elicited by low P(O(2)). Cells nonresponsive to hypoxia but activated by exposure to high external K(+) were also stimulated by TEA. A secretory response similar to the responses to hypoxia and TEA was also observed after treatment of the cells with iberiotoxin to block selectively Ca(2+)- and voltage-activated maxi-K(+) channels. Our data further show that membrane ion channels are critically involved in sensory transduction in the carotid body. We also show that in intact glomus cells inhibition of voltage-dependent K(+) channels can contribute to initiation of the secretory response to low P(O(2)).
我们开发了一种完整大鼠颈动脉体的薄片标本,这使我们能够在直接视觉控制下,对单个球细胞的膜离子电流进行膜片钳记录,并通过安培法监测儿茶酚胺分泌。在常氧条件下(P(O₂)约为140 mmHg;1 mmHg = 133 Pa),大多数球细胞没有可测量的分泌活性,但暴露于低氧环境(P(O₂)约为20 mmHg)会引发大量尖峰样胞吐事件。这种对低氧的神经分泌反应是完全可逆的,并且需要细胞外Ca²⁺内流。单个量子事件的平均电荷量为46±25 fC(n = 218),由此估计每个囊泡约有140,000个儿茶酚胺分子。向细胞外溶液中添加四乙铵(TEA;2 - 5 mM),在大多数(>95%)测试细胞(n = 32)中诱导出与低P(O₂)引发的分泌反应相似的反应。对低氧无反应但暴露于高细胞外K⁺时被激活的细胞也受到TEA的刺激。在用埃博毒素处理细胞以选择性阻断Ca²⁺和电压激活的大电导K⁺通道后,也观察到了与对低氧和TEA反应相似的分泌反应。我们的数据进一步表明,膜离子通道在颈动脉体的感觉转导中起关键作用。我们还表明,在完整的球细胞中,抑制电压依赖性K⁺通道可有助于启动对低P(O₂)的分泌反应。