对高二氧化碳分压的化学感应反应被镉阻断,镉是一种电压敏感型钙通道阻滞剂。
Chemosensory response to high pCO is blocked by cadmium, a voltage-sensitive calcium channel blocker.
作者信息
Rozanov C, Roy A, Mokashi A, Wilson D F, Lahiri S, Acker H
机构信息
Department of Physiology, University of Pennsylvania Medical Center, B400 Richards Building, 3700 Hamilton Walk, Philadelphia, PA 19104-6085, USA.
出版信息
Brain Res. 1999 Jun 26;833(1):101-7. doi: 10.1016/s0006-8993(99)01405-5.
In the dark, during normocapnic (pCO2=35 Torr, pHo=7.4) normoxia (pO2=100 Torr), high pCO (>300 Torr) causes Ca2+-dependent photolabile excitation of chemosensors in the carotid body (CB). We previously proposed that the source of this Ca2+ was the [Ca2+]i stores because CO would react only intracellularly. However, influx of extracellular Ca2+ was not excluded. Now, using perfused rat CB (n=6) in the presence of normal extracellular [Ca2+] we show that chemosensory response to CO (pCO approximately 550 Torr) in normoxic (pO2 approximately 100 Torr) normocapnia (pCO2 approximately 30 Torr, pH approximately 7.4) is completely but reversibly inhibited by Cd2+ (200 microM), a voltage-gated Ca2+ channel blocker. Thus, extracellular Ca2+ is necessary for excitatory chemosensory response to high pCO. Cd2+ block occurs in spite of an enhanced [Ca2+]i rise. This shows that Ca2+ rise alone is unable to release neurotransmitter and to elicit a chemosensory response. Therefore, as a corollary, we conclude that Cd2+ blocks the Ca2+ flux that is needed for vesicle-membrane fusion for neurotransmitter release and neural discharge.
在黑暗中,在正常二氧化碳分压(pCO2 = 35托,pHo = 7.4)和正常氧分压(pO2 = 100托)条件下,高二氧化碳分压(>300托)会引起颈动脉体(CB)中化学感受器的钙离子依赖性光不稳定兴奋。我们之前提出,这种钙离子的来源是细胞内钙离子储存库,因为二氧化碳只会在细胞内发生反应。然而,细胞外钙离子的内流并未被排除。现在,我们在正常细胞外钙离子浓度存在的情况下,使用灌注的大鼠颈动脉体(n = 6)进行实验,结果表明,在常氧(pO2约为100托)和正常二氧化碳分压(pCO2约为30托,pH约为7.4)条件下,对二氧化碳(pCO约为550托)的化学感受反应完全但可逆地被镉离子(200微摩尔)抑制,镉离子是一种电压门控钙离子通道阻滞剂。因此,细胞外钙离子对于对高二氧化碳分压的兴奋性化学感受反应是必需的。尽管细胞内钙离子浓度升高增强,但镉离子仍能产生阻断作用。这表明仅钙离子升高不足以释放神经递质并引发化学感受反应。因此,作为一个推论,我们得出结论,镉离子阻断了神经递质释放和神经放电所需的囊泡膜融合的钙离子通量。
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