蛋白激酶C对大鼠颈动脉体I型细胞中钙依赖性钾通道的抑制作用。
Inhibition of Ca2+-dependent K+ channels in rat carotid body type I cells by protein kinase C.
作者信息
Peers C, Carpenter E
机构信息
Institute for Cardiovascular Research, University of Leeds, Leeds LS2 9JT, UK.
出版信息
J Physiol. 1998 Nov 1;512 ( Pt 3)(Pt 3):743-50. doi: 10.1111/j.1469-7793.1998.743bd.x.
Abstract
- Whole-cell patch clamp recordings were used to investigate the effects of protein kinase C (PKC) activation on K+ and Ca2+ currents in type I cells isolated from the rat carotid body. 2. Pretreatment of cells for 10 min at 37 C with 4alpha-phorbol 12,13-didecanoate (4alpha-PDD, 200 nM), a phorbol ester which does not activate PKC, did not affect K+ current density as compared with cells pretreated with vehicle alone. By contrast, identical pretreatment with 200 nM 12-O-teradecanoylphorbol-13-acetate (TPA, a PKC activator) dramatically reduced K+ current density in type I cells. This effect was prevented by co-incubation of cells with the PKC inhibitor bisindolylmaleimide (BIM, 3 microM). 3. The sensitivity of K+ currents to inhibition by 200 microM Cd2+ (indicative of the presence of Ca2+-dependent K+ channels) was markedly reduced in TPA-treated cells as compared with sham-treated cells, cells treated with 4alpha-PDD, and cells treated with both TPA and BIM. Cd2+-resistant K+ current densities were of similar magnitude in all four groups of cells, as were the input resistances determined over the voltage range -100 mV to -50 mV. 4. Ca2+ channel current density was not significantly different in type I cells pretreated with 200 nM 4alpha-PDD as compared with cells treated with the same concentration of TPA. 5. The degree of inhibition of K+ currents caused by hypoxia (Po2 15-20 mmHg) was unaltered by pretreatment of cells with 3 microM BIM. 6. The resting membrane potential of cells pretreated with TPA was depolarized as compared with controls, and the Ca2+-dependent K+ channel inhibitor iberiotoxin (20 nM) failed to depolarize these cells further. 7. Our results suggest that activation of PKC causes a marked, selective inhibition of Ca2+-dependent K+ currents in type I carotid body cells, but that PKC activation is unlikely to account for inhibition of these channels by acute hypoxia.
摘要
- 采用全细胞膜片钳记录技术,研究蛋白激酶C(PKC)激活对从大鼠颈动脉体分离的I型细胞中钾离子(K⁺)和钙离子(Ca²⁺)电流的影响。2. 用4α - 佛波醇12,13 - 二癸酸酯(4α - PDD,200 nM),一种不激活PKC的佛波酯,在37℃下对细胞进行10分钟预处理,与仅用溶剂预处理的细胞相比,不影响K⁺电流密度。相比之下,用200 nM 12 - O - 十四烷酰佛波醇 - 13 - 乙酸酯(TPA,一种PKC激活剂)进行相同的预处理,可显著降低I型细胞中的K⁺电流密度。细胞与PKC抑制剂双吲哚马来酰亚胺(BIM,3 μM)共同孵育可防止这种效应。3. 与假处理细胞、用4α - PDD处理的细胞以及用TPA和BIM共同处理的细胞相比,在TPA处理的细胞中,K⁺电流对200 μM Cd²⁺抑制的敏感性(表明存在钙依赖性钾通道)显著降低。在所有四组细胞中,抗Cd²⁺的K⁺电流密度大小相似,在 - 100 mV至 - 50 mV电压范围内测定的输入电阻也相似。4. 用200 nM 4α - PDD预处理的I型细胞与用相同浓度TPA处理的细胞相比,钙离子通道电流密度无显著差异。5. 用3 μM BIM预处理细胞,并未改变缺氧(氧分压15 - 20 mmHg)引起的K⁺电流抑制程度。6. 与对照组相比,用TPA预处理的细胞静息膜电位去极化,并且钙依赖性钾通道抑制剂iberiotoxin(20 nM)未能使这些细胞进一步去极化。7. 我们的结果表明,PKC激活可导致I型颈动脉体细胞中钙依赖性K⁺电流出现显著的、选择性抑制,但PKC激活不太可能是急性缺氧对这些通道抑制的原因。
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