Department of Pediatrics, University of Iowa Children's Hospital and the University of Iowa Hospitals and Clinics, Iowa City, Iowa 52242, USA.
J Biol Chem. 2010 Jul 23;285(30):22864-73. doi: 10.1074/jbc.M109.099838. Epub 2010 May 17.
ClC-3 is a Cl(-)/H(+) antiporter required for cytokine-induced intraendosomal reactive oxygen species (ROS) generation by Nox1. ClC-3 current is distinct from the swelling-activated chloride current (ICl(swell)), but overexpression of ClC-3 can activate currents that resemble ICl(swell). Because H(2)O(2) activates ICl(swell) directly, we hypothesized that ClC-3-dependent, endosomal ROS production activates ICl(swell). Whole-cell perforated patch clamp methods were used to record Cl(-) currents in cultured aortic vascular smooth muscle cells from wild type (WT) and ClC-3 null mice. Under isotonic conditions, tumor necrosis factor-alpha (TNF-alpha) (10 ng/ml) activated outwardly rectifying Cl(-) currents with time-dependent inactivation in WT but not ClC-3 null cells. Inhibition by tamoxifen (10 microm) and by hypertonicity (340 mosm) identified them as ICl(swell). ICl(swell) was also activated by H(2)O(2) (500 microm), and the effect of TNF-alpha was completely inhibited by polyethylene glycol-catalase. ClC-3 expression induced ICl(swell) in ClC-3 null cells in the absence of swelling or TNF-alpha, and this effect was also blocked by catalase. ICl(swell) activation by hypotonicity (240 mosm) was only partially inhibited by catalase, and the size of these currents did not differ between WT and ClC-3 null cells. Disruption of endosome trafficking with either mutant Rab5 (S34N) or Rab11 (S25N) inhibited TNF-alpha-mediated activation of ICl(swell). Thrombin also activates ROS production by Nox1 but not in endosomes. Thrombin caused H(2)O(2)-dependent activation of ICl(swell), but this effect was not ClC-3- or Rab5-dependent. Thus, activation of ICl(swell) by TNF-alpha requires ClC-3-dependent endosomal H(2)O(2) production. This demonstrates a functional link between two distinct anion currents, ClC-3 and ICl(swell).
ClC-3 是一种 Cl(-)/H(+)反向转运体,对于 Nox1 诱导的细胞内体活性氧(ROS)的生成是必需的。ClC-3 电流与肿胀激活的氯离子电流(ICl(swell))不同,但 ClC-3 的过表达可以激活类似于 ICl(swell)的电流。由于 H2O2 可以直接激活 ICl(swell),我们假设 ClC-3 依赖性的内体 ROS 产生激活了 ICl(swell)。使用全细胞穿孔膜片钳方法记录野生型(WT)和 ClC-3 敲除小鼠培养的主动脉血管平滑肌细胞中的 Cl(-)电流。在等渗条件下,肿瘤坏死因子-α(TNF-α)(10ng/ml)在 WT 细胞中激活了具有时间依赖性失活的外向整流 Cl(-)电流,但在 ClC-3 敲除细胞中没有。用他莫昔芬(10μm)和高渗性(340mosm)抑制,将其鉴定为 ICl(swell)。H2O2(500μm)也激活了 ICl(swell),TNF-α的作用完全被聚乙二醇-过氧化氢酶抑制。ClC-3 的表达在没有肿胀或 TNF-α的情况下诱导 ClC-3 敲除细胞中的 ICl(swell),而这种作用也被过氧化氢酶阻断。用低渗性(240mosm)激活 ICl(swell),过氧化氢酶的抑制作用只有部分抑制,WT 和 ClC-3 敲除细胞之间这些电流的大小没有差异。用突变 Rab5(S34N)或 Rab11(S25N)破坏内体运输,抑制了 TNF-α介导的 ICl(swell)的激活。凝血酶也激活 Nox1 产生 ROS,但不是在内体中。凝血酶引起 H2O2 依赖性的 ICl(swell)激活,但这种作用不依赖于 ClC-3 或 Rab5。因此,TNF-α激活 ICl(swell)需要 ClC-3 依赖性的内体 H2O2 产生。这证明了两种不同的阴离子电流,ClC-3 和 ICl(swell)之间存在功能联系。