硫化氢对大鼠远端结肠离子转运的作用。
Actions of hydrogen sulphide on ion transport across rat distal colon.
机构信息
Institute for Veterinary Physiology, Justus-Liebig-University Giessen, Giessen, Germany.
出版信息
Br J Pharmacol. 2009 Nov;158(5):1263-75. doi: 10.1111/j.1476-5381.2009.00385.x. Epub 2009 Sep 25.
BACKGROUND AND PURPOSE
The aim of this study was to identify the actions of H(2)S on ion transport across rat distal colon.
EXPERIMENTAL APPROACH
Changes in short-circuit current (Isc) induced by the H(2)S-donor, NaHS, were measured in Ussing chambers. Cytosolic Ca(2+) concentration was evaluated using fura-2.
KEY RESULTS
NaHS concentration-dependently induced a change in Isc, that was only partially inhibited by the neurotoxin, tetrodotoxin. Lower concentrations (< or =10(-3) mol.L(-1)) of NaHS induced a monophasic increase in Isc, whereas higher concentrations induced an additional, secondary fall of Isc, before a third phase when Isc rose again. Blockers of H(2)S-producing enzymes (expression demonstrated immunohistochemically) decreased basal Isc, suggesting that endogenous production of H(2)S contributes to spontaneous anion secretion. The positive Isc phases induced by NaHS were due to Cl(-) secretion as shown by anion substitution and transport inhibitor experiments, whereas the transient negative Isc induced by higher concentrations of the H(2)S-donor was inhibited by mucosal tetrapentylammonium suggesting a transient K(+) secretion. When applied from the serosal side, glibenclamide, an inhibitor of ATP-sensitive K(+) channels, and tetrapentylammonium, a blocker of Ca(2+)-dependent K(+) channels, suppressed NaHS-induced Cl(-) secretion suggesting different types of K(+) channels are stimulated by the H(2)S-donor. NaHS-induced increase in cytosolic Ca(2+) concentration was confirmed in isolated, fura-2-loaded colonic crypts. This response was not dependent on extracellular Ca(2+), but was inhibited by blockers of intracellular Ca(2+) channels present on Ca(2+) storage organelles.
CONCLUSIONS AND IMPLICATIONS
H(2)S induces colonic ion secretion by stimulation of apical as well as basolateral epithelial K(+) channels.
背景与目的
本研究旨在确定 H₂S 对大鼠远端结肠离子转运的作用。
实验方法
在 Ussing 室中测量 H₂S 供体 NaHS 引起的短路电流 (Isc) 的变化。使用 fura-2 评估细胞质 Ca²⁺浓度。
主要结果
NaHS 浓度依赖性地诱导 Isc 变化,该变化仅被神经毒素河豚毒素部分抑制。较低浓度(≤10⁻³mol·L⁻¹)的 NaHS 诱导 Isc 单相增加,而较高浓度则诱导 Isc 额外的二次下降,然后第三阶段 Isc 再次上升。H₂S 产生酶的抑制剂(免疫组织化学显示表达)降低基础 Isc,表明内源性 H₂S 的产生有助于自发阴离子分泌。NaHS 诱导的正 Isc 阶段是由于 Cl⁻分泌,如阴离子替代和转运抑制剂实验所示,而较高浓度的 H₂S 供体诱导的短暂负 Isc 被黏膜四戊基铵抑制,表明瞬时 K⁺分泌。当从浆膜侧应用时,ATP 敏感性 K⁺通道抑制剂格列本脲和 Ca²⁺依赖性 K⁺通道阻滞剂四戊基铵抑制 NaHS 诱导的 Cl⁻分泌,表明不同类型的 K⁺通道被 H₂S 供体刺激。在分离的、负载 fura-2 的结肠隐窝中证实了 NaHS 诱导的细胞质 Ca²⁺浓度增加。该反应不依赖于细胞外 Ca²⁺,但被存在于 Ca²⁺储存细胞器上的细胞内 Ca²⁺通道抑制剂抑制。
结论和意义
H₂S 通过刺激顶端和基底侧上皮 K⁺ 通道诱导结肠离子分泌。
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