过氧化氢激活犬静脉内皮细胞中激动剂敏感的Ca(2+)通量途径。
Hydrogen peroxide activates agonist-sensitive Ca(2+)-flux pathways in canine venous endothelial cells.
作者信息
Doan T N, Gentry D L, Taylor A A, Elliott S J
机构信息
Department of Pediatrics, Baylor College of Medicine, Houston, TX 77030.
出版信息
Biochem J. 1994 Jan 1;297 ( Pt 1)(Pt 1):209-15. doi: 10.1042/bj2970209.
The effect of the biological oxidant H2O2 on purinergic-receptor-stimulated Ca2+ signalling was determined in canine venous endothelial cells. H2O2 increased cytosolic free [Ca2+] ([Ca2+]i), the rate of rise of which was dose-dependently related to H2O2 concentration. The response of [Ca2+]i to H2O2 resulted in part from release of Ca2+ from internal stores. The H2O2-sensitive intracellular Ca2+ pool was characterized in cells suspended in Ca(2+)-free/EGTA buffer and stimulated in sequence with H2O2 and ionomycin or ATP. Under this condition, the rank order of apparent compartment size sensitive to each compound was ionomycin > H2O2 > ATP. Stimulation of cells with H2O2 eliminated any response of [Ca2+]i to subsequent addition of ATP. To test more directly whether H2O2 accesses the inositol trisphosphate-sensitive Ca2+ store, cells were pretreated with thapsigargin, a selective inhibitor of that store's Ca2+ pump. Release of Ca2+ from internal Ca2+ stores by H2O2 declined as the interval after thapsigargin addition increased, a finding that supports the contention that H2O2 accesses the inositol trisphosphate-sensitive Ca2+ store. H2O2-stimulated Ca2+ influx across the cell membrane was sensitive to Ni2+, La3+, and 1-(beta-[3-(4-methoxyphenyl)propoxy]-4-methoxyphenethyl)-1H-imidazole HCl (SKF-96365), a selective inhibitor of the agonist-stimulated Ca(2+)-influx pathway. Ca2+ entry triggered by H2O2 appears to occur via the agonist-sensitive Ca2+ influx pathway. Together, these results suggest that H2O2, which is normally secreted by activated neutrophils and monocytes, may act as an intercellular messenger and stimulate Ca2+ signalling in target endothelial cells.
在犬静脉内皮细胞中测定了生物氧化剂过氧化氢(H₂O₂)对嘌呤能受体刺激的Ca²⁺信号传导的影响。H₂O₂增加了细胞质游离Ca²⁺浓度([Ca²⁺]i),其升高速率与H₂O₂浓度呈剂量依赖性相关。[Ca²⁺]i对H₂O₂的反应部分源于细胞内储存的Ca²⁺释放。在悬浮于无钙/乙二醇双乙酸盐(EGTA)缓冲液中的细胞中对H₂O₂敏感的细胞内Ca²⁺池进行了表征,并依次用H₂O₂、离子霉素或三磷酸腺苷(ATP)刺激。在此条件下,对每种化合物敏感的表观区室大小的排序为离子霉素>H₂O₂>ATP。用H₂O₂刺激细胞消除了[Ca²⁺]i对随后添加ATP的任何反应。为了更直接地测试H₂O₂是否进入肌醇三磷酸敏感的Ca²⁺储存库,用毒胡萝卜素(thapsigargin)预处理细胞,毒胡萝卜素是该储存库Ca²⁺泵的选择性抑制剂。随着添加毒胡萝卜素后的时间间隔增加,H₂O₂引起的细胞内Ca²⁺储存库中Ca²⁺的释放减少,这一发现支持了H₂O₂进入肌醇三磷酸敏感的Ca²⁺储存库的观点。H₂O₂刺激的Ca²⁺跨细胞膜内流对镍离子(Ni²⁺)、镧离子(La³⁺)和1-(β-[3-(4-甲氧基苯基)丙氧基]-4-甲氧基苯乙基)-1H-咪唑盐酸盐(SKF-96365,一种激动剂刺激的Ca²⁺内流途径的选择性抑制剂)敏感。H₂O₂触发的Ca²⁺内流似乎通过激动剂敏感的Ca²⁺内流途径发生。总之,这些结果表明,通常由活化的中性粒细胞和单核细胞分泌的H₂O₂可能作为一种细胞间信使,并刺激靶内皮细胞中的Ca²⁺信号传导。
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