Thromboxane-prostanoid receptor activation blocks ATP-sensitive potassium channels in rat aortas.

IF 2.4 4区医学 Q3 PHARMACOLOGY & PHARMACY

Clinical and Experimental Pharmacology and Physiology Pub Date : 2021-11-01 Epub Date: 2021-08-18 DOI:10.1111/1440-1681.13557

Jeimison D Santos, Michele Paulo, Juliana A Vercesi, Lusiane M Bendhack

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引用次数: 1

Abstract

K⁺ channel activation is one of the major mechanisms involved in vasodilation. Vasoconstrictor agonists such as angiotensin II promote ATP-dependent potassium channels (K_ATP ) dysfunction. This study evaluates whether thromboxane-prostanoid (TP receptor) activation by the agonist U46619 increases reactive oxygen species (ROS) production in rat aortas, which could contribute to K_ATP channel dysfunction and impaired NO-dependent vasodilation. TP receptor activation with the selective agonist U46619 increased ROS in endothelial cells (ECs) and vascular smooth muscle cells (VSMCs), but the TP receptor antagonist SQ29548 abolished this effect. ECs and VSMCs incubation with ROS scavengers like Tiron or PEG-Catalase impaired U46619-induced ROS production. U46619 at the concentrations of 0.1 and 1 µmol/L induced contractions with similar amplitude. K_ATP channel activation with pinacidil-induced relaxation was lower for the contractions induced with 0.1 or 1 µmol/L U46619 than with 10 nmol/L U46619. Acetylcholine-induced relaxation provided similar results. In aortas pre-contracted with 10 nmol/L U46619, neither Tiron (100 µmol/L) nor catalase (300 U/mL) affected pinacidil-induced relaxation. However, in aortas pre-contracted with 0.1 µmol/L U46619, catalase potentiated pinacidil-induced relaxation. Pinacidil potentiated acetylcholine-induced relaxation in aortas pre-contracted with 0.1 and 1 µmol/L U46619. Incubation with 10 nmol/L U46619 increased NO concentration in ECs. Taken together, these results show that high concentrations of the TP receptor agonist U46619 impair K_ATP channels, which is probably due to ROS production. It is likely that hydrogen peroxide is the ROS.

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血栓素-前列腺素受体激活阻断大鼠主动脉atp敏感钾通道。

K+通道激活是参与血管舒张的主要机制之一。血管收缩剂如血管紧张素II促进atp依赖性钾通道(KATP)功能障碍。本研究评估激动剂U46619激活血栓素-前列腺素(TP受体)是否会增加大鼠主动脉中活性氧(ROS)的产生，这可能导致KATP通道功能障碍和no依赖性血管舒张受损。选择性激动剂U46619激活TP受体可增加内皮细胞(ECs)和血管平滑肌细胞(VSMCs)中的ROS，而TP受体拮抗剂SQ29548可消除这一作用。与ROS清除剂如铁或peg -过氧化氢酶孵育的ECs和VSMCs会损害u46619诱导的ROS产生。0.1µmol/L和1µmol/L浓度的U46619诱导的收缩幅度相似。与10 μ mol/L U46619相比，0.1和1 μ mol/L U46619诱导的松驰对KATP通道的激活作用较弱。乙酰胆碱诱导的松弛也提供了类似的结果。在10 nmol/L U46619预收缩的主动脉中，铁(100 μ mol/L)和过氧化氢酶(300 U/mL)均未影响松酸诱导的松弛。然而，在0.1µmol/L U46619预收缩的主动脉中，过氧化氢酶增强了松酸诱导的松弛。用0.1µmol/L和1µmol/L U46619预收缩时，Pinacidil可增强乙酰胆碱诱导的主动脉松弛。10 nmol/L的U46619使内皮细胞NO浓度升高。综上所述，这些结果表明高浓度的TP受体激动剂U46619损害了KATP通道，这可能是由于ROS的产生。过氧化氢很可能就是活性氧。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Clinical and Experimental Pharmacology and Physiology PHARMACOLOGY & PHARMACY-PHYSIOLOGY

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128

期刊介绍： Clinical and Experimental Pharmacology and Physiology is an international journal founded in 1974 by Mike Rand, Austin Doyle, John Coghlan and Paul Korner. Our focus is new frontiers in physiology and pharmacology, emphasizing the translation of basic research to clinical practice. We publish original articles, invited reviews and our exciting, cutting-edge Frontiers-in-Research series’.