Michael Ramon de Lima Conceição, Jorge Lucas Teixeira-Fonseca, Leisiane Pereira Marques, Diego Santos Souza, Fabiana da Silva Alcântara, Diego Jose Belato Orts, Danilo Roman-Campos
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Isolated right atria (RA) and left atria (LA) tissue were used for bath organ experiments.</p><h3 data-test=\"abstract-sub-heading\">Results</h3><p>A more acidophilic pHe caused negative inotropic effects on isolated RA and LA atrial tissue, without modification of the pharmacological properties of AMIO. A pHe of 7.0 changed the sodium current (I<sub>Na</sub>) related components of the action potential (AP), which was enhanced in the presence of AMIO. ATXinduced arrhythmias in isolated RA and LA. Also, ATX prolonged the AP duration and enhanced repolarization dispersion in isolated cardiomyocytes in both pHe 7.4 and pHe 7.0. Pre-incubation of the isolated RA and LA and isolated atrial cardiomyocytes with AMIO prevented arrhythmias induced by ATX only at a pHe of 7.0. Moreover, AMIO was able to block I<sub>Na−Late</sub> induced by ATX only at a pHe of 7.0.</p><h3 data-test=\"abstract-sub-heading\">Conclusion</h3><p>The pharmacological properties of AMIO concerning healthy rat atrial tissue are not dependent on pHe. However, the prevention of arrhythmias induced by I<sub>Na−Late</sub> is pHe-dependent. 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引用次数: 0
摘要
背景胺碘酮(AMIO)是一种抗心律失常药物,其pKa在生理范围内。在此,我们探讨了在海葵钠通道神经毒素 2 型(ATX)诱导晚期钠电流(INa-Late)和心律失常的经典模型中,轻微的细胞外 pH 值(pHe)变化如何影响 AMIO 与心房组织的相互作用及其药理特性。结果更嗜酸的 pHe 会对离体的 RA 和 LA 心房组织产生负性肌力作用,但不会改变 AMIO 的药理特性。pHe 为 7.0 会改变动作电位(AP)中与钠离子电流(INa)相关的成分,在 AMIO 的存在下,AP 会增强。ATX 在离体 RA 和 LA 中诱发心律失常。此外,在 pHe 7.4 和 pHe 7.0 条件下,ATX 延长了离体心肌细胞的动作电位持续时间并增强了复极化弥散。用 AMIO 预先培养离体 RA 和 LA 以及离体心房心肌细胞,只有在 pHe 为 7.0 时才能防止 ATX 诱导的心律失常。结论 AMIO 对健康大鼠心房组织的药理特性不依赖于 pHe。然而,AMIO 对 INa-Late 诱导的心律失常的预防作用则取决于 pHe。开发类似于具有电荷稳定性的 AMIO 的药物可能有助于创造出更有效的药物来治疗与 INa-Late 相关的心律失常。
Extracellular acidification reveals the antiarrhythmic properties of amiodarone related to late sodium current-induced atrial arrhythmia
Background
Amiodarone (AMIO) is an antiarrhythmic drug with the pKa in the physiological range. Here, we explored how mild extracellular pH (pHe) changes shape the interaction of AMIO with atrial tissue and impact its pharmacological properties in the classical model of sea anemone sodium channel neurotoxin type 2 (ATX) induced late sodium current (INa−Late) and arrhythmias.
Method
Isolated atrial cardiomyocytes from male Wistar rats and human embryonic kidney cells expressing SCN5A Na+ channels were used for patch-clamp experiments. Isolated right atria (RA) and left atria (LA) tissue were used for bath organ experiments.
Results
A more acidophilic pHe caused negative inotropic effects on isolated RA and LA atrial tissue, without modification of the pharmacological properties of AMIO. A pHe of 7.0 changed the sodium current (INa) related components of the action potential (AP), which was enhanced in the presence of AMIO. ATXinduced arrhythmias in isolated RA and LA. Also, ATX prolonged the AP duration and enhanced repolarization dispersion in isolated cardiomyocytes in both pHe 7.4 and pHe 7.0. Pre-incubation of the isolated RA and LA and isolated atrial cardiomyocytes with AMIO prevented arrhythmias induced by ATX only at a pHe of 7.0. Moreover, AMIO was able to block INa−Late induced by ATX only at a pHe of 7.0.
Conclusion
The pharmacological properties of AMIO concerning healthy rat atrial tissue are not dependent on pHe. However, the prevention of arrhythmias induced by INa−Late is pHe-dependent. The development of drugs analogous to AMIO with charge stabilization may help to create more effective drugs to treat arrhythmias related to the INa−Late.
期刊介绍:
Pharmacological Reports publishes articles concerning all aspects of pharmacology, dealing with the action of drugs at a cellular and molecular level, and papers on the relationship between molecular structure and biological activity as well as reports on compounds with well-defined chemical structures.
Pharmacological Reports is an open forum to disseminate recent developments in: pharmacology, behavioural brain research, evidence-based complementary biochemical pharmacology, medicinal chemistry and biochemistry, drug discovery, neuro-psychopharmacology and biological psychiatry, neuroscience and neuropharmacology, cellular and molecular neuroscience, molecular biology, cell biology, toxicology.
Studies of plant extracts are not suitable for Pharmacological Reports.