新型小分子激活剂5-(((1H-吲唑-5-基)氧基)甲基)-N-(4-(三氟甲氧基)苯基)嘧啶-2-胺(ITP-2)对K 11.1(hERG)通道的调节作用
Modulation of K 11.1 (hERG) channels by 5-(((1H-indazol-5-yl)oxy)methyl)-N-(4-(trifluoromethoxy)phenyl)pyrimidin-2-amine (ITP-2), a novel small molecule activator.
作者信息
Sale Harinath, Roy Samrat, Warrier Jayakumar, Thangathirupathy Srinivasan, Vadari Yoganand, Gopal Shruthi K, Krishnamurthy Prasad, Ramarao Manjunath
机构信息
Disease Sciences and Technology, Biocon Bristol-Myers Squibb Research and Development Center, Syngene International Limited, Bangalore, India.
Medicinal Chemistry, Biocon Bristol Myers-Squibb Research and Development Center, Syngene International Limited, Bangalore, India.
出版信息
Br J Pharmacol. 2017 Aug;174(15):2484-2500. doi: 10.1111/bph.13859. Epub 2017 Jun 18.
BACKGROUND AND PURPOSE
Activators of K 11.1 (hERG) channels have potential utility in the treatment of acquired and congenital long QT (LQT) syndrome. Here, we describe a new hERG channel activator, 5-(((1H-indazol-5-yl)oxy)methyl)-N-(4-(trifluoromethoxy)phenyl)pyrimidin-2-amine (ITP-2), with a chemical structure distinct from previously reported compounds.
EXPERIMENTAL APPROACH
Conventional electrophysiological methods were used to assess the effects of ITP-2 on hERG1a and hERG1a/1b channels expressed heterologously in HEK-293 cells.
KEY RESULTS
ITP-2 selectively increased test pulse currents (EC 1.0 μM) and decreased tail currents. ITP-2 activated hERG1a homomeric channels primarily by causing large depolarizing shifts in the midpoint of voltage-dependent inactivation and hyperpolarizing shifts in the voltage-dependence of activation. In addition, ITP-2 slowed rates of inactivation and made recovery from inactivation faster. hERG1a/1b heteromeric channels showed reduced sensitivity to ITP-2 and their inactivation properties were differentially modulated. Effects on midpoint of voltage-dependent inactivation and rates of inactivation were less pronounced for hERG1a/1b channels. Effects on voltage-dependent activation and activation kinetics were not different from hERG1a channels. Interestingly, hERG1b channels were inhibited by ITP-2. Inactivation-impairing mutations abolished activation by ITP-2 and led to inhibition of hERG channels. ITP-2 exerted agonistic effect from extracellular side of the membrane and could activate one of the arrhythmia-associated trafficking-deficient LQT2 mutants.
CONCLUSIONS AND IMPLICATIONS
ITP-2 may serve as another novel lead molecule for designing robust activators of hERG channels. hERG1a/1b gating kinetics were differentially modulated by ITP-2 leading to altered sensitivity. ITP-2 is capable of activating an LQT2 mutant and may be potentially useful in the development of LQT2 therapeutics.
背景与目的
K 11.1(hERG)通道激活剂在获得性和先天性长QT(LQT)综合征的治疗中具有潜在应用价值。在此,我们描述了一种新型hERG通道激活剂5 -(((1H - 吲唑 - 5 - 基)氧基)甲基)- N -(4 -(三氟甲氧基)苯基)嘧啶 - 2 - 胺(ITP - 2),其化学结构与先前报道的化合物不同。
实验方法
采用传统电生理方法评估ITP - 2对在HEK - 293细胞中异源表达的hERG1a和hERG1a/1b通道的影响。
关键结果
ITP - 2选择性增加测试脉冲电流(EC 1.0 μM)并降低尾电流。ITP - 2激活hERG1a同源通道主要是通过引起电压依赖性失活中点的大幅去极化偏移以及激活电压依赖性的超极化偏移。此外,ITP - 2减缓失活速率并使失活恢复更快。hERG1a/1b异源通道对ITP - 2的敏感性降低,其失活特性受到不同调节。对于hERG1a/1b通道,对电压依赖性失活中点和失活速率的影响不太明显。对电压依赖性激活和激活动力学的影响与hERG1a通道无差异。有趣的是,hERG1b通道被ITP - 2抑制。失活受损突变消除了ITP - 2的激活作用并导致hERG通道受到抑制。ITP - 2从细胞膜外侧发挥激动作用,并可激活一种与心律失常相关的转运缺陷型LQT2突变体。
结论与意义
ITP - 2可能作为设计强大的hERG通道激活剂的另一种新型先导分子。ITP - 2对hERG1a/1b门控动力学进行了不同调节,导致敏感性改变。ITP - 2能够激活一个LQT2突变体,可能在LQT2治疗药物的开发中具有潜在用途。
Zotero 插件