GSK1562590，一种缓慢解离的尾加压素 II 受体拮抗剂，在体外表现出延长的药效动力学活性。

GSK1562590, a slowly dissociating urotensin-II receptor antagonist, exhibits prolonged pharmacodynamic activity ex vivo.

机构信息

Metabolic Pathways Center of Excellence for Drug Discovery, GlaxoSmithKline, King of Prussia, PA, USA.

出版信息

Br J Pharmacol. 2010 Sep;161(1):207-28. doi: 10.1111/j.1476-5381.2010.00889.x.

DOI:10.1111/j.1476-5381.2010.00889.x

PMID:20718751

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2962828/

Abstract

BACKGROUND AND PURPOSE

Recently identified antagonists of the urotensin-II (U-II) receptor (UT) are of limited utility for investigating the (patho)physiological role of U-II due to poor potency and limited selectivity and/or intrinsic activity.

EXPERIMENTAL APPROACH

The pharmacological properties of two novel UT antagonists, GSK1440115 and GSK1562590, were compared using multiple bioassays.

KEY RESULTS

GSK1440115 (pK(i)= 7.34-8.64 across species) and GSK1562590 (pK(i)= 9.14-9.66 across species) are high affinity ligands of mammalian recombinant (mouse, rat, cat, monkey, human) and native (SJRH30 cells) UT. Both compounds exhibited >100-fold selectivity for UT versus 87 distinct mammalian GPCR, enzyme, ion channel and neurotransmitter uptake targets. GSK1440115 showed competitive antagonism at UT in arteries from all species tested (pA(2)= 5.59-7.71). In contrast, GSK1562590 was an insurmountable UT antagonist in rat, cat and hUT transgenic mouse arteries (pK(b)= 8.93-10.12 across species), but a competitive antagonist in monkey arteries (pK(b)= 8.87-8.93). Likewise, GSK1562590 inhibited the hU-II-induced systemic pressor response in anaesthetized cats at a dose 10-fold lower than that of GSK1440115. The antagonistic effects of GSK1440115, but not GSK1562590, could be reversed by washout in rat isolated aorta. In ex vivo studies, GSK1562590 inhibited hU-II-induced contraction of rat aorta for at least 24 h following dosing. Dissociation of GSK1562590 binding was considerably slower at rat than monkey UT.

CONCLUSIONS AND IMPLICATIONS

Whereas both GSK1440115 and GSK1562590 represent high-affinity/selective UT antagonists suitable for assessing the (patho)physiological role of U-II, only GSK1562590 exhibited sustained UT residence time and improved preclinical efficacy in vivo.

摘要

背景与目的

最近发现的几种尿鸟苷素 II（U-II）受体（UT）拮抗剂由于效力差、选择性和/或内在活性有限，在研究 U-II 的（病理）生理作用方面应用价值有限。

实验方法

利用多种生物测定方法比较了两种新型 UT 拮抗剂 GSK1440115 和 GSK1562590 的药理学特性。

主要结果

GSK1440115（种间 pK(i)值为 7.34-8.64）和 GSK1562590（种间 pK(i)值为 9.14-9.66）是对哺乳动物重组（小鼠、大鼠、猫、猴、人）和天然（SJRH30 细胞）UT 具有高亲和力的配体。这两种化合物对 UT 的选择性均超过 100 倍，而对 87 种不同的哺乳动物 GPCR、酶、离子通道和神经递质摄取靶点的选择性则较低。GSK1440115 在所有测试物种的动脉中均表现为 UT 的竞争性拮抗剂（pA(2)=5.59-7.71）。相比之下，GSK1562590 是大鼠、猫和 hUT 转基因小鼠动脉中的不可逾越的 UT 拮抗剂（种间 pK(b)值为 8.93-10.12），但在猴动脉中是竞争性拮抗剂（pK(b)值为 8.87-8.93）。同样，GSK1562590 在麻醉猫中以比 GSK1440115 低 10 倍的剂量抑制 hU-II 诱导的全身升压反应。GSK1440115 的拮抗作用可在大鼠离体主动脉中通过冲洗而逆转，但 GSK1562590 的拮抗作用则不能。在离体研究中，GSK1562590 在大鼠主动脉中至少 24 小时内抑制 hU-II 诱导的收缩。GSK1562590 在大鼠 UT 上的结合解离速度明显慢于猴 UT。

结论和意义

虽然 GSK1440115 和 GSK1562590 均为高亲和力/选择性 UT 拮抗剂，适用于评估 U-II 的（病理）生理作用，但只有 GSK1562590 表现出延长的 UT 停留时间和改善的体内临床前疗效。

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本文引用的文献

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