替格瑞洛的腺苷药理学特性揭示了其对平衡核苷转运体1具有治疗相关的抑制作用。
Characterization of the adenosine pharmacology of ticagrelor reveals therapeutically relevant inhibition of equilibrative nucleoside transporter 1.
作者信息
Armstrong Duncan, Summers Claire, Ewart Lorna, Nylander Sven, Sidaway James E, van Giezen J J J
机构信息
1Safety Pharmacology, Global Safety Assessment, AstraZeneca, Alderley Park, Macclesfield, Cheshire, United Kingdom.
出版信息
J Cardiovasc Pharmacol Ther. 2014 Mar;19(2):209-19. doi: 10.1177/1074248413511693. Epub 2014 Jan 10.
INTRODUCTION
Studies have shown that ticagrelor has a further adenosine-mediated mechanism of action in addition to its potent inhibition of the P2Y12 receptor, which may explain some of ticagrelor's clinical characteristics. This study aimed to further characterize the adenosine pharmacology of ticagrelor, its major metabolites, and other P2Y12 receptor antagonists.
METHODS
Inhibition of nucleoside transporter-mediated [(3)H]adenosine uptake by ticagrelor, its major metabolites, and alternative P2Y12 antagonists was examined in recombinant Madin-Darby canine kidney (MDCK) cells. The pharmacology of ticagrelor and its major metabolites at adenosine A1, A2A, A2B, and A3 receptor subtypes was examined using in vitro radioligand binding and functional assays and ex vivo C-fiber experiments in rat and guinea pig vagus nerves.
RESULTS
Ticagrelor (and less effectively its metabolites) and the main cangrelor metabolite inhibited [(3)H]adenosine uptake in equilibrative nucleoside transporter (ENT) 1-expressing MDCK cells, whereas cangrelor and the active metabolites of prasugrel or clopidogrel had no effect. No significant inhibitory activity was observed in MDCK cells expressing ENT2 or concentrative nucleoside transporters 2/3. Ticagrelor demonstrated high affinity (inhibition constant [Ki] = 41 nmol/L) for ENT1. In adenosine receptor-binding experiments, ticagrelor and its major circulating metabolite, AR-C124910XX, had low affinity (Ki > 6 µmol/L) for each of the adenosine A1, A2A, and A2B receptors, whereas ticagrelor had a submicromolar (Ki = 190 nmol/L) affinity for the adenosine A3 receptor. However, in functional assays, at high concentrations (10 µmol/L) ticagrelor only partially inhibited 3 mmol/L adenosine-induced depolarizations in the guinea pig and rat vagus nerve preparations (by 35% and 49%, respectively).
CONCLUSIONS
Ticagrelor inhibits cellular adenosine uptake selectively via ENT1 inhibition at concentrations of clinical relevance. However, the low-binding affinity and functional inhibition of adenosine receptors observed with ticagrelor or its metabolites indicate that they possess a negligible adenosine-like activity at clinically relevant concentrations.
引言
研究表明,替格瑞洛除了能有效抑制P2Y12受体外,还具有腺苷介导的作用机制,这或许可以解释替格瑞洛的一些临床特征。本研究旨在进一步明确替格瑞洛、其主要代谢产物以及其他P2Y12受体拮抗剂的腺苷药理学特性。
方法
在重组的犬肾Madin-Darby(MDCK)细胞中,检测替格瑞洛、其主要代谢产物以及其他P2Y12拮抗剂对核苷转运体介导的[³H]腺苷摄取的抑制作用。利用体外放射性配体结合实验、功能测定以及大鼠和豚鼠迷走神经的离体C纤维实验,研究替格瑞洛及其主要代谢产物对腺苷A1、A2A、A2B和A3受体亚型的药理学特性。
结果
替格瑞洛(及其代谢产物的作用较弱)和坎格雷洛的主要代谢产物可抑制表达平衡核苷转运体(ENT)1的MDCK细胞摄取[³H]腺苷,而坎格雷洛以及普拉格雷或氯吡格雷的活性代谢产物则无此作用。在表达ENT2或浓缩核苷转运体2/3的MDCK细胞中未观察到明显的抑制活性。替格瑞洛对ENT1表现出高亲和力(抑制常数[Ki]=41 nmol/L)。在腺苷受体结合实验中,替格瑞洛及其主要循环代谢产物AR-C124910XX对腺苷A1、A2A和A2B受体的亲和力较低(Ki>6 μmol/L),而替格瑞洛对腺苷A3受体具有亚微摩尔级(Ki=190 nmol/L)的亲和力。然而,在功能测定中,高浓度(10 μmol/L)时替格瑞洛仅部分抑制豚鼠和大鼠迷走神经标本中3 mmol/L腺苷诱导的去极化(分别为35%和49%)。
结论
替格瑞洛在临床相关浓度下可通过抑制ENT1选择性地抑制细胞摄取腺苷。然而,替格瑞洛或其代谢产物对腺苷受体的低结合亲和力和功能抑制表明,在临床相关浓度下它们具有可忽略不计的腺苷样活性。
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