Optimization of a novel series of ENaC inhibitors, leading to the selection of the long-acting inhaled clinical candidate ETD001, a potential new treatment for cystic fibrosis.

IF 6 2区 医学 Q1 CHEMISTRY, MEDICINAL European Journal of Medicinal Chemistry Pub Date : 2024-11-08 DOI:10.1016/j.ejmech.2024.117040
Henry Danahay, Martin Gosling, Roy Fox, Sarah Lilley, Holly Charlton, Jonathan D. Hargrave, Thomas B. Schofield, Duncan A. Hay, Naomi Went, Pearl McMahon, Frederic Marlin, John Scott, Julia Vile, Steve Hewison, Sarah Ellam, Samantha Brown, Juan Sabater, Guy Kennet, Sean Lightowler, Stephen P. Collingwood
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Abstract

Cystic Fibrosis (CF) results from the loss of function of the cystic fibrosis transmembrane conductance regulator (CFTR), an ion channel of key importance in the airway epithelia. CFTR helps control optimal hydration of the airways, a crucial requirement for healthy lungs. CFTR modulators have recently been approved as an effective treatment option for many genetic variants of CF. The epithelial sodium channel (ENaC), unlike CFTR which is secretory, is an absorptive pathway, and therefore its inhibition is an alternative and potentially complementary approach to aid hydration of the airways. Due to the adverse effect of ENaC inhibition in the kidney we, as have several others, focused on the design and synthesis of novel ENaC inhibitors for direct delivery to the airways via inhalation. A new series of ENaC inhibitors is described, wherein the well-established pyrazine core of first-generation inhibitors was replaced with a pyrrolopyrazine. Aiming for high retention at the surface of the lung following inhalation, optimization of this template focused on significantly increasing polarity to minimize passive cellular permeability. The resulting optimized clinical candidate ETD001 demonstrates potent inhibition of ENaC (59 nM) prolonged retention in the airways of rats (13% of the delivered dose retained after 6h) following intratracheal administration and potent and long-acting effect in a sheep model of mucociliary clearance following inhalation (ED100 (4-6h) = 9 μg/kg). ETD001 entered a phase II study in CF patients in July 2024.

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优化一系列新型 ENaC 抑制剂,最终选定长效吸入式临床候选药物 ETD001,这是一种治疗囊性纤维化的潜在新疗法。
囊性纤维化(CF)是由于囊性纤维化跨膜传导调节器(CFTR)功能丧失造成的,CFTR 是气道上皮中的一个重要离子通道。CFTR 有助于控制气道的最佳水合状态,这是肺部健康的关键要求。CFTR 调节剂最近已被批准作为治疗多种 CF 遗传变异的有效方法。上皮钠通道(ENaC)与具有分泌功能的 CFTR 不同,它是一种吸收途径,因此抑制ENaC 是帮助呼吸道水合的另一种可能的补充方法。由于 ENaC 抑制剂会对肾脏产生不良影响,我们和其他一些人一样,致力于设计和合成新型 ENaC 抑制剂,以便通过吸入直接输送到气道。本文介绍了一系列新型 ENaC 抑制剂,其中第一代抑制剂的吡嗪核心已被吡咯并嗪取代。为了实现吸入后在肺部表面的高保留率,该模板的优化重点是显著增加极性,以最大限度地降低被动细胞渗透性。优化后的临床候选药物 ETD001 对 ENaC 有强效抑制作用(59 nM),气管内给药后在大鼠气道中保留时间长(6 小时后保留了 13% 的给药剂量),吸入后在绵羊粘膜清除模型中具有强效和长效作用(ED100 (4-6h) = 9 μg/kg)。2024 年 7 月,ETD001 进入 CF 患者的 II 期研究。
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来源期刊
CiteScore
11.70
自引率
9.00%
发文量
863
审稿时长
29 days
期刊介绍: The European Journal of Medicinal Chemistry is a global journal that publishes studies on all aspects of medicinal chemistry. It provides a medium for publication of original papers and also welcomes critical review papers. A typical paper would report on the organic synthesis, characterization and pharmacological evaluation of compounds. Other topics of interest are drug design, QSAR, molecular modeling, drug-receptor interactions, molecular aspects of drug metabolism, prodrug synthesis and drug targeting. The journal expects manuscripts to present the rational for a study, provide insight into the design of compounds or understanding of mechanism, or clarify the targets.
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