Centre for Human Drug Research, Leiden, The Netherlands.
Department of Surgery, Department of Neurology, Leiden University Medical Centre, Leiden, The Netherlands.
Br J Clin Pharmacol. 2023 Dec;89(12):3606-3617. doi: 10.1111/bcp.15861. Epub 2023 Aug 13.
Dysfunction of nitric oxide-soluble guanylate cyclase (sGC)-cyclic guanosine monophosphate signalling is implicated in the pathophysiology of cognitive impairment. Zagociguat is a central nervous system (CNS) penetrant sGC stimulator designed to amplify nitric oxide-cyclic guanosine monophosphate signalling in the CNS. This article describes a phase 1b study evaluating the safety and pharmacodynamic effects of zagociguat.
In this randomized crossover study, 24 healthy participants aged ≥65 years were planned to receive 15 mg zagociguat or placebo once daily for 2 15-day periods separated by a 27-day washout. Adverse events, vital signs, electrocardiograms and laboratory tests were conducted to assess safety. Pharmacokinetics of zagociguat were evaluated in blood and cerebrospinal fluid (CSF). Pharmacodynamic assessments included evaluation of cerebral blood flow, CNS tests, pharmaco-electroencephalography, passive leg movement and biomarkers in blood, CSF and brain.
Twenty-four participants were enrolled; 12 participants completed both treatment periods, while the other 12 participants completed only 1 treatment period. Zagociguat was well-tolerated and penetrated the blood-brain barrier, with a CSF/free plasma concentration ratio of 0.45 (standard deviation 0.092) measured 5 h after the last dose of zagociguat on Day 15. Zagociguat induced modest decreases in blood pressure. No consistent effects of zagociguat on other pharmacodynamic parameters were detected.
Zagociguat was well-tolerated and induced modest blood pressure reductions consistent with other sGC stimulators. No clear pharmacodynamic effects of zagociguat were detected. Studies in participants with proven reduced cerebral blood flow or CNS function may be an avenue for further evaluation of the compound.
一氧化氮-可溶性鸟苷酸环化酶(sGC)-环鸟苷酸信号转导功能障碍与认知障碍的病理生理学有关。扎格列格是一种中枢神经系统(CNS)穿透性 sGC 刺激剂,旨在放大 CNS 中的一氧化氮-环鸟苷酸信号转导。本文描述了一项评估扎格列格安全性和药效学的 1b 期研究。
在这项随机交叉研究中,计划将 24 名年龄≥65 岁的健康参与者随机分为两组,分别接受每日一次 15mg 扎格列格或安慰剂治疗,为期 15 天,期间间隔 27 天洗脱期。通过不良事件、生命体征、心电图和实验室检查来评估安全性。通过血液和脑脊液(CSF)评估扎格列格的药代动力学。药效学评估包括脑血流评估、CNS 测试、药物-脑电图、被动腿部运动以及血液、CSF 和大脑中的生物标志物。
共纳入 24 名参与者;12 名参与者完成了两个治疗期,而其余 12 名参与者仅完成了一个治疗期。扎格列格耐受性良好,穿透血脑屏障,在第 15 天最后一次服用扎格列格后 5 小时,CSF/游离血浆浓度比为 0.45(标准差 0.092)。扎格列格可适度降低血压。未检测到扎格列格对其他药效学参数的一致影响。
扎格列格耐受性良好,可引起适度的血压下降,与其他 sGC 刺激剂一致。未检测到扎格列格的明确药效学作用。在已证实脑血流或 CNS 功能降低的参与者中进行研究可能是进一步评估该化合物的一种途径。
