DMPK, IMED Oncology, AstraZeneca, Waltham, Massachusetts (C.G); Early Chemical Development, IMED Pharmaceutical Sciences, AstraZeneca, Mölndal, Sweden (M.A., C.S.E); Medicinal Chemistry, IMED Respiratory Inflammation and Autoimmunity, AstraZeneca, Mölndal, Sweden (R.J.L.); and Legacy R&D at Wilmington, AstraZeneca, Wilmington, Delaware (C.G., C.S.E., P.D., J.E.H., B.T.D., G.C., M.A.S., M.C., M.S.)
DMPK, IMED Oncology, AstraZeneca, Waltham, Massachusetts (C.G); Early Chemical Development, IMED Pharmaceutical Sciences, AstraZeneca, Mölndal, Sweden (M.A., C.S.E); Medicinal Chemistry, IMED Respiratory Inflammation and Autoimmunity, AstraZeneca, Mölndal, Sweden (R.J.L.); and Legacy R&D at Wilmington, AstraZeneca, Wilmington, Delaware (C.G., C.S.E., P.D., J.E.H., B.T.D., G.C., M.A.S., M.C., M.S.).
Drug Metab Dispos. 2018 Mar;46(3):303-315. doi: 10.1124/dmd.117.078873. Epub 2018 Jan 8.
AZD7325 [4-amino-8-(2-fluoro-6-methoxyphenyl)--propylcinnoline-3-carboxamide] is a selective GABA receptor modulator intended for the treatment of anxiety disorders through oral administration. An interesting metabolic cyclization and aromatization pathway led to the tricyclic core of M9, i.e., 2-ethyl-7-(2-fluoro-6-methoxyphenyl)pyrimido[5,4-c]cinnolin-4(3H)-one. Further oxidative metabolism generated M10 via -demethylation and M42 via hydroxylation. An authentic standard of M9 was synthesized to confirm the novel structure of M9 and that of M10 and M42 by liver microsomal incubation of the M9 standard. Metabolites M9, M10, and M42 were either minor or absent in plasma samples after a single dose; however, all became major metabolites in human and preclinical animal plasma after repeated doses and circulated in humans longer than 48 hours after the end of seven repeated doses. The absence of these long circulating metabolites from selected patients' plasma samples was used to demonstrate patient noncompliance as the cause of unexpected lack of drug exposure in some patients during a Phase IIb outpatient clinical study. The observation of late-occurring and long-circulating metabolites demonstrates the need to collect plasma samples at steady state after repeated doses when conducting metabolite analysis for the safety testing of drug metabolites. All 12 major nonconjugate metabolites of AZD7325 observed in human plasma at steady state were also observed in dog, rat, and mouse plasma samples collected from 3-month safety studies and at higher exposures in the animals than humans. This eliminated concern about human specific or disproportional metabolites.
AZD7325(4-氨基-8-(2-氟-6-甲氧基苯基)-丙基-邻苯二甲酰亚胺-3-甲酰胺)是一种选择性 GABA 受体调节剂,旨在通过口服给药治疗焦虑症。一个有趣的代谢环化和芳构化途径导致了 M9 的三环核心,即 2-乙基-7-(2-氟-6-甲氧基苯基)嘧啶并[5,4-c] 邻苯二甲酰亚胺-4(3H)-酮。进一步的氧化代谢通过 -去甲基化生成 M10,通过羟基化生成 M42。通过对 M9 标准品进行肝微粒体孵育,合成了 M9 的真实标准品,以确认 M9、M10 和 M42 的新型结构。单次给药后,M9、M10 和 M42 代谢物在血浆样品中要么是次要的,要么不存在;然而,在重复给药后,它们都成为人血浆和临床前动物血浆中的主要代谢物,在重复给药结束后 48 小时后在人体内循环时间长于 48 小时。在一项 IIb 期门诊临床研究中,由于一些患者的药物暴露量出乎意料地减少,从选定患者的血浆样本中未检测到这些长循环代谢物,这表明患者不遵守规定是造成这种情况的原因。观察到晚期和长循环代谢物的存在表明,在进行药物代谢物的安全性测试时,在重复给药后进行稳态时需要收集血浆样本进行代谢物分析。在稳态下从人血浆中观察到的 AZD7325 的所有 12 种主要非缀合代谢物也在来自 3 个月安全性研究的狗、大鼠和小鼠血浆样本中观察到,并且在动物中的暴露水平高于人类。这消除了对人类特异性或不成比例的代谢物的担忧。
