Department of International Infectious Diseases Control, Graduate School of Medicine, Dentistry and Pharmaceutical Sciences, Okayama University, Okayama 700-8530, Japan.
Department of Parasitology, Benha Faculty of Medicine, Benha University, Benha 13511, Egypt.
Parasites Hosts Dis. 2023 Aug;61(3):282-291. doi: 10.3347/PHD.23044. Epub 2023 Aug 21.
Despite the recent progress in public health measures, malaria remains a troublesome disease that needs to be eradicated. It is essential to develop new antimalarial medications that are reliable and secure. This report evaluated the pharmacokinetics and antimalarial activity of 1,2,6,7-tetraoxaspiro[7.11]nonadecane (N-89) using the rodent malaria parasite Plasmodium berghei in vivo. After a single oral dose (75 mg /kg) of N-89, its pharmacokinetic parameters were measured, and t1/2 was 0.97 h, Tmax was 0.75 h, and bioavailability was 7.01%. A plasma concentration of 8.1 ng/ml of N-89 was maintained for 8 h but could not be detected at 10 h. The dose inhibiting 50% of parasite growth (ED50) and ED90 values of oral N-89 obtained following a 4-day suppressive test were 20 and 40 mg/kg, respectively. Based on the plasma concentration of N-89, we evaluated the antimalarial activity and cure effects of oral N-89 at a dose of 75 mg/kg 3 times daily for 3 consecutive days in mice harboring more than 0.5% parasitemia. In all the N-89- treated groups, the parasites were eliminated on day 5 post-treatment, and all mice recovered without a parasite recurrence for 30 days. Additionally, administering oral N-89 at a low dose of 50 mg/kg was sufficient to cure mice from day 6 without parasite recurrence. This work was the first to investigate the pharmacokinetic characteristics and antimalarial activity of N-89 as an oral drug. In the future, the following steps should be focused on developing N-89 for malaria treatments; its administration schedule and metabolic pathways should be investigated.
尽管在公共卫生措施方面取得了最近的进展,但疟疾仍然是一种需要消除的棘手疾病。开发可靠和安全的新抗疟药物至关重要。本报告评估了 1,2,6,7-四氧杂螺[7.11]十九烷(N-89)在体内利用伯氏疟原虫(Plasmodium berghei)作为啮齿动物疟原虫的药代动力学和抗疟活性。在单次口服剂量(75mg/kg)N-89 后,测量其药代动力学参数,t1/2 为 0.97 小时,Tmax 为 0.75 小时,生物利用度为 7.01%。N-89 的血浆浓度为 8.1ng/ml,可维持 8 小时,但在 10 小时时无法检测到。在 4 天抑制性试验中口服 N-89 获得的抑制 50%寄生虫生长(ED50)和 ED90 值分别为 20 和 40mg/kg。基于 N-89 的血浆浓度,我们在载有超过 0.5%寄生虫血症的小鼠中,每日口服 3 次,每次 75mg/kg,连续 3 天,评估了口服 N-89 的抗疟活性和治愈效果。在所有接受 N-89 治疗的组中,寄生虫在治疗后第 5 天被消除,所有小鼠在 30 天内没有寄生虫复发而康复。此外,低剂量 50mg/kg 的口服 N-89 足以从第 6 天开始治愈无寄生虫复发的小鼠。这项工作是首次研究 N-89 作为口服药物的药代动力学特征和抗疟活性。在未来,应重点研究开发 N-89 用于疟疾治疗;应研究其给药方案和代谢途径。
