Affinium Pharmaceuticals, Inc., 200 Front Street West, Suite 3004, P.O. Box 31, Toronto, ON M5V 3K2, Canada.
Eur J Pharm Sci. 2013 Nov 20;50(3-4):440-6. doi: 10.1016/j.ejps.2013.08.019. Epub 2013 Aug 27.
To investigate the absorption, distribution, metabolism and excretion of AFN-1252, a novel inhibitor of the essential FabI enzyme in Staphylococcus spp., in vitro and following microdosing in healthy adult male subjects following intravenous and oral administration.
Three ADME studies, comprising a Caco-2 assay, a rat intestinal perfusion model and a microdosing study in healthy human volunteers, were conducted.
The Caco-2 assay indicated that AFN-1252 in solution is well-absorbed and undergoes insignificant efflux, and its transport across the intestinal wall is probably passive. In the rat intestinal perfusion model, AFN-1252 exhibited high permeability potential across three segments, in the rank order of jejunum=ileum>colon. Taken together with the low aqueous solubility, the data from these studies indicate that AFN-1252 is a BCS Class II molecule with solubility-limited absorption. Analysis of the [(14)C]-AFN-1252 radioactivity concentration-time data indicated similar pharmacokinetics following intravenous and oral administration in the microdosing study in healthy volunteers. These included long terminal half-lives of ∼7 h and 83% bioavailability, indicating that there was little first-pass metabolism following oral dosing. AFN-1252 exhibited good distribution to skin and skin structures where its anti-staphylococcal activity may be required. Urinary and faecal excretion are major elimination routes for [(14)C]-AFN-1252 following intravenous or oral administration.
AFN-1252 has the potential for both intravenous and oral administration, once- or twice-daily dosing and good tissue distribution in humans. Further safety, efficacy and pharmacokinetic studies in man are required to investigate therapeutically-relevant doses for this novel agent and its targeted selectivity and high potency against Staphylococcus spp.
研究新型金黄色葡萄球菌必需 FabI 酶抑制剂 AFN-1252 的体外吸收、分布、代谢和排泄情况,并在健康成年男性中进行静脉和口服给药后的微剂量研究。
进行了三项 ADME 研究,包括 Caco-2 测定、大鼠肠灌注模型和健康志愿者的微剂量研究。
Caco-2 测定表明,AFN-1252 在溶液中具有良好的吸收,几乎没有外排,其穿过肠壁的转运可能是被动的。在大鼠肠灌注模型中,AFN-1252 跨三个肠段具有高渗透性,顺序为空肠=回肠>结肠。结合低水溶解度,这些研究的数据表明 AFN-1252 是一种 BCS 分类 II 分子,具有溶解度限制的吸收。[(14)C]-AFN-1252 放射性浓度-时间数据的分析表明,在健康志愿者的微剂量研究中,静脉和口服给药后的药代动力学相似。这些包括约 7 小时的长终末半衰期和 83%的生物利用度,表明口服给药后几乎没有首过代谢。AFN-1252 表现出良好的皮肤和皮肤结构分布,其抗葡萄球菌活性可能需要在这些部位发挥作用。静脉或口服给药后,[(14)C]-AFN-1252 的主要消除途径是尿和粪便排泄。
AFN-1252 具有静脉和口服给药的潜力,可每日一次或两次给药,在人体内具有良好的组织分布。需要进一步的安全性、疗效和药代动力学研究,以研究该新型药物在金黄色葡萄球菌中的治疗相关剂量及其针对金黄色葡萄球菌的靶向选择性和高效力。
