Mass Balance Study of the Engineered Cationic Antimicrobial Peptide, WLBU2, Following a Single Intravenous Dose of 14C-WLBU2 in Mice.

IF 1.3 Q4 PHARMACOLOGY & PHARMACY

Current Reviews in Clinical and Experimental Pharmacology Pub Date : 2021-01-01 DOI:10.2174/1574884715666200810094201

Jan H Beumer, Jianxia Guo, Evan C Ray, Jonas Scemama, Robert A Parise, Berthony Deslouches, Jonathan D Steckbeck, Ronald C Montelaro, Julie L Eiseman

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引用次数: 1

Abstract

Background: To address multidrug resistance, we developed engineered Cationic Antimicrobial Peptides (eCAPs). Lead eCAP WLBU2 displays potent activity against drug-resistant bacteria and effectively treats lethal bacterial infections in mice, reducing bacterial loads to undetectable levels in diverse organs.

Objective: To support the development of WLBU2, we conducted a mass balance study.

Methods: CD1 mice were administered 10, 15, 20 and 30 mg/kg of QDx5 WLBU2 or a single dose of [14C]-WLBU2 at 15 mg/kg IV. Tolerability, tissue distribution and excretion were evaluated with liquid scintillation and HPLC-radiochromatography.

Results: The maximum tolerated dose of WLBU2 is 20 mg/kg IV. We could account for greater than >96% of the radioactivity distributed within mouse tissues at 5 and 15 min. By 24h, only ~40-50% of radioactivity remained in the mice. The greatest % of the dose was present in liver, accounting for ~35% of radioactivity at 5 and 15 min, and ~ 8% of radioactivity remained at 24h. High radioactivity was also present in kidneys, plasma, red blood cells and lungs, while less than 0.2% of radioactivity was present in brain, fat, or skeletal muscle. Urinary and fecal excretion accounted for 12.5 and 2.2% of radioactivity at 24h.

Conclusion: WLBU2 distributes widely to mouse tissues and is rapidly cleared with a terminal radioactivity half-life of 22 h, a clearance of 27.4 mL/h/kg, and a distribution volume of 0.94 L/kg. At 2-100 μg-eq/g, the concentrations of 14C-WLBU2 appear high enough in the tissues to account for the inhibition of microbial growth.

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小鼠单次静脉注射14C-WLBU2后工程阳离子抗菌肽WLBU2的质量平衡研究。

背景:为了解决多药耐药问题，我们开发了工程阳离子抗菌肽(eCAPs)。铅eCAP WLBU2显示出对耐药细菌的有效活性，并有效治疗小鼠的致命细菌感染，将不同器官的细菌负荷降低到不可检测的水平。目的:为了支持WLBU2的发展，我们进行了一项物质平衡研究。方法:分别给予CD1小鼠10、15、20、30 mg/kg QDx5 WLBU2或单剂量[14C]-WLBU2 (15 mg/kg IV)，采用液相闪烁法和高效液相色谱法评价其耐受性、组织分布和排泄情况。结果:WLBU2的最大耐受剂量为20 mg/kg IV，在5和15 min时可占小鼠组织内放射性分布的>96%，到24h时仅保留~40-50%的放射性。最大的剂量%存在于肝脏，在5和15 min时约占放射性的35%，在24h时约占放射性的8%。肾脏、血浆、红细胞和肺部也存在高放射性，而大脑、脂肪或骨骼肌的放射性含量不到0.2%。24h时尿液和粪便的放射性分别占12.5%和2.2%。结论:WLBU2在小鼠组织中分布广泛，清除迅速，终末放射性半衰期为22 h，清除率为27.4 mL/h/kg，分布体积为0.94 L/kg。在2-100 μg-eq/g时，14C-WLBU2在组织中的浓度似乎足够高，可以解释微生物生长的抑制。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Current Reviews in Clinical and Experimental Pharmacology PHARMACOLOGY & PHARMACY-

CiteScore

4.80

自引率

9.10%

发文量