Investigation of Intestinal Absorption Enhancers: Individual vs. Blends with the Carbamoylphosphonate JS403

Reut Bitton, Marina Tsuriel, R. Suresh, E. Breuer, R. Reich, A. Hoffman
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引用次数: 3

Abstract

JS403 is a carbamoylphosphonate (CPO) molecule that showed anti-metastatic properties in mice. Since JS403 is intended to be a chronic prophylactic drug, the preferred route of administration should be oral. However, it exhibits poor oral bioavailability of less than 1%. The poor intestinal permeability and high solubility implies its classification as BCS class III drug. The aim of this study was to overcome the limited intestinal permeation of JS403 that is regarded as an unmet need in the pharmaceutical industry for this class of drugs. Therefore, the impact of acceptable absorption enhancers on the intestinal permeability of JS403 were examined using established experimental models. The absorption enhancers were: I) sodium caprate (C10), II) sodium deoxycholate (SDC) and III) mono-carboxymethylated chitosan (MCC). The effect of each enhancer was examined alone and also in combinations. In-vitro permeability through enterocytes monolayer was studied using the Caco-2 model, while the oral bioavailability was determined by using the freely moving rat model. The results of this investigation showed that while the use of a single absorption enhancer had no effect on JS403 permeability, the combination of C10 and sodium deoxycholate increased the permeability of JS403 by 10-fold in the in-vitro model. In addition, this blend showed a 2-fold elevation in JS403 oral bioavailability. Both in-vitro and in-vivo results highlight the synergistic potential of the combined enhancers C10 and sodium deoxycholate in enhancing oral bioavailability of BCS class III medications.
肠道吸收促进剂的研究:单独与与氨基甲酰膦酸盐JS403混合
JS403是一种氨基甲酰膦酸盐(CPO)分子,在小鼠中显示出抗转移特性。由于JS403是一种慢性预防药物,首选的给药途径应该是口服。然而,口服生物利用度不足1%。其肠通透性差,溶解度高,属于BCS III类药物。本研究的目的是克服JS403有限的肠道渗透,这被认为是制药行业对该类药物的未满足需求。因此,我们使用已建立的实验模型来检测可接受吸收促进剂对JS403肠道通透性的影响。吸收促进剂为:1)癸酸钠(C10), 2)脱氧胆酸钠(SDC)和3)单羧甲基化壳聚糖(MCC)。每种增强剂的作用分别被单独和联合检测。采用Caco-2模型研究其通过肠细胞单层的体外渗透性,采用自由活动大鼠模型测定其口服生物利用度。本研究结果显示,使用单一吸收增强剂对JS403的通透性没有影响,而C10和脱氧胆酸钠联合使用可使体外模型JS403的通透性提高10倍。此外,该混合物的JS403口服生物利用度提高了2倍。体外和体内实验结果均显示了C10和脱氧胆酸钠联合增强剂在提高BCS III类药物口服生物利用度方面的协同潜力。
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