Differentiated intestinal epithelial cell lines asin vitro models for predicting the intestinal absorption of drugs

Abstract

The oral absorption of a compound is a critical factor for the future of the compound as a drug. This absorption is mainly controlled by the passage across, the intestinal epithelium. Thus, the prediction of the intestinal absorption by means of anin vitro model may represent a powerful tool for the early selection of molecules during the process of drug development. In the present study, the differentiated human intestinal epithelial cell line HT29-18-C₁, was grown on permeable filters in dual chambers. These cells formed tight monolayers that were used to measurein vitro the transepithelial permeability coefficient (P _c) of various molecules. The results were compared within vivo data of oral absorption. A threshold value ofin vitro permeability of 2×10⁻⁶ cm/s was found. Molecules having a permeability coefficient higher than this value were absorbed orally more than 80%, while drugs withP _c values lower than 2×10⁻⁶ cm/s were poorly absorbed. By mathematical simulation, it was found that thisP _c value, when extrapolated to the surface area and volume of the small intestine, corresponds to an absorption of 80% for a compound with a transit time through the small intestine of 5 h. This demonstrates the predictive utility of the threshold value of the permeability coefficient derived from thein vitro model of intestinal epithelium.