Evaluation of Factors Affecting Gastrointestinal Absorption of a Novel Anticoagulant FX-93 for Development of Oral Formulation

Abstract

To find out factors causing the low bioavailability of FX-93, a novel anticoagulant, its solubility, membrane permeability, and the effect of bile salt on the absorption of FX-93 were investigated. The solubility of FX-93 under physiological conditions ranged from 0.3 to 18.3 mg/mL and the dose number was calculated to be 0.02-0.27, suggesting that the intrinsic solubility of FX-93 should not be a limiting factor for oral absorption. Apparent permeability of FX-93 across Caco-2 cell monolayer suggested that its fraction of dose absorbed would range between 30% and 40% in humans. Furthermore, FX-93 was substantially absorbed from each segment of rat intestine. However, the decrease in the gastrointestinal transit rate significantly decreased maximum plasma concentration and area under the plasma concentration-time curve of FX-93 after oral dosing in dogs, suggesting that FX-93 absorption would be suppressed by some components in the small intestinal lumen. An in situ rat administration study indicated that bile significantly decreased the intestinal absorption of FX-93 by two-thirds, which could be attributed to the decrease in FX-93 solubility by the interaction with bile or bile acid. Nuclear magnetic resonance spectroscopy analysis suggested that FX-93 would interact with bile salt between the naphthalene ring of FX-93 and steroidal backbone of bile salt.