Impact of components of biorelevant media on solubilization of methotrexate and sulfasalazine by Pluronic F127

Pluronics are micelle-based solubilizers, improving the therapeutic potential of orally administrated drugs. In this connection, solubilizing action of Pluronics is being intensively studied in standard buffers simulating gastrointestinal fluids and consisting of inorganic components. However, human gastrointestinal fluids have more complicate composition due to the presence of organic compounds such as enzymes, mucus, and bile, which are able to form supramolecular aggregates and influence the solubilizing effect of Pluronics. Therefore, the use of specially designed biorelevant media is a promising approach to assessing the effectiveness of solubilizing activity of Pluronics in vitro.

Based on this, we studied the solubilization of poorly soluble methotrexate and sulfasalazine, which are used in the treatment of autoimmune and oncological diseases, by Pluronic F127 in Fasted State Simulated Gastric Fluid and Fasted State Simulated Intestinal Fluid. Taurocholic acid and lecithin being the main components of these biorelevant media form micelles and thereby enhance the solubility of drugs that are insoluble or sparingly soluble in water. The affinity of drugs under consideration to the micelles of different nature, which are present in the dissolution medium, is examined in this work. The possible competing interactions of drug-micelle and drug-unimer are discussed in terms of the ionization state of drug molecules and the nature of surfactants.