Supramolecular self-assembly strategy for the enhanced solubility/dissolution rate and anti-cancer efficacy of osimertinib: Insights from multi-component crystals to drug chemistry

Abstract

Multi-component crystal based on supramolecular self-assembly is an effective strategy to modify the physicochemical properties of poorly water-soluble drugs. In this study, eight novel multi-component crystals of Osimertinib (AZD) were firstly synthesized under the guidance of theoretical analysis. Five single crystals were successfully obtained, and the AZD-FMS cocrystal shows a distinctive structure wherein free FMS filled in the skeleton, which may be crucial for maintaining morphology. Analysis of crystal structures and Hirshfeld surfaces indicated the involvement of N−H···O and N···H−O hydrogen bonds in the multi-component crystals. Owing to robust intermolecular interactions, multi-component crystals exhibited improved solubility/dissolution rate compared to pure AZD. Multivariate analysis revealed coformers and strong solute–solvent interactions determined the solubility/dissolution rate. Multi-component crystals showed superior stability in solution and low humidity. Moreover, AZD-FSM increased 5.2-fold anti-tumor activity over AZD, which is anticipated to enhance efficacy, reduce drug toxicity, combat drug resistance, and transform from laboratory to clinical application.