Developability profile framework for lead candidate selection in topical dermatology

Abstract

The development of molecules for topical dermatology has primarily relied on drug repurposing or on combination therapies, leading to an average of only one New Chemical Entity (NCE) approved per year by the FDA. Topical products offer benefits to patients by enabling localized treatment, while minimizing systemic exposure and the likelihood of adverse events. New therapies are further justified by the burden skin diseases cause on patients’ quality of life. Notwithstanding the opportunities, the selection of a topical NCE presents challenges, primarily derived from a target product profile uncommon to oral drugs. Beyond a more stringent range of physicochemical properties, the molecule must display adequate solubility and chemical stability in topical-relevant excipients; must effectively cross the stratum corneum, considerably less permeable than the intestinal epithelium, and elicit a local therapeutic response; and must enable a formulation with robust physical stability. A novel framework intended to de-risk NCE selection is presented and based on four calculated physicochemical properties: molecular weight, clogP, topological polar surface area, and aromatic ring count. The use of topical-relevant solvents to assess the molecule’s solubility profile, and a 2-day accelerated chemical stability methodology, are also described as critical steps in early dermal development.