Molecular diversity in the context of leadlikeness: compound properties that enable effective biochemical screening

Molecular diversity is of vital importance in drug screening in general and for the discovery and development of new pharmacophores in particular. Biochemical screening is a powerful tool for pharmacophore development given understanding of the properties of a good lead compound operating in the biochemical environment. The properties of leadlikeness have evolved to accommodate the artificial conditions of a biochemical assay. Accordingly, the properties of leadlikeness that are suited for screening at protein targets biochemically are different and complementary to the properties of druglikeness used to guide the selection of good compounds studied biologically in cellular studies and animal models. The benefits of leadlikeness in the biochemical screening arena (including fragment-based screening and co-crystallization studies) are described here and recommendations are forwarded for the generation of leadlike molecular diversity. Chemically stable low molecular weight ‘minimalist’ compounds (or fragments) with dense heteroatom substitution and variable conformational constraint are promoted as conceptually superior compounds for biochemical screening.