Development of Simple and Accurate in Silico Ligand-Based Models for Predicting ABCG2 Inhibition

Abstract: The ATP binding cassette transporter ABCG2 is a physiologically important drug transporter that has a central role in determining the ADMET (absorption, distribution, metabolism, elimination, and toxicity) profile of therapeutics, and contributes to multidrug resistance. Thus, development of predictive in silico models for the identification of ABCG2 inhibitors is of great interest in the early stage of drug discovery. In this work, by exploiting a large public dataset, a number of ligand-based classification … Show more

“…Hence, ligands with high on-affinities for the regulatory gates would act as more or less specific pump inhibitors 65 . This may help designing a new generation of specific ABCG2 inhibitors [76][77][78] that attack residues at regulatory gates for overcoming cancer multidrug resistance phenomena.…”

The Human ABCG2 Transporter Relies on a Triple-Gated Translocation Channel for Multidrug Efflux

“…Hence, ligands with high on-affinities for the regulatory gates would act as more or less specific pump inhibitors 65 . This may help designing a new generation of specific ABCG2 inhibitors [76][77][78] that attack residues at regulatory gates for overcoming cancer multidrug resistance phenomena.…”

The Human ABCG2 Transporter Relies on a Triple-Gated Translocation Channel for Multidrug Efflux