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The transport pathway in the ABCG2 protein and its regulation revealed by molecular dynamics simulations

Tamás Nagy, Ágota Tóth, Ágnes Telbisz, Balázs Sarkadi, Hedvig Tordai, Attila Tordai, Tamás Hegedűs

2020Cellular and Molecular Life Sciences28 citationsDOIOpen Access PDF

Abstract

Atomic-level structural insight on the human ABCG2 membrane protein, a pharmacologically important transporter, has been recently revealed by several key papers. In spite of the wealth of structural data, the pathway of transmembrane movement for the large variety of structurally different ABCG2 substrates and the physiological lipid regulation of the transporter has not been elucidated. The complex molecular dynamics simulations presented here may provide a breakthrough in understanding the steps of the substrate transport process and its regulation by cholesterol. Our analysis revealed drug binding cavities other than the central binding site and delineated a putative dynamic transport pathway for substrates with variable structures. We found that membrane cholesterol accelerated drug transport by promoting the closure of cytoplasmic protein regions. Since ABCG2 is present in all major biological barriers and drug-metabolizing organs, influences the pharmacokinetics of numerous clinically applied drugs, and plays a key role in uric acid extrusion, this information may significantly promote a reliable prediction of clinically important substrate characteristics and drug-drug interactions.

Topics & Concepts

Abcg2TransporterDrugTransport proteinATP-binding cassette transporterMolecular dynamicsChemistryBiochemistryBiologyDrug discoveryBiophysicsComputational biologyCell biologyPharmacologyGeneComputational chemistryDrug Transport and Resistance MechanismsCholesterol and Lipid MetabolismProtein Interaction Studies and Fluorescence Analysis
The transport pathway in the ABCG2 protein and its regulation revealed by molecular dynamics simulations | Litcius