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Modeling Substrate Entry into the P-Glycoprotein Efflux Pump at the Blood-Brain Barrier.

Christian JorgensenMartin B UlmschneiderPeter C Searson
Published in: Journal of medicinal chemistry (2023)
We report molecular dynamics simulations of rhodamine entry into the central binding cavity of P-gp in the inward open conformation. Rhodamine can enter the inner volume via passive transport across the luminal membrane or lateral diffusion in the lipid bilayer. Entry into the inner volume is determined by the aperture angle at the apex of the protein, with a critical angle of 27° for rhodamine. The central binding cavity has an aqueous phase with a few lipids, which significantly reduces substrate diffusion. Within the central binding cavity, we identified regions with relatively weak binding, suggesting that the combination of reduced mobility and weak substrate binding confines rhodamine to enable the completion of the efflux cycle. Tariquidar, a P-gp inhibitor, aggregates at the lower arms of the P-gp, suggesting that inhibition involves steric hindrance of entry into the inner volume and/or steric hindrance of access of ATP to the nucleotide-binding domains.
Keyphrases
  • molecular dynamics simulations
  • binding protein
  • dna binding
  • fluorescent probe
  • fatty acid
  • molecular docking
  • transcription factor
  • ionic liquid