The divergent roles of tryptophans W354 and W217 in OCT1 transport: Similar localization, distinct functions
Sarah Römer, Lennart Ebel, Anna Neumann, Vincent Rönnpagel, Lukas Schulig, Marleen J. Meyer-Tönnies, Mladen V. Tzvetkov

TL;DR
This study explores how specific amino acids in OCT1 transporter affect drug transport and substrate specificity.
Contribution
The study identifies distinct roles of W354 and W217 in OCT1 transport and substrate specificity.
Findings
W354 is crucial for OCT1 function by stabilizing its outward open conformation.
W217 contributes to OCT1's substrate specificity, especially with smaller, less lipophilic substrates.
The W217A/F244A double mutant strongly reduces uptake of all tested substrates.
Abstract
Hepatic organic cation transporter 1 (OCT1, SLC22A1) has a broad spectrum of structurally diverse substrates, including drugs like morphine, metformin, sumatriptan, and fenoterol. Here, we leveraged existing cryo-EM data to identify amino acids that constrain the binding pocket toward the intracellular lumen and performed functional analyses to determine their roles in OCT1 transport, in general, and in substrate specificity, in particular. We mutated W217, W354, and I446 and analyzed their effects on the transport of 27 structurally highly diverse substrates in HEK293 cells. The W354A mutant resulted in a complete loss of function for all tested substrates, whereas only the W354Y mutant partially retained OCT1 activity. Molecular dynamics simulations and functional analyses suggest that W354 affects OCT1 transport by forming a hydrogen bond with N453 in transmembrane helix 10, thereby…
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Taxonomy
TopicsDrug Transport and Resistance Mechanisms · Amino Acid Enzymes and Metabolism · Neurotransmitter Receptor Influence on Behavior
