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Structural basis of promiscuous substrate transport by Organic Cation Transporter 1

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  • Yi C. Zeng

    (The Victor Chang Cardiac Research Institute
    Faculty of Medicine and Health, UNSW Sydney)

  • Meghna Sobti

    (The Victor Chang Cardiac Research Institute
    Faculty of Medicine and Health, UNSW Sydney)

  • Ada Quinn

    (University of Queensland)

  • Nicola J. Smith

    (Faculty of Medicine & Health, UNSW Sydney)

  • Simon H. J. Brown

    (University of Wollongong)

  • Jamie I. Vandenberg

    (Faculty of Medicine and Health, UNSW Sydney
    The Victor Chang Cardiac Research Institute)

  • Renae M. Ryan

    (Faculty of Medicine and Health, University of Sydney)

  • Megan L. O’Mara

    (University of Queensland)

  • Alastair G. Stewart

    (The Victor Chang Cardiac Research Institute
    Faculty of Medicine and Health, UNSW Sydney)

Abstract

Organic Cation Transporter 1 (OCT1) plays a crucial role in hepatic metabolism by mediating the uptake of a range of metabolites and drugs. Genetic variations can alter the efficacy and safety of compounds transported by OCT1, such as those used for cardiovascular, oncological, and psychological indications. Despite its importance in drug pharmacokinetics, the substrate selectivity and underlying structural mechanisms of OCT1 remain poorly understood. Here, we present cryo-EM structures of full-length human OCT1 in the inward-open conformation, both ligand-free and drug-bound, indicating the basis for its broad substrate recognition. Comparison of our structures with those of outward-open OCTs provides molecular insight into the alternating access mechanism of OCTs. We observe that hydrophobic gates stabilize the inward-facing conformation, whereas charge neutralization in the binding pocket facilitates the release of cationic substrates. These findings provide a framework for understanding the structural basis of the promiscuity of drug binding and substrate translocation in OCT1.

Suggested Citation

  • Yi C. Zeng & Meghna Sobti & Ada Quinn & Nicola J. Smith & Simon H. J. Brown & Jamie I. Vandenberg & Renae M. Ryan & Megan L. O’Mara & Alastair G. Stewart, 2023. "Structural basis of promiscuous substrate transport by Organic Cation Transporter 1," Nature Communications, Nature, vol. 14(1), pages 1-14, December.
    • Handle: RePEc:nat:natcom:v:14:y:2023:i:1:d:10.1038_s41467-023-42086-9
    DOI: 10.1038/s41467-023-42086-9
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    2. Florian Gabriel & Lea Spriestersbach & Antonia Fuhrmann & Katharina E. J. Jungnickel & Siavash Mostafavi & Els Pardon & Jan Steyaert & Christian Löw, 2024. "Structural basis of thiamine transport and drug recognition by SLC19A3," Nature Communications, Nature, vol. 15(1), pages 1-13, December.
    3. Basavraj Khanppnavar & Oneda Leka & Sushant K. Pal & Volodymyr M. Korkhov & Richard A. Kammerer, 2025. "Cryo-EM structure of the botulinum neurotoxin A/SV2B complex and its implications for translocation," Nature Communications, Nature, vol. 16(1), pages 1-16, December.
    4. Wenjun Guo & Miao Wei & Yunfeng Li & Jiaxuan Xu & Jiahe Zang & Yuezhou Chen & Lei Chen, 2025. "Mechanisms of urate transport and uricosuric drugs inhibition in human URAT1," Nature Communications, Nature, vol. 16(1), pages 1-11, December.

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