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Structural and molecular basis of choline uptake into the brain by FLVCR2

Author

Listed:
  • Rosemary J. Cater

    (Columbia University
    The University of Queensland)

  • Dibyanti Mukherjee

    (Department of Pediatrics, Neonatal Brain Research Institute, University of California San Francisco)

  • Eva Gil-Iturbe

    (Columbia University Irving Medical Center)

  • Satchal K. Erramilli

    (University of Chicago)

  • Ting Chen

    (Columbia University)

  • Katie Koo

    (Department of Pediatrics, Neonatal Brain Research Institute, University of California San Francisco)

  • Nicolás Santander

    (Universidad de O’Higgins)

  • Andrew Reckers

    (Columbia University)

  • Brian Kloss

    (Columbia University)

  • Tomasz Gawda

    (University of Chicago)

  • Brendon C. Choy

    (Columbia University)

  • Zhening Zhang

    (Columbia University)

  • Aditya Katewa

    (Department of Pediatrics, Neonatal Brain Research Institute, University of California San Francisco)

  • Amara Larpthaveesarp

    (Department of Pediatrics, Neonatal Brain Research Institute, University of California San Francisco)

  • Eric J. Huang

    (San Francisco
    San Francisco VA Medical Center)

  • Scott W. J. Mooney

    (Burke Neurological Institute)

  • Oliver B. Clarke

    (Columbia University
    Columbia University Irving Medical Center)

  • Sook Wah Yee

    (University of California)

  • Kathleen M. Giacomini

    (University of California)

  • Anthony A. Kossiakoff

    (University of Chicago)

  • Matthias Quick

    (Columbia University
    Columbia University Irving Medical Center
    Area Neuroscience–Molecular Therapeutics)

  • Thomas Arnold

    (Department of Pediatrics, Neonatal Brain Research Institute, University of California San Francisco)

  • Filippo Mancia

    (Columbia University)

Abstract

Choline is an essential nutrient that the human body needs in vast quantities for cell membrane synthesis, epigenetic modification and neurotransmission. The brain has a particularly high demand for choline, but how it enters the brain remains unknown1–3. The major facilitator superfamily transporter FLVCR1 (also known as MFSD7B or SLC49A1) was recently determined to be a choline transporter but is not highly expressed at the blood–brain barrier, whereas the related protein FLVCR2 (also known as MFSD7C or SLC49A2) is expressed in endothelial cells at the blood–brain barrier4–7. Previous studies have shown that mutations in human Flvcr2 cause cerebral vascular abnormalities, hydrocephalus and embryonic lethality, but the physiological role of FLVCR2 is unknown4,5. Here we demonstrate both in vivo and in vitro that FLVCR2 is a BBB choline transporter and is responsible for the majority of choline uptake into the brain. We also determine the structures of choline-bound FLVCR2 in both inward-facing and outward-facing states using cryo-electron microscopy. These results reveal how the brain obtains choline and provide molecular-level insights into how FLVCR2 binds choline in an aromatic cage and mediates its uptake. Our work could provide a novel framework for the targeted delivery of therapeutic agents into the brain.

Suggested Citation

  • Rosemary J. Cater & Dibyanti Mukherjee & Eva Gil-Iturbe & Satchal K. Erramilli & Ting Chen & Katie Koo & Nicolás Santander & Andrew Reckers & Brian Kloss & Tomasz Gawda & Brendon C. Choy & Zhening Zha, 2024. "Structural and molecular basis of choline uptake into the brain by FLVCR2," Nature, Nature, vol. 629(8012), pages 704-709, May.
    • Handle: RePEc:nat:nature:v:629:y:2024:i:8012:d:10.1038_s41586-024-07326-y
    DOI: 10.1038/s41586-024-07326-y
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