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Structural insights into the mechanism of the sodium/iodide symporter.

Silvia RaveraJuan Pablo NicolaGlicella Salazar-De SimoneFred J SigworthErkan KarakasL Mario AmzelMario A BianchetNancy Carrasco
Published in: Nature (2022)
The sodium/iodide symporter (NIS) is the essential plasma membrane protein that mediates active iodide (I - ) transport into the thyroid gland, the first step in the biosynthesis of the thyroid hormones-the master regulators of intermediary metabolism. NIS couples the inward translocation of I - against its electrochemical gradient to the inward transport of Na + down its electrochemical gradient 1,2 . For nearly 50 years before its molecular identification 3 , NIS was the molecule at the centre of the single most effective internal radiation cancer therapy: radioiodide ( 131 I - ) treatment for thyroid cancer 2 . Mutations in NIS cause congenital hypothyroidism, which must be treated immediately after birth to prevent stunted growth and cognitive deficiency 2 . Here we report three structures of rat NIS, determined by single-particle cryo-electron microscopy: one with no substrates bound; one with two Na + and one I - bound; and one with one Na + and the oxyanion perrhenate bound. Structural analyses, functional characterization and computational studies show the substrate-binding sites and key residues for transport activity. Our results yield insights into how NIS selects, couples and translocates anions-thereby establishing a framework for understanding NIS function-and how it transports different substrates with different stoichiometries and releases substrates from its substrate-binding cavity into the cytosol.
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