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Literature DB >> 26363074

Substrate-induced unlocking of the inner gate determines the catalytic efficiency of a neurotransmitter:sodium symporter.

Christian B Billesbølle¹, Mie B Krüger¹, Lei Shi², Matthias Quick³, Zheng Li⁴, Sebastian Stolzenberg⁴, Julie Kniazeff¹, Kamil Gotfryd¹, Jonas S Mortensen¹, Jonathan A Javitch⁵, Harel Weinstein², Claus J Loland¹, Ulrik Gether⁶.

Abstract

Neurotransmitter:sodium symporters (NSSs) mediate reuptake of neurotransmitters from the synaptic cleft and are targets for several therapeutics and psychostimulants. The prokaryotic NSS homologue, LeuT, represents a principal structural model for Na(+)-coupled transport catalyzed by these proteins. Here, we used site-directed fluorescence quenching spectroscopy to identify in LeuT a substrate-induced conformational rearrangement at the inner gate conceivably leading to formation of a structural intermediate preceding transition to the inward-open conformation. The substrate-induced, Na(+)-dependent change required an intact primary substrate-binding site and involved increased water exposure of the cytoplasmic end of transmembrane segment 5. The findings were supported by simulations predicting disruption of an intracellular interaction network leading to a discrete rotation of transmembrane segment 5 and the adjacent intracellular loop 2. The magnitude of the spectroscopic response correlated inversely with the transport rate for different substrates, suggesting that stability of the intermediate represents an unrecognized rate-limiting barrier in the NSS transport mechanism.

Entities: Chemical Gene

Keywords: amino acid transport; conformational change; dopamine transporter; fluorescence quenching; fluorescence spectroscopy; gating; mechanisms of membrane transport; membrane protein; monoamine transporter; neurotransmitter transport

Mesh：

Substances：

Year: 2015 PMID： 26363074 PMCID： PMC4646326 DOI： 10.1074/jbc.M115.677658

Source DB: PubMed Journal: J Biol Chem ISSN： 0021-9258 Impact factor: 5.157

56 in total

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