Chloride binding site of neurotransmitter sodium symporters

Chloride binding site of neurotransmitter sodium symporters

Neurotransmitter:sodium symporters (NSSs) play a critical role in signaling by reuptake of neurotransmitters. Eukaryotic NSSs are chloride-dependent, whereas prokaryotic NSS homologs like LeuT are chloride-independent but contain an acidic residue (Glu290 in LeuT) at a site where eukaryotic NSSs hav...

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Veröffentlicht in:Proceedings of the National Academy of Sciences - PNAS 2013-05, Vol.110 (21), p.8489-8494
Hauptverfasser: Kantcheva, Adriana K., Quick, Matthias, Shi, Lei, Winther, Anne-Marie Lund, Stolzenberg, Sebastian, Weinstein, Harel, Javitch, Jonathan A., Nissen, Poul
Format: Artikel
Sprache:eng
Schlagworte:
Amino acids
Anions
Bacteria - chemistry
Bacteria - metabolism
Bacterial Proteins - chemistry
Bacterial Proteins - metabolism
Binding Sites
Biological Sciences
Bromides - chemistry
Bromides - metabolism
Chlorides
Chlorides - chemistry
Chlorides - metabolism
Crystal structure
Crystallography, X-Ray
Ions
molecular dynamics
Molecules
mutants
Neurotransmitters
Plasma Membrane Neurotransmitter Transport Proteins - chemistry
Plasma Membrane Neurotransmitter Transport Proteins - metabolism
Prokaryotes
serine
Serotonin plasma membrane transport proteins
Simulation
Sodium
Symporters
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Zusammenfassung:Neurotransmitter:sodium symporters (NSSs) play a critical role in signaling by reuptake of neurotransmitters. Eukaryotic NSSs are chloride-dependent, whereas prokaryotic NSS homologs like LeuT are chloride-independent but contain an acidic residue (Glu290 in LeuT) at a site where eukaryotic NSSs have a serine. The LeuT-E290S mutant displays chloride-dependent activity. We show that, in LeuT-E290S cocrystallized with bromide or chloride, the anion is coordinated by side chain hydroxyls from Tyr47, Ser290, and Thr254 and the side chain amide of Gln250. The bound anion and the nearby sodium ion in the Na1 site organize a connection between their coordinating residues and the extracellular gate of LeuT through a continuous H-bond network. The specific insights from the structures, combined with results from substrate binding studies and molecular dynamics simulations, reveal an anion-dependent occlusion mechanism for NSS and shed light on the functional role of chloride binding.
ISSN:0027-8424
1091-6490
DOI:10.1073/pnas.1221279110