The ion-coupling mechanism of human excitatory amino acid transporters.

Juan C Canul-Tec, Anand Kumar, Jonathan Dhenin, Reda Assal, Pierre Legrand, Martial Rey, Julia Chamot-Rooke, Nicolas Reyes

The EMBO journal 2022 Jan 04

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Excitatory amino acid transporters (EAATs) maintain glutamate gradients in the brain essential for neurotransmission and to prevent neuronal death. They use ionic gradients as energy source and co-transport transmitter into the cytoplasm with Na+ and H+ , while counter-transporting K+ to re-initiate the transport cycle. However, the molecular mechanisms underlying ion-coupled transport remain incompletely understood. Here, we present 3D X-ray crystallographic and cryo-EM structures, as well as thermodynamic analysis of human EAAT1 in different ion bound conformations, including elusive counter-transport ion bound states. Binding energies of Na+ and H+ , and unexpectedly Ca2+ , are coupled to neurotransmitter binding. Ca2+ competes for a conserved Na+ site, suggesting a regulatory role for Ca2+ in glutamate transport at the synapse, while H+ binds to a conserved glutamate residue stabilizing substrate occlusion. The counter-transported ion binding site overlaps with that of glutamate, revealing the K+ -based mechanism to exclude the transmitter during the transport cycle and to prevent its neurotoxic release on the extracellular side. © 2021 The Authors.

Citation

Juan C Canul-Tec, Anand Kumar, Jonathan Dhenin, Reda Assal, Pierre Legrand, Martial Rey, Julia Chamot-Rooke, Nicolas Reyes. The ion-coupling mechanism of human excitatory amino acid transporters. The EMBO journal. 2022 Jan 04;41(1):e108341