Dancing with the ions: symport and antiport mechanisms of human glutamate transporters

Abstract

SummaryExcitatory amino acid transporters (EAATs) pump glutamate into glial cells and neurons. EAATs achieve million-fold transmitter gradients by symporting it with three sodium ions and a proton and counter-transporting a potassium ion via an elevator mechanism. Despite the availability of structures, the symport and antiport mechanisms remain unclear. We report high-resolution Cryo-EM structures of human EAAT3 bound to the neurotransmitter glutamate with symported ions, potassium ions, sodium ions alone, or in the absence of ligands. We show that an evolutionarily conserved occluded translocation intermediate has a dramatically higher affinity for the neurotransmitter and the counter-transported potassium ion than outward- or inward-facing transporters and plays a crucial role in ion coupling. We propose a comprehensive ion coupling mechanism involving a choreographed interplay between bound solutes, conformations of conserved amino acid motifs, and movements of the gating hairpin and the substrate-binding domain.