Kainate receptors (KARs) belong to the ionotropic glutamate receptor (iGluR) family and play critical roles in mediating excitatory neurotransmission and regulating neurotransmitter release. Receptor desensitization is a critical factor for regulating the strength of synaptic transmission. Notwithstanding their overall structural similarity to AMPA receptors, KARs exhibit a desensitized conformation that is distinct from that of most other iGluRs. Despite extensive studies on KARs, a fundamental question remains unresolved: why do KARs require large conformational changes upon desensitization? Here we show cryo-electron microscopy structures of GluK2 containing double cysteine mutations, captured in non-active ... More
Kainate receptors (KARs) belong to the ionotropic glutamate receptor (iGluR) family and play critical roles in mediating excitatory neurotransmission and regulating neurotransmitter release. Receptor desensitization is a critical factor for regulating the strength of synaptic transmission. Notwithstanding their overall structural similarity to AMPA receptors, KARs exhibit a desensitized conformation that is distinct from that of most other iGluRs. Despite extensive studies on KARs, a fundamental question remains unresolved: why do KARs require large conformational changes upon desensitization? Here we show cryo-electron microscopy structures of GluK2 containing double cysteine mutations, captured in non-active and various desensitized conformations. In the shallow-desensitized conformation, two cysteine crosslinks stabilize the receptors in a conformation resembling the typical desensitized state of non-KAR iGluRs. Our patch-clamp recordings and fluctuation analysis suggest that KARs in the shallow-desensitized state remain ion-permeable. This finding indicates that the lateral rotational movement of the KAR ligand-binding domains is critical for complete channel closure and stabilization of the fully desensitized receptor. Overall, this study elucidates the mechanism and conformational dynamics of KARs during desensitization.
