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Delta glutamate receptors are functional glycine- and ᴅ-serine–gated cation channels in situ

Elisa Carrillo, Cuauhtémoc U. Gonzalez, Vladimír Berka, Vasanthi Jayaraman

2021Science Advances40 citationsDOIOpen Access PDF

Abstract

Delta receptors are members of the ionotropic glutamate receptor superfamily and form trans-synaptic connections by interacting with the extracellular scaffolding protein cerebellin-1 and presynaptic transmembrane protein neurexin-1β. Unlike other family members, however, direct agonist-gated ion channel activity has not been recorded in delta receptors. Here, we show that the GluD2 subtype of delta receptor forms cation-selective channels when bound to cerebellin-1 and neurexin-1β. Using fluorescence lifetime measurements and chemical cross-linking, we reveal that tight packing of the amino-terminal domains of GluD2 permits glycine- and d-serine–induced channel openings. Thus, cerebellin-1 and neurexin-1β act as biological cross-linkers to stabilize the extracellular domains of GluD2 receptors, allowing them to function as ionotropic excitatory neurotransmitter receptors in synapses.

Topics & Concepts

Kainate receptorNeurexinIonotropic effectGlutamate receptorIon channelNeurotransmitter receptorMetabotropic glutamate receptor 1ReceptorClass C GPCRIonotropic glutamate receptorMetabotropic glutamate receptor 6Glycine receptorBiophysicsBiochemistryExcitatory postsynaptic potentialExtracellularBiologyMetabotropic receptorMetabotropic glutamate receptorAMPA receptorGlycineAmino acidPostsynaptic potentialNeuroscience and Neuropharmacology ResearchPhotoreceptor and optogenetics researchNicotinic Acetylcholine Receptors Study
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