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AMPA receptor structure and auxiliary subunits

Aichurok Kamalova, Terunaga Nakagawa

2020The Journal of Physiology129 citationsDOIOpen Access PDF

Abstract

Fast excitatory synaptic transmission in the mammalian brain is largely mediated by AMPA-type ionotropic glutamate receptors (AMPARs), which are activated by the neurotransmitter glutamate. In synapses, the function of AMPARs is tuned by their auxiliary subunits, a diverse set of membrane proteins associated with the core pore-forming subunits of the AMPARs. Each auxiliary subunit provides distinct functional modulation of AMPARs, ranging from regulation of trafficking to shaping ion channel gating kinetics. Understanding the molecular mechanism of the function of these complexes is key to decoding synaptic modulation and their global roles in cognitive activities, such as learning and memory. Here, we review the structural and molecular complexity of AMPAR-auxiliary subunit complexes, as well as their functional diversity in different brain regions. We suggest that the recent structural information provides new insights into the molecular mechanisms underlying synaptic functions of AMPAR-auxiliary subunit complexes.

Topics & Concepts

GatingAMPA receptorIonotropic effectNeurotransmissionNeuroscienceChemistryIon channelProtein subunitNeurotransmitter receptorExcitatory postsynaptic potentialGlutamate receptorBiophysicsKainate receptorCell biologyAllosteric regulationMolecular neuroscienceBiologyFunction (biology)GlutamatergicIonotropic glutamate receptorNeurotransmitterSynapseReceptorLigand-gated ion channelMetabotropic glutamate receptor 6Long-term potentiationNeuroscience and Neuropharmacology ResearchNicotinic Acetylcholine Receptors StudyGABA and Rice Research
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