TY - JOUR
T1 - Elucidation of AMPA receptor-stargazin complexes by cryo-electron microscopy
AU - Twomey, Edward C.
AU - Yelshanskaya, Maria V.
AU - Grassucci, Robert A.
AU - Frank, Joachim
AU - Sobolevsky, Alexander I.
N1 - Funding Information:
We thank Z. H. Yu, C. Hong, and R. Huang for assistance with data collection at the Howard Hughes Medical Institute Janelia Research Campus, M. Fislage (J.F. laboratory) for assistance with the initial cryo-EM preparation and critical reading of the manuscript, and H. Kao (J.F. laboratory) for computational support. We are grateful for manuscript edits and comments provided by K. Saotome and A. K. Singh (A.I.S. laboratory) and advice on image processing provided by I. S. Fernandez (Columbia),Z.Liu(J.F.laboratory), O.B.Clarke (Hendrickson laboratory, Columbia), A. des Georges (City University of New York), and members of J.F.'s laboratory. E.C.T. was supported by NIH training grants T32 GM008224 and GM008281. A.I.S. was supported by NIH (R01 NS083660), the Pew Scholar Award in Biomedical Sciences, the Schaefer Research Scholar Award, the Klingenstein Fellowship Award in the Neurosciences, and the Irma T. Hirschl Career Scientist Award. J.F. was supported by the Howard Hughes Medical Institute and NIH (R01 GM029169). Cryo-EM density maps have been deposited in the EM Data Bank under accession numbers EMD-8229 (GluA2-0xSTZ), EMD-8230 (GluA2-1xSTZ), EMD-8231 (GluA2-2xSTZ), and EMD-8232 (GluA2). Model coordinates have been deposited in the Protein Data Bank under accession numbers 5KBS (GluA2-0xSTZ), 5KBT (GluA2-1xSTZ), 5KBU (GluA2-2xSTZ), and 5KBV (GluA2).
PY - 2016/7/1
Y1 - 2016/7/1
N2 - AMPA-subtype ionotropic glutamate receptors (AMPARs) mediate fast excitatory neurotransmission and contribute to high cognitive processes such as learning and memory. In the brain, AMPAR trafficking, gating, and pharmacology is tightly controlled by transmembrane AMPAR regulatory proteins (TARPs). Here, we used cryo-electron microscopy to elucidate the structural basis of AMPAR regulation by one of these auxiliary proteins, TARP g2, or stargazin (STZ). Our structures illuminate the variable interaction stoichiometry of the AMPAR-TARP complex, with one or two TARP molecules binding one tetrameric AMPAR. Analysis of the AMPAR-STZ binding interfaces suggests that electrostatic interactions between the extracellular domains of AMPAR and STZ play an important role in modulating AMPAR function through contact surfaces that are conserved across AMPARs and TARPs. We propose a model explaining how TARPs stabilize the activated state of AMPARs and how the interactions between AMPARs and their auxiliary proteins control fast excitatory synaptic transmission.
AB - AMPA-subtype ionotropic glutamate receptors (AMPARs) mediate fast excitatory neurotransmission and contribute to high cognitive processes such as learning and memory. In the brain, AMPAR trafficking, gating, and pharmacology is tightly controlled by transmembrane AMPAR regulatory proteins (TARPs). Here, we used cryo-electron microscopy to elucidate the structural basis of AMPAR regulation by one of these auxiliary proteins, TARP g2, or stargazin (STZ). Our structures illuminate the variable interaction stoichiometry of the AMPAR-TARP complex, with one or two TARP molecules binding one tetrameric AMPAR. Analysis of the AMPAR-STZ binding interfaces suggests that electrostatic interactions between the extracellular domains of AMPAR and STZ play an important role in modulating AMPAR function through contact surfaces that are conserved across AMPARs and TARPs. We propose a model explaining how TARPs stabilize the activated state of AMPARs and how the interactions between AMPARs and their auxiliary proteins control fast excitatory synaptic transmission.
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U2 - 10.1126/science.aaf8411
DO - 10.1126/science.aaf8411
M3 - Article
C2 - 27365450
AN - SCOPUS:84976876721
SN - 0036-8075
VL - 353
SP - 83
EP - 86
JO - Science
JF - Science
IS - 6294
ER -