Mechanisms underlying TARP modulation of the GluA1/2-γ8 AMPA receptor
Herguedas B, Kohegyi BK, Dohrke JN, Watson J, Zhang D, Ho H, Shaikh SA, Lape R, Krieger JM, Greger IH. 2022. Mechanisms underlying TARP modulation of the GluA1/2-γ8 AMPA receptor. Nature Communications. 13, 734.
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Author
Herguedas, Beatriz;
Kohegyi, Bianka K.;
Dohrke, Jan Niklas;
Watson, JakeISTA ;
Zhang, Danyang;
Ho, Hinze;
Shaikh, Saher A.;
Lape, Remigijus;
Krieger, James M.;
Greger, Ingo H.
Department
Abstract
AMPA-type glutamate receptors (AMPARs) mediate rapid signal transmission at excitatory
synapses in the brain. Glutamate binding to the receptor’s ligand-binding domains (LBDs)
leads to ion channel activation and desensitization. Gating kinetics shape synaptic transmission
and are strongly modulated by transmembrane AMPAR regulatory proteins (TARPs)
through currently incompletely resolved mechanisms. Here, electron cryo-microscopy
structures of the GluA1/2 TARP-γ8 complex, in both open and desensitized states
(at 3.5 Å), reveal state-selective engagement of the LBDs by the large TARP-γ8 loop (‘β1’),
elucidating how this TARP stabilizes specific gating states. We further show how TARPs alter
channel rectification, by interacting with the pore helix of the selectivity filter. Lastly, we
reveal that the Q/R-editing site couples the channel constriction at the filter entrance to the
gate, and forms the major cation binding site in the conduction path. Our results provide a
mechanistic framework of how TARPs modulate AMPAR gating and conductance.
Publishing Year
Date Published
2022-02-08
Journal Title
Nature Communications
Publisher
Springer Nature
Acknowledgement
We thank Ondrej Cais for critical reading of the manuscript. We are grateful to LMB
scientific computing and the EM facility for support, Paul Emsley for help with model
building and Takanori Nakane for helpful comments with Relion 3.1. This work was
supported by grants from the Medical Research Council (MC_U105174197) and BBSRC
(BB/N002113/1) to I.H.G, and grants from the MCIN/AEI/ 10.13039/501100011033 and
“ESF Investing in your future” to B.H (PID2019-106284GA-I00 and RYC2018-025720-I).
Volume
13
Article Number
734
eISSN
IST-REx-ID
Cite this
Herguedas B, Kohegyi BK, Dohrke JN, et al. Mechanisms underlying TARP modulation of the GluA1/2-γ8 AMPA receptor. Nature Communications. 2022;13. doi:10.1038/s41467-022-28404-7
Herguedas, B., Kohegyi, B. K., Dohrke, J. N., Watson, J., Zhang, D., Ho, H., … Greger, I. H. (2022). Mechanisms underlying TARP modulation of the GluA1/2-γ8 AMPA receptor. Nature Communications. Springer Nature. https://doi.org/10.1038/s41467-022-28404-7
Herguedas, Beatriz, Bianka K. Kohegyi, Jan Niklas Dohrke, Jake Watson, Danyang Zhang, Hinze Ho, Saher A. Shaikh, Remigijus Lape, James M. Krieger, and Ingo H. Greger. “Mechanisms Underlying TARP Modulation of the GluA1/2-Γ8 AMPA Receptor.” Nature Communications. Springer Nature, 2022. https://doi.org/10.1038/s41467-022-28404-7.
B. Herguedas et al., “Mechanisms underlying TARP modulation of the GluA1/2-γ8 AMPA receptor,” Nature Communications, vol. 13. Springer Nature, 2022.
Herguedas B, Kohegyi BK, Dohrke JN, Watson J, Zhang D, Ho H, Shaikh SA, Lape R, Krieger JM, Greger IH. 2022. Mechanisms underlying TARP modulation of the GluA1/2-γ8 AMPA receptor. Nature Communications. 13, 734.
Herguedas, Beatriz, et al. “Mechanisms Underlying TARP Modulation of the GluA1/2-Γ8 AMPA Receptor.” Nature Communications, vol. 13, 734, Springer Nature, 2022, doi:10.1038/s41467-022-28404-7.
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