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Φ value analysis underscores strong functional and structural compactness of the GABAA receptor.

Created on 17 Sep 2025

Authors

Michał A Michałowski, Katarzyna Terejko, Michalina Gos, Ilona Iżykowska, Marta M Czyżewska, Karol Kłopotowski, Przemysław T Kaczor, Aleksandra Brzóstowicz, Estera Płużek, Monika Migdałek, Jerzy W Mozrzymas

Published in

Proceedings of the National Academy of Sciences of the United States of America. Volume 122. Issue 38. Pages e2512278122. Sep 23, 2025. Epub Sep 16, 2025.

Abstract

γ-aminobutyric acid type A receptor (GABAAR) is a pentameric ligand-gated ion channel that plays a crucial role in inhibition in the adult brain. Structural and electrophysiological studies have provided numerous insights into the receptor's functioning but the complete molecular mechanism of GABAAR action remains elusive. Herein, we used high-resolution single-channel recording to analyze point-mutated α1β2γ2 receptors and applied so called Φ value (REFER, rate-equilibrium free energy relationship) analysis which allows to infer the order of domains engagement during activation, offering a complementary "dynamic" insight into the receptor's function. As anticipated, point mutations at the orthosteric binding sites reduced GABA binding affinity, with the magnitude of this effect diminishing progressively with increasing distance from the binding site. On the contrary, mutations located all over the macromolecule's structure, e.g., in "peripheral top position," extracellular/transmembrane interface, and channel pore, affected the receptor with a clear tendency to influence entire gating including opening/closing, preactivation, and desensitization with no clear correlation with the distance to the channel gate. Interestingly, the calculated Φ values for the GABAAR showed a relatively narrow range (0.42 to 0.81), suggesting that the conformational transitions are highly synchronized and coordinated by a global network of interactions. This prediction is also in agreement with observation that, typically, single GABAAR residue mutation alters the kinetics of not just one but many (often all) conformational transitions. We thus propose a dictum reflecting modus operandi of the GABAAR: Binding is local and gating is global. In conclusion, our analysis indicates that GABAAR shows particularly strong functional compactness manifested as global gating mechanisms and high allostery.

PMID:
40956892
Bibliographic data and abstract were imported from PubMed on 17 Sep 2025.

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