Unnatural amino acid mutagenesis of the GABA(A) receptor binding site residues reveals a novel cation-pi interaction between GABA and beta 2Tyr97

The binding pockets of Cys-loop receptors are dominated by aromatic amino acids. In the GABA(A) receptor alpha1Phe65, beta2Tyr97, beta2Tyr157, and beta2Tyr205 are present at the beta2/alpha1 interface and have been implicated in forming an important part of the GABA binding site. Here, we have probe...

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Bibliographic Details
Published inThe Journal of neuroscience Vol. 27; no. 4; p. 886
Main Authors Padgett, Claire L, Hanek, Ariele P, Lester, Henry A, Dougherty, Dennis A, Lummis, Sarah C R
Format Journal Article
LanguageEnglish
Published United States 24.01.2007
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Summary:The binding pockets of Cys-loop receptors are dominated by aromatic amino acids. In the GABA(A) receptor alpha1Phe65, beta2Tyr97, beta2Tyr157, and beta2Tyr205 are present at the beta2/alpha1 interface and have been implicated in forming an important part of the GABA binding site. Here, we have probed interactions of these residues using subtle chemical changes: unnatural amino acid mutagenesis was used to introduce a range of Phe analogs, and mutant receptors expressed in oocytes were studied using voltage-clamp electrophysiology. Serial mutations at beta(2)97 revealed a approximately 20-fold increase in EC50 with the addition of each fluorine atom to a phenylalanine, indicating a cation-pi interaction between GABA and this residue. This is the first example of a cation-pi interaction in loop A of a Cys-loop receptor. Along with previous studies that identified cation-pi interactions in loop B and loop C, the result emphasizes that the location of this interaction is not conserved in the Cys-loop family. The data further show that alpha(1)65 (in loop D) is tolerant to subtle changes. Conversely, mutating either beta2Tyr157 (in loop B) or beta2Tyr205 (in loop C) to Phe substantially disrupts receptor function. Substitution of 4-F-Phe, however, at either position, or 4-MeO-Phe at beta2Tyr157, resulted in receptors with wild-type EC50 values, suggesting a possible hydrogen bond. The molecular scale insights provided by these data allow the construction of a model for GABA docking to the agonist binding site of the GABA(A) receptor.
ISSN:1529-2401