A Proposed Structural Basis for Picrotoxinin and Picrotin Binding in the Glycine Receptor Pore

Overview

Journal J Neurochem

Specialties Chemistry
Neurology

Date 2007 Aug 24

PMID 17714449

Citations 23

Authors

Zhe Yang

Brett A Cromer

Robert J Harvey

Michael W Parker

Joseph W Lynch

Affiliations

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Abstract

Picrotoxin, an antagonist of structurally-rated GABA(A) receptors (GABA(A)Rs) and glycine receptors (GlyRs), is an equimolar mixture of picrotoxinin (PTXININ) and picrotin (PTN). These compounds share a common structure except that PTN contains a slightly larger dimethylmethanol in place of the PTXININ isopropenyl group. Although the homomeric alpha1 GlyR is equally sensitive to both compounds, we show here that homomeric alpha2 and alpha3 GlyRs, like most GABA(A)Rs, are selectively inhibited by PTXININ. As conservative mutations to pore-lining 6' threonines equally affect the sensitivity of the alpha1 GlyR to both compounds, we conclude that PTXININ and PTN bind to 6' threonines by hydrogen bonding with exocyclic oxygens common to both molecules. In contrast, substitution of the 2' pore-lining glycine by serine selectively reduces PTN sensitivity, whereas the introduction of 2' alanines selectively increases PTXININ sensitivity. These results define the orientation of PTXININ and PTN binding in the alpha1 GlyR pore and allow us to conclude that the relatively reduced sensitivity of PTN at GABA(A)Rs and alpha2 and alpha3 GlyRs is due predominantly to its larger size and reduced ability to form hydrophobic interactions with 2' alanines.

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Subunit-Specific Photocontrol of Glycine Receptors by Azobenzene-Nitrazepam Photoswitcher.

Maleeva G, Nin-Hill A, Rustler K, Petukhova E, Ponomareva D, Mukhametova E eNeuro. 2020; 8(1).

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Electrophysiological Signature of Homomeric and Heteromeric Glycine Receptor Channels.

Raltschev C, Hetsch F, Winkelmann A, Meier J, Semtner M J Biol Chem. 2016; 291(34):18030-40.

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Ethanol Modulation is Quantitatively Determined by the Transmembrane Domain of Human α1 Glycine Receptors.

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Phenylalanine in the pore of the Erwinia ligand-gated ion channel modulates picrotoxinin potency but not receptor function.

Thompson A, Alqazzaz M, Price K, Weston D, Lummis S Biochemistry. 2014; 53(39):6183-8.

PMID: 25238029 PMC: 4312132. DOI: 10.1021/bi5008035.