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Abstract
Glycine receptors (GlyRs) are chloride channels that mediate fast inhibitory neurotransmission and are members of the pentameric ligand-gated ion channel (pLGIC) family. The interface between the ligand binding domain and the transmembrane domain of pLGICs has been proposed to be crucial for channel gating and is lined by a number of charged and aromatic side chains that are highly conserved among different pLGICs. However, little is known about specific interactions between these residues that are likely to be important for gating in α1 GlyRs. Here we use the introduction of cysteine pairs and the in vivo nonsense suppression method to incorporate unnatural amino acids to probe the electrostatic and hydrophobic contributions of five highly conserved side chains near the interface, Glu-53, Phe-145, Asp-148, Phe-187, and Arg-218. Our results suggest a salt bridge between Asp-148 in loop 7 and Arg-218 in the pre-M1 domain that is crucial for channel gating. We further propose that Phe-145 and Phe-187 play important roles in stabilizing this interaction by providing a hydrophobic environment. In contrast to the equivalent residues in loop 2 of other pLGICs, the negative charge at Glu-53 α1 GlyRs is not crucial for normal channel function. These findings help decipher the GlyR gating pathway and show that distinct residue interaction patterns exist in different pLGICs. Furthermore, a salt bridge between Asp-148 and Arg-218 would provide a possible mechanistic explanation for the pathophysiologically relevant hyperekplexia, or startle disease, mutant Arg-218 → Gln.
Highlights
56858, the Heart and Stroke Foundation of Canada, the Michael Smith Foundation for Health Research
Contributions of Asp-148—Asp-148 is a highly conserved acidic charge in loop 7 of pentameric ligand-gated ion channel (pLGIC) (Fig. 1), and previous studies on the Glycine receptors (GlyRs) have shown that mutations at this position have severe effects on channel function [18, 20, 21], suggesting that the negative charge at this position is crucial for channel gating [20]
In ␣1 GlyRs, little is known about possible electrostatic interactions that link the ligand binding domain (LBD) to the transmembrane domain (TMD) in other pLGICs
Summary
Molecular Biology—Human GlyR ␣1 and  subunit cDNA (both in the pGEMHE vector) were used, and mutants were generated using conventional site-directed mutagenesis. Successful incorporation of mutations was confirmed by automated sequencing. Capped mRNA was generated with the T7 mMessage mMachine kit (Ambion, Austin, TX). Stage V-VI oocytes from female Xenopus laevis frogs were prepared as previously described [29] and injected with 50 nl of mRNA alone or mRNA plus tRNA (see below). Oocytes were incubated at 18 °C for 12–72 h.
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