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The UNC-49 receptor is a Cys-loop GABA receptor that is unique to the nematode phylum. The receptor differs from mammalian GABA receptors both in amino acid sequence and pharmacology which highlights its potential as a novel anthelmintic target. Sequence differences within and near the various ligand-binding loops of the nematode receptor suggest that there could be structural differences compared to mammalian receptors that result in different pharmacological and functional features. Here we investigated three residues in the UNC-49 receptor from the parasitic nematode Haemonchus contortus: K181, E183, and T230. Analysis of these residues was conducted via site-directed mutagenesis, electrophysiology, MD simulations, and mutant cycling analysis. In the UNC-49 receptor, E183 lies in close proximity to K181 where together they appear to play a role in GABA sensitivity and pharmacology, possibly interacting via an ionic bond. While the introduction of single alanine residues at each position separately had a negative impact on GABA EC50, the double alanine mutant (K181A/E183A) exhibited wildtype-level GABA EC50 and some differences in pharmacology. Overall, this study has revealed a potentially novel role for these two residues in nematode UNC-49 GABA receptors that could aid in understanding their function. Copyright © 2022 Elsevier B.V. All rights reserved.

Citation

Everett Cochrane, Joshua Foster, Mohammad Hassan Khatami, Hendrick W de Haan, Sean G Forrester. Characterization of adjacent charged residues near the agonist binding site of the nematode UNC-49 GABA receptor. Molecular and biochemical parasitology. 2022 Nov;252:111521

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PMID: 36100173

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