Abstract
Cys-loop receptors are pentameric ligand-gated ion channels (pLGICs) that bind neurotransmitters to open an intrinsic transmembrane ion channel pore. The recent crystal structure of a prokaryotic pLGIC from the cyanobacterium Gloeobacter violaceus (GLIC) revealed that it naturally lacks an N-terminal extracellular α helix and an intracellular domain that are typical of eukaryotic pLGICs. GLIC does not respond to neurotransmitters acting at eukaryotic pLGICs but is activated by protons. To determine whether the structural differences account for functional differences, we used a eukaryotic chimeric acetylcholine-glutamate pLGIC that was modified to carry deletions corresponding to the sequences missing in the prokaryotic homolog GLIC. Deletions made in the N-terminal extracellular α helix did not prevent the expression of receptor subunits and the appearance of receptor assemblies on the cell surface but abolished the capability of the receptor to bind α-bungarotoxin (a competitive antagonist) and to respond to the neurotransmitter. Other truncated chimeric receptors that lacked the intracellular domain did bind ligands; displayed robust acetylcholine-elicited responses; and shared with the full-length chimeric receptor similar anionic selectivity, effective open pore diameter, and unitary conductance. We suggest that the integrity of the N-terminal α helix is crucial for ligand accommodation because it stabilizes the intersubunit interfaces adjacent to the neurotransmitter-binding pocket(s). We also conclude that the intracellular domain of the chimeric acetylcholine-glutamate receptor does not modulate the ion channel conductance and is not involved in positioning of the pore-lining helices in the conformation necessary for coordinating a Cl- ion within the intracellular vestibule of the ion channel pore.
Highlights
Serotonin (5-hydroxytryptamine (5HT)), ␥-aminobutyric acid (GABA), glycine (Gly), glutamate (Glu), and histamine to open an intrinsic transmembrane ion channel
It turns out that compared with Gloeobacter violaceus (GLIC) eukaryotic pentameric ligand-gated ion channels (pLGICs) have extra amino acid sequences. These sequences are (i) an N-terminal extracellular sequence that by homology with acetylcholine-binding proteins [27,28,29,30,31] and eukaryotic pLGICs of known three-dimensional structure [32,33,34] probably folds into an ␣ helix in all other eukaryotic pLGICs (e.g. ␣1 helix in Fig. 1, A and B, in blue) and (ii) an intracellular M3-M4 linker (e.g. Fig. 1A, uppermost scheme) that is much longer in eukaryotic pLGICs (ϳ100 –250 residues) [24] than in GLIC [25, 26]
Much less is known about conductance modulation by the MA helix in anionic pLGICs apart from a vertebrate Gly␣1 receptor whose MA helix has residues implicated in modulation of the single channel conductance [41]
Summary
Generation of cDNA Constructs—The cDNA encoding the full-length ␣7-GluCl chimeric subunit (FL) was generated as in Ref. 45 and was cloned into pcDNA3 and pMT3 vectors. The cells were washed three times with 3 ml of normal external solution (NES; which was used for patch clamp recordings; see composition below). The resistance of the recording electrodes was set on 10 –15 megaohms when filled with the pipette solution Both the bath and pipette contained NES, and the pipette contained 100 M ACh. The acquisition of recorded data was performed at 10 kHz, and recordings were low pass-filtered at 1 kHz. Single channel events were detected by the half-amplitude threshold criterion using the Clampfit 10 program implemented in pClamp 10. Other Methods—The following methods are provided in the supplemental Experimental Procedures: transfection of cultured cells and cell harvesting, further information regarding ligand binding assays, membrane preparation and polyacrylamide gel electrophoresis (PAGE), and preparation of cells for the electrophysiological experiment
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