Soluble, oligomeric, and ligand-binding extracellular domain of the human α7 acetylcholine receptor expressed in yeast -: Replacement of the hydrophobic cysteine loop by the hydrophilic loop of the ACh-binding protein enhances protein solubility

The N-terminal extracellular domain (ECD; amino acids 1-208) of the neuronal nicotinic acetylcholine receptor (AChR) alpha7 subunit, the only human AChR subunit known to assemble as a homopentamer, was expressed as a glycosylated form in the yeast Pichia pastoris in order to obtain a native-like model of the extracellular part of an intact pentameric nicotinic AChR. This molecule, alpha7-ECD, although able to bind the specific ligand alpha-bungarotoxin, existed mainly in the form of microaggregates. Substitution of Cys-116 in the alpha7-ECD with serine led to a decrease in microaggregate size. A second mutant form, alpha7-ECD(C116S, Cys-loop), was generated in which, in addition to the C116S mutation, the hydrophobic Cys-loop (Cys(128)-Cys(142)) was replaced by the corresponding hydrophilic Cys-loop from the snail glial cell acetylcholine-binding protein. This second mutant protein was water-soluble, expressed at a moderate level (0.5+/-0.1 mg/liter), and had a size corresponding approximately to a pentamer as judged by gel filtration and electron microscopy studies. It also bound I-125-alpha-bungarotoxin with relatively high affinity (K-d=57 nM), the binding being inhibited by unlabeled alpha-bungarotoxin, d-tubocurarine, or nicotine (K-i=0.8x10(-7) M, K-i=1x10(-5) M, and K-i=0.9x10(-2) M, respectively). All three constructs were expressed as glycosylated forms, but in vitro deglycosylation reduced the heterogeneity without affecting their ligand binding properties. These results show that alpha7-ECD(C116S, Cys-loop) was expressed in P. pastoris as an oligomer (probably a pentamer) with a near native conformation and that its deglycosylated form seems to be suitable starting material for structural studies on the ligand-binding domain of a neurotransmitter receptor.