Abstract
Tandem constructs are increasingly being used to restrict the composition of recombinant multimeric channels. It is therefore important to assess not only whether such approaches give functional channels, but also whether such channels completely incorporate the subunit tandems. We have addressed this question for neuronal nicotinic acetylcholine receptors, using a channel mutation as a reporter for subunit incorporation. We prepared tandem constructs of nicotinic receptors by linking alpha (alpha2-alpha4, alpha6) and beta (beta2, beta4) subunits by a short linker of eight glutamine residues. Robust functional expression in oocytes was observed for several tandems (beta4_alpha2, beta4_alpha3, beta4_alpha4, and beta2_alpha4) when coexpressed with the corresponding beta monomer subunit. All tandems expressed when injected alone, except for beta4_alpha3, which produced functional channels only together with beta4 monomer and was chosen for further characterization. These channels produced from beta4_alpha3 tandem constructs plus beta4 monomer were identical with receptors expressed from monomer alpha3 and beta4 constructs in acetylcholine sensitivity and in the number of alpha and beta subunits incorporated in the channel gate. However, separately mutating the beta subunit in either the monomer or the tandem revealed that tandem-expressed channels are heterogeneous. Only a proportion of these channels contained as expected two copies of beta subunits from the tandem and one from the beta monomer construct, whereas the rest incorporated two or three beta monomers. Such inaccuracies in concatameric receptor assembly would not have been apparent with a standard functional characterization of the receptor. Extensive validation is needed for tandem-expressed receptors in the nicotinic superfamily.