A full-length clone coding for the rat alpha 7 nicotinic receptor subunit was isolated from an adult brain cDNA library and expressed in Xenopus oocytes. A significant proportion of the current through alpha 7-channels is carried by Ca2+. This Ca2+ influx then activates a Ca(2+)-dependent Cl- conductance, which is blocked by the chloride channel blockers niflumic and fluflenamic acid. Increasing the external NaCl concentration caused the reversal potentials for the alpha 7-channels and the Ca(2+)-dependent Cl- channels to be shifted in opposite directions. Under these conditions, agonist application activates a biphasic current with an initial inward current through alpha 7-channels followed by a niflumic acid- and fluflenamic acid-blockable outward current through Ca(2+)-dependent Cl- channels. A relative measure of the Ca2+ permeability was made by measuring the shift in the reversal potential caused by adding 10 mM Ca2+ to the external solution. Measurements made in the absence of Cl-, to avoid artifactual current through Ca(2+)-activated Cl- channels, indicate that alpha 7-homooligomeric channels have a greater relative Ca2+ permeability than the other nicotinic ACh receptors. Furthermore, alpha 7-channels have an even greater relative Ca2+ permeability than the NMDA subtype of glutamate receptors. High levels of alpha 7-transcripts were localized by in situ hybridization in the olfactory areas, the hippocampus, the hypothalamus, the amygdala, and the cerebral cortex. These results imply that alpha 7-containing receptors may play a role in activating calcium-dependent mechanisms in specific neuronal populations of the adult rat limbic system.
Ligand-gated ion channels are oligomeric transmembrane proteins that usually contain more than one kind of monomer. The variety of monomers available to participate in olígomer formation and the apparent latitude in acceptable monomer combinations allows considerable diversity. Mechanisms for identifying the monomers comprising specific receptors are needed . We have generated affinity-purified polyclonal antisera that recognize the extracellular domain of nine neuronal nicotinic acetylcholine receptor (nAChR) subunits and distinguish between them . We prepared these antisera by immunizing rabbits with bacterially expressed recombinant protein representing the N-terminal extracellular domain of each neuronal nAChR subunit followed by affinity purification of antibodies against synthetic peptides corresponding to residues 68-81 of the a1 subunit. We demonstrate subunit specificity of each affinity-purified antisera by western blots of the bacterially expressed protein and immunoblot against peptide. We further used these antibodies to demonstrate expression of neuronal nAChR subunits on the surface of transiently transfected simian kidney (COS-7) cells.
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