Low-affinity Ca(2+) and Ba(2+) binding sites in the pore of alpha7 nicotinic acetylcholine receptors.

alpha7 nicotinic receptors are highly permeable to Ca(2+) as well as monovalent cations. We extended the characterization of the Ca(2+) permeation of non-desensitizing chick alpha7 receptors (S240T/L247T alpha7 nAChRs) expressed in Xenopus oocytes by (1) measuring the concentration dependence of conductance under conditions in which Ca(2+) or Ba(2+) were the only permeant cations in the extracellular solution, and (2) measuring the concentration dependence of Ca(2+) block of K(+) currents through the receptors. The first set of experiments yielded an apparent affinity of 0.96 mM Ca(2+) activity (2.4 mM concentration) for Ca(2+) permeation and an apparent affinity of 0.65 mM Ba(2+) activity (1.7 mM concentration) for Ba(2+) permeation. The apparent affinity of Ca(2+) inhibition of K(+) currents was 0.49 mM activity (1.5 mM concentration). The similarity of these apparent affinities in the millimolar range suggests that the pore of alpha7 receptors has one or more low-affinity Ca(2+) binding sites and no high-affinity sites.