The Role of an alpha  Subtype M2-M3 His in Regulating Inhibition of GABAA Receptor Current by Zinc and Other Divalent Cations

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The Journal of Neuroscience, April 15, 1998, 18(8):2944-2953

The Role of an $alpha$ Subtype M₂-M₃ His in Regulating Inhibition of GABA_A Receptor Current by Zinc and Other Divalent Cations
Janet L. Fisher¹ and Robert L. Macdonald¹^,²
¹ Departments of Neurology and ² Physiology, University of Michigan, Ann Arbor, Michigan 48104-1687
Sensitivity of GABA_A receptors (GABARs) to inhibition by zinc and other divalent cations is influenced by the $alpha$ subunit subtypecomposition of the receptor. For example, $alpha$ 6 $beta$ 3 $gamma$ 2L receptors aremore sensitive to inhibition by zinc than $alpha$ 1 $beta$ 3 $gamma$ 2L receptors. Weexamined the role of a His residue located in the M₂-M₃ extracellulardomain (rat $alpha$ 6 H273) in the enhanced zinc sensitivity conferredby the $alpha$ 6 subtype. The $alpha$ 1 subtype contains an Asn (N274) residuein the equivalent location. GABA-activated whole-cell currentswere obtained from L929 fibroblasts after transient transfectionwith expression vectors containing GABA_A receptor cDNAs. Mutationof $alpha$ 1 ( $alpha$ 1_(N274H)) or $alpha$ 6 ( $alpha$ 6_(H273N)) subtypes did not alter theGABA EC₅₀ of $alpha$ $beta$ 3 $gamma$ 2L receptors. $alpha$ 1_(N274H) $beta$ 3 $gamma$ 2L receptor currentswere as sensitive to zinc as $alpha$ 6 $beta$ 3 $gamma$ 2L receptor currents, although $alpha$ 6_(H273N) $beta$ 3 $gamma$ 2L receptor currents had the reduced zinc sensitivityof $alpha$ 1 $beta$ 3 $gamma$ 2L receptor currents. We also examined the activity ofother inhibitory divalent cations with varying $alpha$ subtype dependence:nickel, cadmium, and copper. $alpha$ 6 $beta$ 3 $gamma$ 2L receptor currents were moresensitive to nickel, equally sensitive to cadmium, and less sensitiveto copper than $alpha$ 1 $beta$ 3 $gamma$ 2L receptor currents. Studies with $alpha$ 1 and $alpha$ 6 chimeric subunits indicated that the structural dependenciesof the activity of some of these cations were different from zinc.Compared with $alpha$ 6 $beta$ 3 $gamma$ 2L receptor currents, $alpha$ 6_(H273N) $beta$ 3 $gamma$ 2L receptorcurrents had reduced sensitivity to cadmium and nickel, but thesensitivity to copper was unchanged. Compared with $alpha$ 1 $beta$ 3 $gamma$ 2L receptorcurrents, $alpha$ 1_(N274H) $beta$ 3 $gamma$ 2L receptor currents had increased sensitivityto nickel, but the sensitivity to cadmium and copper was unchanged.These findings indicate that H273 of the $alpha$ 6 subtype plays an importantrole in determining the sensitivity of recombinant GABARs to thedivalent cations zinc, cadmium, and nickel, but not to copper.Our results also suggest that the extracellular N-terminal domainof the $alpha$ 1 subunit contributes to a regulatory site(s) for divalentcations, conferring high sensitivity to inhibition by copper andcadmium.

Key words: GABA; divalent cations; GABA receptor; zinc; cadmium; copper; nickel; recombinant; site-directed mutagenesis;
Copyright © 1998 Society for Neuroscience 0270-6474/98/1882944-10$05.00/0

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