Structure of acid-sensing ion channel 1 at 1.9 A resolution and low pH
- PMID: 17882215
- DOI: 10.1038/nature06163
Structure of acid-sensing ion channel 1 at 1.9 A resolution and low pH
Abstract
Acid-sensing ion channels (ASICs) are voltage-independent, proton-activated receptors that belong to the epithelial sodium channel/degenerin family of ion channels and are implicated in perception of pain, ischaemic stroke, mechanosensation, learning and memory. Here we report the low-pH crystal structure of a chicken ASIC1 deletion mutant at 1.9 A resolution. Each subunit of the chalice-shaped homotrimer is composed of short amino and carboxy termini, two transmembrane helices, a bound chloride ion and a disulphide-rich, multidomain extracellular region enriched in acidic residues and carboxyl-carboxylate pairs within 3 A, suggesting that at least one carboxyl group bears a proton. Electrophysiological studies on aspartate-to-asparagine mutants confirm that these carboxyl-carboxylate pairs participate in proton sensing. Between the acidic residues and the transmembrane pore lies a disulphide-rich 'thumb' domain poised to couple the binding of protons to the opening of the ion channel, thus demonstrating that proton activation involves long-range conformational changes.
Comment in
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Structural biology: unexpected opening.Nature. 2007 Sep 20;449(7160):293-4. doi: 10.1038/449293a. Nature. 2007. PMID: 17882209 No abstract available.
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