Nicotinic acetylcholine receptors (nAChRs) are pentameric ligand-gated ion channels. Alpha subunits, together with beta 2 and/or beta 4 subunits, form ligand-binding sites at alpha/beta subunit interfaces. Predatory marine snails of the genus Conus are a rich source of nAChR-targeted peptides. Using conserved features of the alpha-conotoxin signal sequence and 3'-untranslated sequence region, we have cloned a novel gene from the fish-eating snail, Conus bullatus; the gene codes for a previously unreported alpha-conotoxin with unusual 4/4 spacing of amino acids in the two disulfide loops. Chemical synthesis of the predicted mature toxin was performed. The resulting peptide, alpha-conotoxin BuIA, was tested on cloned nAChRs expressed in Xenopus oocytes. The peptide potently blocks numerous rat nAChR subtypes, with highest potency for alpha 3- and chimeric alpha 6-containing nAChRs; BuIA blocks alpha 6/alpha 3 beta 2 nAChRs with a 40,000-fold lower IC(50) than alpha 4 beta 2 nAChRs. The kinetics of toxin unblock are dependent on the beta subunit. nAChRs with a beta 4 subunit have very slow off-times, compared with the corresponding beta 2 subunit-containing nAChR. In each instance, rat alpha x beta 4 may be distinguished from rat alpha x beta 2 by the large difference in time to recover from toxin block. Similar results are obtained when comparing mouse alpha 3 beta 2 to mouse alpha 3 beta 4, and human alpha 3 beta2 to human alpha 3 beta 4, indicating that the beta subunit dependence extends across species. Thus, alpha-conotoxin BuIA also represents a novel probe for distinguishing between beta 2- and beta 4-containing nAChRs.
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Nicotinic acetylcholine receptors (nAChRs) are pentameric ligand-gated ion channels. Alpha subunits, together with beta 2 and/or beta 4 subunits, form ligand-binding sites at alpha/beta subunit interfaces. Predatory marine snails of the genus Conus are a rich source of nAChR-targeted peptides. Using conserved features of the alpha-conotoxin signal sequence and 3'-untranslated sequence region, we have cloned a novel gene from the fish-eating snail, Conus bullatus; the gene codes for a previously unreported alpha-conotoxin with unusual 4/4 spacing of amino acids in the two disulfide loops. Chemical synthesis of the predicted mature toxin was performed. The resulting peptide, alpha-conotoxin BuIA, was tested on cloned nAChRs expressed in Xenopus oocytes. The peptide potently blocks numerous rat nAChR subtypes, with highest potency for alpha 3- and chimeric alpha 6-containing nAChRs; BuIA blocks alpha 6/alpha 3 beta 2 nAChRs with a 40,000-fold lower IC(50) than alpha 4 beta 2 nAChRs. The kinetics of toxin unblock are dependent on the beta subunit. nAChRs with a beta 4 subunit have very slow off-times, compared with the corresponding beta 2 subunit-containing nAChR. In each instance, rat alpha x beta 4 may be distinguished from rat alpha x beta 2 by the large difference in time to recover from toxin block. Similar results are obtained when comparing mouse alpha 3 beta 2 to mouse alpha 3 beta 4, and human alpha 3 beta2 to human alpha 3 beta 4, indicating that the beta subunit dependence extends across species. Thus, alpha-conotoxin BuIA also represents a novel probe for distinguishing between beta 2- and beta 4-containing nAChRs.
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skos:exactMatch | |
uniprot:name |
J. Biol. Chem.
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uniprot:author |
Azam L.,
Dowell C.,
McIntosh J.M.,
Olivera B.M.,
Stitzel J.A.,
Watkins M.
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uniprot:date |
2005
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uniprot:pages |
80-87
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uniprot:title |
Alpha-conotoxin BuIA, a novel peptide from Conus bullatus, distinguishes among neuronal nicotinic acetylcholine receptors.
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uniprot:volume |
280
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dc-term:identifier |
doi:10.1074/jbc.M406281200
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