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Authordc.contributor.authorIturriaga-Vásquez, Patricio es_CL
Authordc.contributor.authorCarbone, Annalisa es_CL
Authordc.contributor.authorGarcía Beltrán, Olimpo es_CL
Authordc.contributor.authorLivingstone, Phil D. es_CL
Authordc.contributor.authorBiggin, Philip C. es_CL
Authordc.contributor.authorCassels Niven, Bruce es_CL
Authordc.contributor.authorWonnacott, Susan es_CL
Authordc.contributor.authorZapata-Torres, Gerald es_CL
Authordc.contributor.authorBermúdez, Isabel 
Admission datedc.date.accessioned2012-05-15T16:58:59Z
Available datedc.date.available2012-05-15T16:58:59Z
Publication datedc.date.issued2010-06-14
Cita de ítemdc.identifier.citationMol Pharmacol, vol. 78, nº 3, p. 366–375, 2010.es_CL
Identifierdc.identifier.issn0026-895X
Identifierdc.identifier.urihttps://repositorio.uchile.cl/handle/2250/119397
Abstractdc.description.abstractThe Erythrina alkaloids erysodine and dihydro- -erythroidine (DH E) are potent and selective competitive inhibitors of 4 2 nicotinic acetylcholine receptors (nAChRs), but little is known about the molecular determinants of the sensitivity of this receptor subtype to inhibition by this class of antagonists. We addressed this issue by examining the effects of DH E and a range of aromatic Erythrina alkaloids on [3H]cytisine binding and receptor function in conjunction with homology models of the 4 2 nAChR, mutagenesis, and functional assays. The lactone group of DH E and a hydroxyl group at position C-16 in aromatic Erythrina alkaloids were identified as major determinants of potency, which was decreased when the conserved residue Tyr126 in loop A of the 4 subunit was substituted by alanine. Sensitivity to inhibition was also decreased by substituting the conserved aromatic residues 4Trp182 (loop B), 4Tyr230 (loop C), and 2Trp82 (loop D) and the nonconserved 2Thr84; however, only 4Trp182 was predicted to contact bound antagonist, suggesting 4Tyr230, 2Trp82, and 2Thr84 contribute allosterically to the closed state elicited by bound antagonist. In addition, homology modeling predicted strong ionic interactions between the ammonium center of the Erythrina alkaloids and 2Asp196, leading to the uncapping of loop C. Consistent with this, 2D196A abolished sensitivity to inhibition by DH E or erysodine but not by epierythratidine, which is not predicted to form ionic bonds with 2Asp196. This residue is not conserved in subunits that comprise nAChRs with low sensitivity to inhibition by DH E or erysodine, which highlights 2Asp196 as a major determinant of the receptor selectivity of Erythrina alkaloids.es_CL
Patrocinadordc.description.sponsorshipThis work was supported by the National Foundation of Science and Technology [Grant 11060502]; the Millenium Scientific Initiative [Grant P05-001- F]; a Oxford Brookes University postgraduate scholarship; a Research Councils UK Fellowship; the Wellcome Trust [Grant 083547]; the Start-up Project [DI 2006 INI 06/03-2]; and the Bicentenary Project for Science and Technology, National Commission for Science and Technology 2004.es_CL
Lenguagedc.language.isoenes_CL
Publisherdc.publisherThe American Society for Pharmacology and Experimental Therapeuticses_CL
Títulodc.titleMolecular Determinants for Competitive Inhibition of 4 2 Nicotinic Acetylcholine Receptorses_CL
Document typedc.typeArtículo de revista


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