Chrisman PA et al. (2014), Intra-subunit flexibility underlies activation ...

XB-ART-48400

Neuropharmacology 2014 Apr 01;79:420-31. doi: 10.1016/j.neuropharm.2013.12.017.

Show Gene links Show Anatomy links

Intra-subunit flexibility underlies activation and allosteric modulation of neuronal nicotinic acetylcholine receptors.

Chrisman PA , Podair JI , Jobe EM , Levandoski MM .

???displayArticle.abstract???
Allosteric modulation is a general feature of nicotinic acetylcholine receptors, yet the structural components and movements important for conversions among functional states are not well understood. In this study, we examine the communication between the binding sites for agonist and the modulator morantel (Mor) of neuronal α3β2 receptors, measuring evoked currents of receptors expressed in Xenopus oocytes with the two-electrode voltage-clamp method. We hypothesized that movement along an interface of β sheets connecting the agonist and modulator sites is necessary for allosteric modulation. To address this, we created pairs of substituted cysteines that span the cleft formed where the outer β sheet meets the β sheet constituting the (-)-face of the α3 subunit; the three pairs were L158C-A179C, L158C-G181C and L158C-K183C. Employing a disulfide trapping approach in which bonds are formed between neighboring cysteines under oxidation conditions, we found that oxidation treatments decreased the amplitude of currents evoked by either the agonist (ACh) or co-applied agonist and modulator (ACh + Mor), by as much as 51%, consistent with the introduced bond decreasing channel efficacy. Reduction treatment increased evoked currents up to 89%. The magnitude of the oxidation effects depended on whether agonists were present during oxidation and on the cysteine pair. Additionally, the cysteine mutations themselves decreased Mor potentiation, implicating these residues in modulation. Our findings suggest that these β sheets in the α3 subunit move with respect to each other during activation and modulation, and the residues studied highlight the contribution of this intramolecular allosteric pathway to receptor function.

???displayArticle.pubmedLink??? 24373904
???displayArticle.pmcLink??? PMC3970552
???displayArticle.link??? Neuropharmacology
???displayArticle.grants??? [+]

References [+] :

Albuquerque, Mammalian nicotinic acetylcholine receptors: from structure to function. 2009, Pubmed

Albuquerque, Mammalian nicotinic acetylcholine receptors: from structure to function. 2009, Pubmed
Bartos, Molecular determinants of pyrantel selectivity in nicotinic receptors. 2006, Pubmed
Bass, Use of site-directed cysteine and disulfide chemistry to probe protein structure and dynamics: applications to soluble and transmembrane receptors of bacterial chemotaxis. 2007, Pubmed
Bocquet, X-ray structure of a pentameric ligand-gated ion channel in an apparently open conformation. 2009, Pubmed
Boulter, Functional expression of two neuronal nicotinic acetylcholine receptors from cDNA clones identifies a gene family. 1987, Pubmed , Xenbase
Brejc, Crystal structure of an ACh-binding protein reveals the ligand-binding domain of nicotinic receptors. 2001, Pubmed
Cesa, Specificity determinants of allosteric modulation in the neuronal nicotinic acetylcholine receptor: a fine line between inhibition and potentiation. 2012, Pubmed
Damle, Effects of agonists and antagonists on the reactivity of the binding site disulfide in acetylcholine receptor from Torpedo californica. 1980, Pubmed
Dellisanti, Crystal structure of the extracellular domain of nAChR alpha1 bound to alpha-bungarotoxin at 1.94 A resolution. 2007, Pubmed
Goldenberg, Probing the determinants of disulfide stability in native pancreatic trypsin inhibitor. 1993, Pubmed
Grossberg, Reviews: Effects of transdermal rivastigmine on ADAS-cog items in mild-to-moderate Alzheimer's disease. 2010, Pubmed
Hansen, Structures of Aplysia AChBP complexes with nicotinic agonists and antagonists reveal distinctive binding interfaces and conformations. 2005, Pubmed
Hanson, Disulphide trapping of the GABA(A) receptor reveals the importance of the coupling interface in the action of benzodiazepines. 2011, Pubmed , Xenbase
Harpsøe, Unraveling the high- and low-sensitivity agonist responses of nicotinic acetylcholine receptors. 2011, Pubmed
Haydar, Neuronal nicotinic acetylcholine receptors - targets for the development of drugs to treat cognitive impairment associated with schizophrenia and Alzheimer's disease. 2010, Pubmed
Hilf, X-ray structure of a prokaryotic pentameric ligand-gated ion channel. 2008, Pubmed
Hilf, Structure of a potentially open state of a proton-activated pentameric ligand-gated ion channel. 2009, Pubmed
Horenstein, Protein mobility and GABA-induced conformational changes in GABA(A) receptor pore-lining M2 segment. 2001, Pubmed , Xenbase
Hurst, Nicotinic acetylcholine receptors: from basic science to therapeutics. 2013, Pubmed
Jadey, An integrated catch-and-hold mechanism activates nicotinic acetylcholine receptors. 2012, Pubmed
Jansen, State-dependent cross-linking of the M2 and M3 segments: functional basis for the alignment of GABAA and acetylcholine receptor M3 segments. 2006, Pubmed , Xenbase
Karlin, Substituted-cysteine accessibility method. 1998, Pubmed
Kuwajima, Kinetics of disulfide bond reduction in alpha-lactalbumin by dithiothreitol and molecular basis of superreactivity of the Cys6-Cys120 disulfide bond. 1990, Pubmed
Lee, Principal pathway coupling agonist binding to channel gating in nicotinic receptors. 2005, Pubmed
Li, Ligand-binding domain of an α7-nicotinic receptor chimera and its complex with agonist. 2011, Pubmed
Ludwig, Localization by site-directed mutagenesis of a galantamine binding site on α7 nicotinic acetylcholine receptor extracellular domain. 2010, Pubmed
Lyford, Agonist-induced conformational changes in the extracellular domain of alpha 7 nicotinic acetylcholine receptors. 2003, Pubmed , Xenbase
Maelicke, Allosteric modulation of nicotinic acetylcholine receptors as a treatment strategy for Alzheimer's disease. 2000, Pubmed
Mazzaferro, Additional acetylcholine (ACh) binding site at alpha4/alpha4 interface of (alpha4beta2)2alpha4 nicotinic receptor influences agonist sensitivity. 2011, Pubmed , Xenbase
McLaughlin, Role of the outer beta-sheet in divalent cation modulation of alpha7 nicotinic receptors. 2006, Pubmed , Xenbase
Mills, Comparisons of high-dose and combination nicotine replacement therapy, varenicline, and bupropion for smoking cessation: a systematic review and multiple treatment meta-analysis. 2012, Pubmed
Mukhtasimova, An intersubunit trigger of channel gating in the muscle nicotinic receptor. 2007, Pubmed
Mukhtasimova, Detection and trapping of intermediate states priming nicotinic receptor channel opening. 2009, Pubmed
Ortells, Neuronal networks of nicotine addiction. 2010, Pubmed
Pandya, Allosteric modulators of the α4β2 subtype of neuronal nicotinic acetylcholine receptors. 2011, Pubmed
Parri, Research update: Alpha7 nicotinic acetylcholine receptor mechanisms in Alzheimer's disease. 2011, Pubmed
Picciotto, Molecular mechanisms underlying behaviors related to nicotine addiction. 2013, Pubmed
Purohit, Acetylcholine receptor gating: movement in the alpha-subunit extracellular domain. 2007, Pubmed
Rayes, Number and locations of agonist binding sites required to activate homomeric Cys-loop receptors. 2009, Pubmed
Reeves, A role for the beta 1-beta 2 loop in the gating of 5-HT3 receptors. 2005, Pubmed , Xenbase
Sallette, An extracellular protein microdomain controls up-regulation of neuronal nicotinic acetylcholine receptors by nicotine. 2004, Pubmed
Seo, The positive allosteric modulator morantel binds at noncanonical subunit interfaces of neuronal nicotinic acetylcholine receptors. 2009, Pubmed , Xenbase
Unwin, Refined structure of the nicotinic acetylcholine receptor at 4A resolution. 2005, Pubmed
Venkatachalan, A conserved salt bridge critical for GABA(A) receptor function and loop C dynamics. 2008, Pubmed , Xenbase
Wang, Single-channel current through nicotinic receptor produced by closure of binding site C-loop. 2009, Pubmed
Williams, Positive allosteric modulators as an approach to nicotinic acetylcholine receptor-targeted therapeutics: advantages and limitations. 2011, Pubmed
Wu, Morantel allosterically enhances channel gating of neuronal nicotinic acetylcholine alpha 3 beta 2 receptors. 2008, Pubmed , Xenbase