Literature DB >> 19933751

Novel structural determinants of single channel conductance and ion selectivity in 5-hydroxytryptamine type 3 and nicotinic acetylcholine receptors.

John A Peters1, Michelle A Cooper, Jane E Carland, Matthew R Livesey, Tim G Hales, Jeremy J Lambert.   

Abstract

Nicotinic acetylcholine (nACh) and 5-hydroxytryptamine type 3 (5-HT(3)) receptors are cation-selective ion channels of the pentameric ligand-gated ion channel (pLGIC) superfamily. Multiple lines of evidence adduced over the last 30 years indicate that the lining of the channel of such receptors is formed by the alpha-helical second transmembrane (TM2) domain and flanking sequences contributed by each of the five subunits present within the receptor complex. Specific amino acid residues within, and adjacent to, the TM2 domain influence single channel conductance, ion selectivity, and other aspects of receptor function that include gating and desensitization. However, more recent work has revealed important structural determinants of single channel conductance and ion selectivity that are not associated with the TM2 domain. Direct experimental evidence indicates that the intracellular domain of eukaryotic pLGICs, in particular a region of the loop linking TM3 and TM4 termed the membrane-associated (MA) stretch, exerts a strong influence upon ion channel biophysics. Moreover, recent computational approaches, complemented by experimentation, implicate the extracellular domain as an additional important determinant of ion conduction. This brief review describes how our knowledge of ion conduction and selectivity in cation-selective pLGICs has evolved beyond TM2.

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Year:  2009        PMID: 19933751      PMCID: PMC2828133          DOI: 10.1113/jphysiol.2009.183137

Source DB:  PubMed          Journal:  J Physiol        ISSN: 0022-3751            Impact factor:   5.182


  47 in total

1.  A cytoplasmic region determines single-channel conductance in 5-HT3 receptors.

Authors:  Stephen P Kelley; James I Dunlop; Ewen F Kirkness; Jeremy J Lambert; John A Peters
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Authors:  Angelo Keramidas; Andrew J Moorhouse; Peter R Schofield; Peter H Barry
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4.  How pore mouth charge distributions alter the permeability of transmembrane ionic channels.

Authors:  P C Jordan
Journal:  Biophys J       Date:  1987-02       Impact factor: 4.033

5.  Ion-channel entrances influence permeation. Net charge, size, shape, and binding considerations.

Authors:  J A Dani
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6.  Amphipathic analysis and possible formation of the ion channel in an acetylcholine receptor.

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8.  Protein interactions involving the gamma2 large cytoplasmic loop of GABA(A) receptors modulate conductance.

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9.  Rings of negatively charged amino acids determine the acetylcholine receptor channel conductance.

Authors:  K Imoto; C Busch; B Sakmann; M Mishina; T Konno; J Nakai; H Bujo; Y Mori; K Fukuda; S Numa
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Authors:  Beate Niesler; Bernd Frank; Johannes Kapeller; Gudrun A Rappold
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  26 in total

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3.  A Single phenylalanine residue in the main intracellular loop of α1 γ-aminobutyric acid type A and glycine receptors influences their sensitivity to propofol.

Authors:  Gustavo Moraga-Cid; Gonzalo E Yevenes; Günther Schmalzing; Robert W Peoples; Luis G Aguayo
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5.  Discrete M3-M4 intracellular loop subdomains control specific aspects of γ-aminobutyric acid type A receptor function.

Authors:  Kate K O'Toole; Andrew Jenkins
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6.  Evidence for α-helices in the large intracellular domain mediating modulation of the α1-glycine receptor by ethanol and Gβγ.

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7.  Preferential use of unobstructed lateral portals as the access route to the pore of human ATP-gated ion channels (P2X receptors).

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Review 8.  The structural mechanism of the Cys-loop receptor desensitization.

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9.  X-ray structure of the mouse serotonin 5-HT3 receptor.

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Review 10.  Ethanol effects on glycinergic transmission: From molecular pharmacology to behavior responses.

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