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Structural Similarities between Glutamate Receptor Channels and K(+) Channels Examined by Scanning Mutagenesis

The pores of glutamate receptors and K(+) channels share sequence homology, suggesting a conserved secondary structure. Scanning mutagenesis with substitution of alanine and tryptophan in GluR6 channels was performed based on the structure of KcsA. Our assay used disruption of voltage-dependent poly...

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Autores principales: Panchenko, Victor A., Glasser, Carla R., Mayer, Mark L.
Formato: Texto
Lenguaje:English
Publicado: The Rockefeller University Press 2001
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC2217257/
https://www.ncbi.nlm.nih.gov/pubmed/11279254
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author Panchenko, Victor A.
Glasser, Carla R.
Mayer, Mark L.
author_facet Panchenko, Victor A.
Glasser, Carla R.
Mayer, Mark L.
author_sort Panchenko, Victor A.
collection PubMed
description The pores of glutamate receptors and K(+) channels share sequence homology, suggesting a conserved secondary structure. Scanning mutagenesis with substitution of alanine and tryptophan in GluR6 channels was performed based on the structure of KcsA. Our assay used disruption of voltage-dependent polyamine block to test for changes in the packing of pore-forming regions. Alanine scanning from D567 to R603 revealed reduced rectification resulting from channel block in two regions. A periodic pattern from F575 to M589 aligned with the pore helix in KcsA, whereas a cluster of sensitive positions around Q590, a site regulated by RNA editing, mapped to the selectivity filter in KcsA. Tryptophan scanning from D567 to R603 revealed similar patterns, but with a complete disruption of spermine block for 7 out of the 37 positions and a pM dissociation constant for Q590W. Molecular modeling with KcsA coordinates showed that GluR6 pore helix mutants disrupting polyamine block pack against M1 and M2, and are not exposed in the ion channel pore. In the selectivity filter, tryptophan creates an aromatic cage consistent with the pM dissociation constant for Q590W. A scan with glutamate substitution was used to map the cytoplasmic entrance to the pore based on charge neutralization experiments, which established that E594 was uniquely required for high affinity polyamine block. In E594Q mutants, introduction of glutamate at positions S593–L600 restored polyamine block at positions corresponding to surface-exposed residues in KcsA. Our results reinforce proposals that the pore region of glutamate receptors contains a helix and pore loop analogous to that found in K(+) channels. At the cytoplasmic entrance of the channel, a negatively charged amino acid, located in an extended loop with solvent-exposed side chains, is required for high affinity polyamine block and probably attracts cations via a through space electrostatic mechanism.
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spelling pubmed-22172572008-04-22 Structural Similarities between Glutamate Receptor Channels and K(+) Channels Examined by Scanning Mutagenesis Panchenko, Victor A. Glasser, Carla R. Mayer, Mark L. J Gen Physiol Original Article The pores of glutamate receptors and K(+) channels share sequence homology, suggesting a conserved secondary structure. Scanning mutagenesis with substitution of alanine and tryptophan in GluR6 channels was performed based on the structure of KcsA. Our assay used disruption of voltage-dependent polyamine block to test for changes in the packing of pore-forming regions. Alanine scanning from D567 to R603 revealed reduced rectification resulting from channel block in two regions. A periodic pattern from F575 to M589 aligned with the pore helix in KcsA, whereas a cluster of sensitive positions around Q590, a site regulated by RNA editing, mapped to the selectivity filter in KcsA. Tryptophan scanning from D567 to R603 revealed similar patterns, but with a complete disruption of spermine block for 7 out of the 37 positions and a pM dissociation constant for Q590W. Molecular modeling with KcsA coordinates showed that GluR6 pore helix mutants disrupting polyamine block pack against M1 and M2, and are not exposed in the ion channel pore. In the selectivity filter, tryptophan creates an aromatic cage consistent with the pM dissociation constant for Q590W. A scan with glutamate substitution was used to map the cytoplasmic entrance to the pore based on charge neutralization experiments, which established that E594 was uniquely required for high affinity polyamine block. In E594Q mutants, introduction of glutamate at positions S593–L600 restored polyamine block at positions corresponding to surface-exposed residues in KcsA. Our results reinforce proposals that the pore region of glutamate receptors contains a helix and pore loop analogous to that found in K(+) channels. At the cytoplasmic entrance of the channel, a negatively charged amino acid, located in an extended loop with solvent-exposed side chains, is required for high affinity polyamine block and probably attracts cations via a through space electrostatic mechanism. The Rockefeller University Press 2001-04-01 /pmc/articles/PMC2217257/ /pubmed/11279254 Text en © 2001 The Rockefeller University Press This article is distributed under the terms of an Attribution–Noncommercial–Share Alike–No Mirror Sites license for the first six months after the publication date (see http://www.rupress.org/terms). After six months it is available under a Creative Commons License (Attribution–Noncommercial–Share Alike 4.0 Unported license, as described at http://creativecommons.org/licenses/by-nc-sa/4.0/).
spellingShingle Original Article
Panchenko, Victor A.
Glasser, Carla R.
Mayer, Mark L.
Structural Similarities between Glutamate Receptor Channels and K(+) Channels Examined by Scanning Mutagenesis
title Structural Similarities between Glutamate Receptor Channels and K(+) Channels Examined by Scanning Mutagenesis
title_full Structural Similarities between Glutamate Receptor Channels and K(+) Channels Examined by Scanning Mutagenesis
title_fullStr Structural Similarities between Glutamate Receptor Channels and K(+) Channels Examined by Scanning Mutagenesis
title_full_unstemmed Structural Similarities between Glutamate Receptor Channels and K(+) Channels Examined by Scanning Mutagenesis
title_short Structural Similarities between Glutamate Receptor Channels and K(+) Channels Examined by Scanning Mutagenesis
title_sort structural similarities between glutamate receptor channels and k(+) channels examined by scanning mutagenesis
topic Original Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC2217257/
https://www.ncbi.nlm.nih.gov/pubmed/11279254
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