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Literature DB >> 25392484

More than a pore: ion channel signaling complexes.

Amy Lee¹, Bernd Fakler², Leonard K Kaczmarek³, Lori L Isom⁴.

Abstract

Voltage- and ligand-gated ion channels form the molecular basis of cellular excitability. With >400 members and accounting for ∼1.5% of the human genome, ion channels are some of the most well studied of all proteins in heterologous expression systems. Yet, ion channels often exhibit unexpected properties in vivo because of their interaction with a variety of signaling/scaffolding proteins. Such interactions can influence the function and localization of ion channels, as well as their coupling to intracellular second messengers and pathways, thus increasing the signaling potential of these ion channels in neurons. Moreover, functions have been ascribed to ion channels that are largely independent of their ion-conducting roles. Molecular and functional dissection of the ion channel proteome/interactome has yielded new insights into the composition of ion channel complexes and how their dysregulation leads to human disease.

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Year: 2014 PMID： 25392484 PMCID： PMC4228125 DOI： 10.1523/JNEUROSCI.3275-14.2014

Source DB: PubMed Journal: J Neurosci ISSN： 0270-6474 Impact factor: 6.167

143 in total

Review 1. Non-conducting functions of voltage-gated ion channels.

Authors: Leonard K Kaczmarek
Journal: Nat Rev Neurosci Date: 2006-10 Impact factor: 34.870

2. Two families of TARP isoforms that have distinct effects on the kinetic properties of AMPA receptors and synaptic currents.

Authors: Chang-Hoon Cho; Fannie St-Gelais; Wei Zhang; Susumu Tomita; James R Howe
Journal: Neuron Date: 2007-09-20 Impact factor: 17.173

3. Functional proteomics identify cornichon proteins as auxiliary subunits of AMPA receptors.

Authors: Jochen Schwenk; Nadine Harmel; Gerd Zolles; Wolfgang Bildl; Akos Kulik; Bernd Heimrich; Osamu Chisaka; Peter Jonas; Uwe Schulte; Bernd Fakler; Nikolaj Klöcker
Journal: Science Date: 2009-03-06 Impact factor: 47.728

4. CaBP1 regulates voltage-dependent inactivation and activation of Ca(V)1.2 (L-type) calcium channels.

Authors: Shimrit Oz; Vladimir Tsemakhovich; Carl J Christel; Amy Lee; Nathan Dascal
Journal: J Biol Chem Date: 2011-03-07 Impact factor: 5.157

5. Missense mutations in the sodium-gated potassium channel gene KCNT1 cause severe autosomal dominant nocturnal frontal lobe epilepsy.

Authors: Sarah E Heron; Katherine R Smith; Melanie Bahlo; Lino Nobili; Esther Kahana; Laura Licchetta; Karen L Oliver; Aziz Mazarib; Zaid Afawi; Amos Korczyn; Giuseppe Plazzi; Steven Petrou; Samuel F Berkovic; Ingrid E Scheffer; Leanne M Dibbens
Journal: Nat Genet Date: 2012-10-21 Impact factor: 38.330

6. The interaction between Stargazin and PSD-95 regulates AMPA receptor surface trafficking.

Authors: Cecile Bats; Laurent Groc; Daniel Choquet
Journal: Neuron Date: 2007-03-01 Impact factor: 17.173

7. Na+ channel-dependent recruitment of Navβ4 to axon initial segments and nodes of Ranvier.

Authors: Shelly A Buffington; Matthew N Rasband
Journal: J Neurosci Date: 2013-04-03 Impact factor: 6.167

8. Differential regulation of CaV1.2 channels by cAMP-dependent protein kinase bound to A-kinase anchoring proteins 15 and 79/150.

Authors: Matthew D Fuller; Ying Fu; Todd Scheuer; William A Catterall
Journal: J Gen Physiol Date: 2014-03 Impact factor: 4.086

Review 9. Calmodulin regulation (calmodulation) of voltage-gated calcium channels.

Authors: Manu Ben-Johny; David T Yue
Journal: J Gen Physiol Date: 2014-06 Impact factor: 4.086

Review 10. Emerging role of the KCNT1 Slack channel in intellectual disability.

Authors: Grace E Kim; Leonard K Kaczmarek
Journal: Front Cell Neurosci Date: 2014-07-28 Impact factor: 5.505

29 in total

1. Cell Cycle-dependent Changes in Localization and Phosphorylation of the Plasma Membrane Kv2.1 K+ Channel Impact Endoplasmic Reticulum Membrane Contact Sites in COS-1 Cells.

Authors: Melanie M Cobb; Daniel C Austin; Jon T Sack; James S Trimmer
Journal: J Biol Chem Date: 2015-10-06 Impact factor: 5.157

2. Molecular Determinants of Kv1.3 Potassium Channels-induced Proliferation.

Authors: Laura Jiménez-Pérez; Pilar Cidad; Inés Álvarez-Miguel; Alba Santos-Hipólito; Rebeca Torres-Merino; Esperanza Alonso; Miguel Ángel de la Fuente; José Ramón López-López; M Teresa Pérez-García
Journal: J Biol Chem Date: 2015-12-10 Impact factor: 5.157

3. A tale of ligands big and small: an update on how pentameric ligand-gated ion channels interact with agonists and proteins.

Authors: Stephan A Pless; Lucia G Sivilotti
Journal: Curr Opin Physiol Date: 2019-06-12

4. The mechanosensitive channel YbdG from Escherichia coli has a role in adaptation to osmotic up-shock.

Authors: Shun Amemiya; Hayato Toyoda; Mami Kimura; Hiromi Saito; Hiroshi Kobayashi; Kunio Ihara; Kiyoto Kamagata; Ryuji Kawabata; Setsu Kato; Yutaka Nakashimada; Tadaomi Furuta; Shin Hamamoto; Nobuyuki Uozumi
Journal: J Biol Chem Date: 2019-06-29 Impact factor: 5.157

Review 5. Discovery of K_V 1.3 ion channel inhibitors: Medicinal chemistry approaches and challenges.

Authors: Špela Gubič; Louise A Hendrickx; Žan Toplak; Maša Sterle; Steve Peigneur; Tihomir Tomašič; Luis A Pardo; Jan Tytgat; Anamarija Zega; Lucija P Mašič
Journal: Med Res Rev Date: 2021-05-01 Impact factor: 12.944

6. Four novel interaction partners demonstrate diverse modulatory effects on voltage-gated Ca_V2.2 Ca²⁺ channels.

Authors: Robert Mallmann; Katarina Ondacova; Lucia Moravcikova; Bohumila Jurkovicova-Tarabova; Michaela Pavlovicova; Roman Moravcik; Lucia Lichvarova; Viera Kominkova; Norbert Klugbauer; Lubica Lacinova
Journal: Pflugers Arch Date: 2019-01-05 Impact factor: 3.657

More than a pore: ion channel signaling complexes.

Review 1. Non-conducting functions of voltage-gated ion channels.

2. Two families of TARP isoforms that have distinct effects on the kinetic properties of AMPA receptors and synaptic currents.

3. Functional proteomics identify cornichon proteins as auxiliary subunits of AMPA receptors.

4. CaBP1 regulates voltage-dependent inactivation and activation of Ca(V)1.2 (L-type) calcium channels.

5. Missense mutations in the sodium-gated potassium channel gene KCNT1 cause severe autosomal dominant nocturnal frontal lobe epilepsy.

6. The interaction between Stargazin and PSD-95 regulates AMPA receptor surface trafficking.

7. Na+ channel-dependent recruitment of Navβ4 to axon initial segments and nodes of Ranvier.

8. Differential regulation of CaV1.2 channels by cAMP-dependent protein kinase bound to A-kinase anchoring proteins 15 and 79/150.

Review 9. Calmodulin regulation (calmodulation) of voltage-gated calcium channels.

Review 10. Emerging role of the KCNT1 Slack channel in intellectual disability.

1. Cell Cycle-dependent Changes in Localization and Phosphorylation of the Plasma Membrane Kv2.1 K+ Channel Impact Endoplasmic Reticulum Membrane Contact Sites in COS-1 Cells.

2. Molecular Determinants of Kv1.3 Potassium Channels-induced Proliferation.

3. A tale of ligands big and small: an update on how pentameric ligand-gated ion channels interact with agonists and proteins.

4. The mechanosensitive channel YbdG from Escherichia coli has a role in adaptation to osmotic up-shock.

Review 5. Discovery of K_V 1.3 ion channel inhibitors: Medicinal chemistry approaches and challenges.

6. Four novel interaction partners demonstrate diverse modulatory effects on voltage-gated Ca_V2.2 Ca²⁺ channels.

7. Characterization of C-terminal Splice Variants of Cav1.4 Ca2+ Channels in Human Retina.

Review 8. Surface dynamics of voltage-gated ion channels.

9. Measuring Ca2+-Dependent Modulation of Voltage-Gated Ca2+ Channels in HEK-293T Cells.

Review 10. Kv3 Channels: Enablers of Rapid Firing, Neurotransmitter Release, and Neuronal Endurance.

Review 1. Non-conducting functions of voltage-gated ion channels.

Review 9. Calmodulin regulation (calmodulation) of voltage-gated calcium channels.

Review 10. Emerging role of the KCNT1 Slack channel in intellectual disability.

Review 5. Discovery of KV 1.3 ion channel inhibitors: Medicinal chemistry approaches and challenges.

Review 8. Surface dynamics of voltage-gated ion channels.

Review 10. Kv3 Channels: Enablers of Rapid Firing, Neurotransmitter Release, and Neuronal Endurance.

Review 5. Discovery of K_V 1.3 ion channel inhibitors: Medicinal chemistry approaches and challenges.