Literature DB >> 20534576

The KCNQ5 potassium channel mediates a component of the afterhyperpolarization current in mouse hippocampus.

Anastassios V Tzingounis1, Matthias Heidenreich, Tatjana Kharkovets, Guillermo Spitzmaul, Henrik S Jensen, Roger A Nicoll, Thomas J Jentsch.   

Abstract

Mutations in KCNQ2 and KCNQ3 voltage-gated potassium channels lead to neonatal epilepsy as a consequence of their key role in regulating neuronal excitability. Previous studies in the brain have focused primarily on these KCNQ family members, which contribute to M-currents and afterhyperpolarization conductances in multiple brain areas. In contrast, the function of KCNQ5 (Kv7.5), which also displays widespread expression in the brain, is entirely unknown. Here, we developed mice that carry a dominant negative mutation in the KCNQ5 pore to probe whether it has a similar function as other KCNQ channels. This mutation renders KCNQ5(dn)-containing homomeric and heteromeric channels nonfunctional. We find that Kcnq5(dn/dn) mice are viable and have normal brain morphology. Furthermore, expression and neuronal localization of KCNQ2 and KCNQ3 subunits are unchanged. However, in the CA3 area of hippocampus, a region that highly expresses KCNQ5 channels, the medium and slow afterhyperpolarization currents are significantly reduced. In contrast, neither current is affected in the CA1 area of the hippocampus, a region with low KCNQ5 expression. Our results demonstrate that KCNQ5 channels contribute to the afterhyperpolarization currents in hippocampus in a cell type-specific manner.

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Year:  2010        PMID: 20534576      PMCID: PMC2890451          DOI: 10.1073/pnas.1004644107

Source DB:  PubMed          Journal:  Proc Natl Acad Sci U S A        ISSN: 0027-8424            Impact factor:   11.205


  43 in total

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Review 2.  Pathways modulating neural KCNQ/M (Kv7) potassium channels.

Authors:  Patrick Delmas; David A Brown
Journal:  Nat Rev Neurosci       Date:  2005-11       Impact factor: 34.870

3.  Genome-wide atlas of gene expression in the adult mouse brain.

Authors:  Ed S Lein; Michael J Hawrylycz; Nancy Ao; Mikael Ayres; Amy Bensinger; Amy Bernard; Andrew F Boe; Mark S Boguski; Kevin S Brockway; Emi J Byrnes; Lin Chen; Li Chen; Tsuey-Ming Chen; Mei Chi Chin; Jimmy Chong; Brian E Crook; Aneta Czaplinska; Chinh N Dang; Suvro Datta; Nick R Dee; Aimee L Desaki; Tsega Desta; Ellen Diep; Tim A Dolbeare; Matthew J Donelan; Hong-Wei Dong; Jennifer G Dougherty; Ben J Duncan; Amanda J Ebbert; Gregor Eichele; Lili K Estin; Casey Faber; Benjamin A Facer; Rick Fields; Shanna R Fischer; Tim P Fliss; Cliff Frensley; Sabrina N Gates; Katie J Glattfelder; Kevin R Halverson; Matthew R Hart; John G Hohmann; Maureen P Howell; Darren P Jeung; Rebecca A Johnson; Patrick T Karr; Reena Kawal; Jolene M Kidney; Rachel H Knapik; Chihchau L Kuan; James H Lake; Annabel R Laramee; Kirk D Larsen; Christopher Lau; Tracy A Lemon; Agnes J Liang; Ying Liu; Lon T Luong; Jesse Michaels; Judith J Morgan; Rebecca J Morgan; Marty T Mortrud; Nerick F Mosqueda; Lydia L Ng; Randy Ng; Geralyn J Orta; Caroline C Overly; Tu H Pak; Sheana E Parry; Sayan D Pathak; Owen C Pearson; Ralph B Puchalski; Zackery L Riley; Hannah R Rockett; Stephen A Rowland; Joshua J Royall; Marcos J Ruiz; Nadia R Sarno; Katherine Schaffnit; Nadiya V Shapovalova; Taz Sivisay; Clifford R Slaughterbeck; Simon C Smith; Kimberly A Smith; Bryan I Smith; Andy J Sodt; Nick N Stewart; Kenda-Ruth Stumpf; Susan M Sunkin; Madhavi Sutram; Angelene Tam; Carey D Teemer; Christina Thaller; Carol L Thompson; Lee R Varnam; Axel Visel; Ray M Whitlock; Paul E Wohnoutka; Crissa K Wolkey; Victoria Y Wong; Matthew Wood; Murat B Yaylaoglu; Rob C Young; Brian L Youngstrom; Xu Feng Yuan; Bin Zhang; Theresa A Zwingman; Allan R Jones
Journal:  Nature       Date:  2006-12-06       Impact factor: 49.962

4.  The KCNQ5 potassium channel from mouse: a broadly expressed M-current like potassium channel modulated by zinc, pH, and volume changes.

Authors:  Henrik Sindal Jensen; Kirstine Callø; Thomas Jespersen; Bo Skaaning Jensen; Søren-Peter Olesen
Journal:  Brain Res Mol Brain Res       Date:  2005-09-13

5.  Disruption of the epilepsy KCNQ2 gene results in neural hyperexcitability.

Authors:  H Watanabe; E Nagata; A Kosakai; M Nakamura; M Yokoyama; K Tanaka; H Sasai
Journal:  J Neurochem       Date:  2000-07       Impact factor: 5.372

6.  Conditional transgenic suppression of M channels in mouse brain reveals functions in neuronal excitability, resonance and behavior.

Authors:  H Christian Peters; Hua Hu; Olaf Pongs; Johan F Storm; Dirk Isbrandt
Journal:  Nat Neurosci       Date:  2004-12-19       Impact factor: 24.884

7.  Kv7/KCNQ/M and HCN/h, but not KCa2/SK channels, contribute to the somatic medium after-hyperpolarization and excitability control in CA1 hippocampal pyramidal cells.

Authors:  Ning Gu; Koen Vervaeke; Hua Hu; Johan F Storm
Journal:  J Physiol       Date:  2005-05-12       Impact factor: 5.182

8.  Hippocalcin gates the calcium activation of the slow afterhyperpolarization in hippocampal pyramidal cells.

Authors:  Anastassios V Tzingounis; Masaaki Kobayashi; Ken Takamatsu; Roger A Nicoll
Journal:  Neuron       Date:  2007-02-15       Impact factor: 17.173

Review 9.  Neuronal calcium sensor proteins: generating diversity in neuronal Ca2+ signalling.

Authors:  Robert D Burgoyne
Journal:  Nat Rev Neurosci       Date:  2007-03       Impact factor: 34.870

10.  KCNQ4, a K+ channel mutated in a form of dominant deafness, is expressed in the inner ear and the central auditory pathway.

Authors:  T Kharkovets; J P Hardelin; S Safieddine; M Schweizer; A El-Amraoui; C Petit; T J Jentsch
Journal:  Proc Natl Acad Sci U S A       Date:  2000-04-11       Impact factor: 11.205
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  54 in total

1.  Kv7.2 regulates the function of peripheral sensory neurons.

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Journal:  J Comp Neurol       Date:  2014-04-12       Impact factor: 3.215

2.  Functional up-regulation of the M-current by retigabine contrasts hyperexcitability and excitotoxicity on rat hypoglossal motoneurons.

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Review 3.  Function and mechanism of axonal targeting of voltage-sensitive potassium channels.

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Journal:  Prog Neurobiol       Date:  2011-04-22       Impact factor: 11.685

Review 4.  Molecular underpinnings of ventral surface chemoreceptor function: focus on KCNQ channels.

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Journal:  J Physiol       Date:  2015-02-19       Impact factor: 5.182

5.  Hippocalcin and KCNQ channels contribute to the kinetics of the slow afterhyperpolarization.

Authors:  Kwang S Kim; Masaaki Kobayashi; Ken Takamatsu; Anastasios V Tzingounis
Journal:  Biophys J       Date:  2012-12-18       Impact factor: 4.033

6.  What determines the kinetics of the slow afterhyperpolarization (sAHP) in neurons?

Authors:  H Peter Larsson
Journal:  Biophys J       Date:  2013-01-22       Impact factor: 4.033

Review 7.  Voltage-gated potassium channels at the crossroads of neuronal function, ischemic tolerance, and neurodegeneration.

Authors:  Niyathi Hegde Shah; Elias Aizenman
Journal:  Transl Stroke Res       Date:  2013-11-19       Impact factor: 6.829

8.  Muscarinic excitation of parvalbumin-positive interneurons contributes to the severity of pilocarpine-induced seizures.

Authors:  Feng Yi; Evan DeCan; Kurt Stoll; Eric Marceau; Karl Deisseroth; J Josh Lawrence
Journal:  Epilepsia       Date:  2014-12-13       Impact factor: 5.864

9.  The Voltage Activation of Cortical KCNQ Channels Depends on Global PIP2 Levels.

Authors:  Kwang S Kim; Kevin M Duignan; Joanna M Hawryluk; Heun Soh; Anastasios V Tzingounis
Journal:  Biophys J       Date:  2016-03-08       Impact factor: 4.033

10.  The slow afterhyperpolarization: a target of β1-adrenergic signaling in hippocampus-dependent memory retrieval.

Authors:  Lei Zhang; Ming Ouyang; C Robin Ganellin; Steven A Thomas
Journal:  J Neurosci       Date:  2013-03-13       Impact factor: 6.167
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