2019
DOI: 10.1002/dvdy.114
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Kv2.1 voltage‐gated potassium channels in developmental perspective

Abstract: Kv2.1 voltage‐gated potassium channels consist of two types of α‐subunits: (a) electrically‐active Kcnb1 α‐subunits and (b) silent or modulatory α‐subunits plus β‐subunits that, similar to silent α‐subunits, also regulate electrically‐active subunits. Voltage‐gated potassium channels were traditionally viewed, mainly by electrophysiologists, as regulators of the electrical activity of the plasma membrane in excitable cells, a role that is performed by transmembrane protein domains of α‐subunits that form the e… Show more

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Cited by 12 publications
(8 citation statements)
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“…K v 2.1 channel is well known to function as a suppressor of neuronal excitability especially when high‐frequency AP firing happens and exerts neuroprotection under various hyperexcitable conditions. [ 24 , 25 , 26 ] DRG neurons from Cdyl cKO mice and controls were treated with GxTX‐1E, a specific inhibitor of K v 2.1 channel, [ 19 , 27 ] to explore whether K v 2.1 channel contributed to the regulation of CDYL on intrinsic excitability. Repression of functional K v 2.1 channel did not influence the RMP and other AP parameters (Figure S5a–e , Supporting Information).…”
Section: Resultsmentioning
confidence: 99%
“…K v 2.1 channel is well known to function as a suppressor of neuronal excitability especially when high‐frequency AP firing happens and exerts neuroprotection under various hyperexcitable conditions. [ 24 , 25 , 26 ] DRG neurons from Cdyl cKO mice and controls were treated with GxTX‐1E, a specific inhibitor of K v 2.1 channel, [ 19 , 27 ] to explore whether K v 2.1 channel contributed to the regulation of CDYL on intrinsic excitability. Repression of functional K v 2.1 channel did not influence the RMP and other AP parameters (Figure S5a–e , Supporting Information).…”
Section: Resultsmentioning
confidence: 99%
“…Disruption of this interaction resulted in increased calcium sparks and waves, a possible mechanism for arrhythmogenesis in the AnkB syndrome [ 63 ]. Also, pathogenic mutations in KCNB1 encoding the Kv2.1 subunit, have been identified in patients with different neurodevelopmental disorders like epilepsy or autism [ 64 ]. Further, Kv2.1 knockout mice manifest neuronal and behavioral hyperexcitability [ 65 ], as well as retinal dysfunction.…”
Section: Discussionmentioning
confidence: 99%
“…Disruption of this interaction resulted in increased calcium sparks and waves, a possible mechanism for arrhythmogenesis in the AnkB syndrome [41]. Also, pathogenic mutations in KCNB1 encoding the Kv2.1 subunit, have been identi ed in patients with different neurodevelopmental disorders like epilepsy or autism [42]. Further, Kv2.1 knockout mice manifest neuronal and behavioral hyperexcitability [43], as well as retinal dysfunction.…”
Section: Discussionmentioning
confidence: 99%