Kv3.3

1

Rosato-Siri MD et al. A Novel Modulator of Kv3 Potassium Channels Regulates the Firing of Parvalbumin-Positive Cortical Interneurons.
J. Pharmacol. Exp. Ther., 2015 Sep , 354 (251-60).

2

Parolin Schnekenberg R et al. De novo point mutations in patients diagnosed with ataxic cerebral palsy.
Brain, 2015 Jul , 138 (1817-32).

3

Duarri A et al. Functional analysis helps to define KCNC3 mutational spectrum in Dutch ataxia cases.
PLoS ONE, 2015 , 10 (e0116599).

4

Gallego-Iradi C et al. KCNC3(R420H), a K(+) channel mutation causative in spinocerebellar ataxia 13 displays aberrant intracellular trafficking.
Neurobiol. Dis., 2014 Nov , 71 (270-9).

5

Irie T et al. Kv3.3 channels harbouring a mutation of spinocerebellar ataxia type 13 alter excitability and induce cell death in cultured cerebellar Purkinje cells.
J. Physiol. (Lond.), 2014 Jan 1 , 592 (229-47).

6

Dimassi S et al. A subset of genomic alterations detected in rolandic epilepsies contains candidate or known epilepsy genes including GRIN2A and PRRT2.
Epilepsia, 2014 Feb , 55 (370-8).

7

Dufour MA et al. Somatodendritic ion channel expression in substantia nigra pars compacta dopaminergic neurons across postnatal development.
J. Neurosci. Res., 2014 Aug , 92 (981-99).

8

Hsieh JY et al. Rapid development of Purkinje cell excitability, functional cerebellar circuit, and afferent sensory input to cerebellum in zebrafish.
Front Neural Circuits, 2014 , 8 (147).

9

Zhao J et al. Spinocerebellar ataxia-13 Kv3.3 potassium channels: arginine-to-histidine mutations affect both functional and protein expression on the cell surface.
Biochem. J., 2013 Sep 1 , 454 (259-65).

10

Nguyen HM et al. Intracellular trafficking of the KV1.3 potassium channel is regulated by the prodomain of a matrix metalloprotease.
J. Biol. Chem., 2013 Mar 1 , 288 (6451-64).

11

Peng L et al. Spinocerebellar ataxia type 13 is an uncommon SCA subtype in the Chinese Han population.
Int. J. Neurosci., 2013 Jul , 123 (450-3).

12

You MH et al. Voltage-gated K+ channels in adipogenic differentiation of bone marrow-derived human mesenchymal stem cells.
Acta Pharmacol. Sin., 2013 Jan , 34 (129-36).

13

Bürk K et al. Mesial temporal lobe epilepsy in a patient with spinocerebellar ataxia type 13 (SCA13).
Int. J. Neurosci., 2013 Apr , 123 (278-82).

14

Veys K et al. Kv3.3b expression defines the shape of the complex spike in the Purkinje cell.
Front Cell Neurosci, 2013 , 7 (205).

15

Middlebrooks JC et al. Mutation in the kv3.3 voltage-gated potassium channel causing spinocerebellar ataxia 13 disrupts sound-localization mechanisms.
PLoS ONE, 2013 , 8 (e76749).

16

Issa FA et al. Spinocerebellar ataxia type 13 mutation that is associated with disease onset in infancy disrupts axonal pathfinding during neuronal development.
Dis Model Mech, 2012 Nov , 5 (921-9).

17

Buttigieg J et al. NOX2 (gp91 phox) is a predominant O2 sensor in a human airway chemoreceptor cell line: biochemical, molecular and electrophysiological evidence.
Am. J. Physiol. Lung Cell Mol. Physiol., 2012 Aug 3 , ().

18

Huang CY et al. Co-expression of high-voltage-activated ion channels Kv3.4 and Cav1.2 in pioneer axons during pathfinding in the developing rat forebrain.
, 2012 Apr 2 , ().

19

Minassian NA et al. Altered Kv3.3 channel gating in early-onset spinocerebellar ataxia type 13.
J. Physiol. (Lond.), 2012 Apr 1 , 590 (1599-614).

20

Stevanin G et al. Spinocerebellar ataxia 13 and 25.
Handb Clin Neurol, 2012 , 103 (549-53).

21

Khazen G et al. Combinatorial Expression Rules of Ion Channel Genes in Juvenile Rat (Rattus norvegicus) Neocortical Neurons.
PLoS ONE, 2012 , 7 (e34786).

22

Kanda VA et al. KCNE1 and KCNE2 provide a checkpoint governing voltage-gated potassium channel α-subunit composition.
Biophys. J., 2011 Sep 21 , 101 (1364-75).

23

Kanda VA et al. KCNE1 and KCNE2 inhibit forward trafficking of homomeric N-type voltage-gated potassium channels.
Biophys. J., 2011 Sep 21 , 101 (1354-63).

24

Nowak A et al. Kv3.1b and Kv3.3 channel subunit expression in murine spinal dorsal horn GABAergic interneurones.
J. Chem. Neuroanat., 2011 Sep , 42 (30-8).

25

Issa FA et al. Spinocerebellar ataxia type 13 mutant potassium channel alters neuronal excitability and causes locomotor deficits in zebrafish.
J. Neurosci., 2011 May 4 , 31 (6831-41).

26

Firth AL et al. Functional ion channels in human pulmonary artery smooth muscle cells: Voltage-dependent cation channels.
Pulm Circ, 2011 Jan 1 , 1 (48-71).

27

Tavian D et al. Selective underexpression of Kv3.2 and Kv3.4 channels in the cortex of rats exposed to ethanol during early postnatal life.
Neurol. Sci., 2011 Aug , 32 (571-7).

28

Figueroa KP et al. Frequency of KCNC3 DNA variants as causes of spinocerebellar ataxia 13 (SCA13).
PLoS ONE, 2011 , 6 (e17811).

29

Puente N et al. Precise localization of the voltage-gated potassium channel subunits Kv3.1b and Kv3.3 revealed in the molecular layer of the rat cerebellar cortex by a pre-embedding immunogold method.
Histochem. Cell Biol., 2010 Oct , 134 (403-9).

30

Tong H et al. Regulation of Kv channel expression and neuronal excitability in rat medial nucleus of the trapezoid body maintained in organotypic culture.
J. Physiol. (Lond.), 2010 May 1 , 588 (1451-68).

31

Zagha E et al. Dendritic Kv3.3 potassium channels in cerebellar purkinje cells regulate generation and spatial dynamics of dendritic Ca2+ spikes.
J. Neurophysiol., 2010 Jun , 103 (3516-25).

32

Brooke RE et al. Kv3.3 immunoreactivity in the vestibular nuclear complex of the rat with focus on the medial vestibular nucleus: targeting of Kv3.3 neurones by terminals positive for vesicular glutamate transporter 1.
Brain Res., 2010 Jul 23 , 1345 (45-58).

33

Figueroa KP et al. KCNC3: phenotype, mutations, channel biophysics-a study of 260 familial ataxia patients.
Hum. Mutat., 2010 Feb , 31 (191-6).

34

Mock AF et al. Functional effects of spinocerebellar ataxia type 13 mutations are conserved in zebrafish Kv3.3 channels.
, 2010 Aug 16 , 11 (99).

35

Hurlock EC et al. Rescue of motor coordination by Purkinje cell-targeted restoration of Kv3.3 channels in Kcnc3-null mice requires Kcnc1.
J. Neurosci., 2009 Dec 16 , 29 (15735-44).

36

Sasaki K et al. Febrile seizures: characterization of double-stranded RNA-induced gene expression.
Pediatr. Neurol., 2009 Aug , 41 (114-8).

37

Cutz E et al. The role of NOX2 and "novel oxidases" in airway chemoreceptor O(2) sensing.
Adv. Exp. Med. Biol., 2009 , 648 (427-38).

38

Alonso-Espinaco V et al. Subcellular localization of the voltage-gated potassium channels Kv3.1b and Kv3.3 in the cerebellar dentate nucleus of glutamic acid decarboxylase 67-green fluorescent protein transgenic mice.
Neuroscience, 2008 Sep 9 , 155 (1059-69).

39

Espinosa F et al. Ablation of Kv3.1 and Kv3.3 potassium channels disrupts thalamocortical oscillations in vitro and in vivo.
J. Neurosci., 2008 May 21 , 28 (5570-81).

40

Zagha E et al. Kv3.3 channels at the Purkinje cell soma are necessary for generation of the classical complex spike waveform.
J. Neurosci., 2008 Feb 6 , 28 (1291-300).

41

Schwalbe RA et al. Novel Kv3 glycoforms differentially expressed in adult mammalian brain contain sialylated N-glycans.
Biochem. Cell Biol., 2008 Feb , 86 (21-30).

42

Desai R et al. Protein kinase C modulates inactivation of Kv3.3 channels.
J. Biol. Chem., 2008 Aug 8 , 283 (22283-94).

43

Hurlock EC et al. Purkinje-cell-restricted restoration of Kv3.3 function restores complex spikes and rescues motor coordination in Kcnc3 mutants.
J. Neurosci., 2008 Apr 30 , 28 (4640-8).

44

Waters MF et al. Sca13.
Cerebellum, 2008 , 7 (165-9).

45

Chang SY et al. Distribution of Kv3.3 potassium channel subunits in distinct neuronal populations of mouse brain.
J. Comp. Neurol., 2007 Jun 20 , 502 (953-72).

46

Sacco T et al. Properties and expression of Kv3 channels in cerebellar Purkinje cells.
Mol. Cell. Neurosci., 2006 Oct , 33 (170-9).

47

Fantozzi I et al. Bone morphogenetic protein-2 upregulates expression and function of voltage-gated K+ channels in human pulmonary artery smooth muscle cells.
Am. J. Physiol. Lung Cell Mol. Physiol., 2006 Nov , 291 (L993-1004).

48

Joho RH et al. Kv3 potassium channels control the duration of different arousal states by distinct stochastic and clock-like mechanisms.
Eur. J. Neurosci., 2006 Mar , 23 (1567-74).

49

Mehaffey WH et al. Distribution and function of potassium channels in the electrosensory lateral line lobe of weakly electric apteronotid fish.
J. Comp. Physiol. A Neuroethol. Sens. Neural. Behav. Physiol., 2006 Jun , 192 (637-48).

50

Brooke RE et al. Immunohistochemical localisation of the voltage gated potassium ion channel subunit Kv3.3 in the rat medulla oblongata and thoracic spinal cord.
Brain Res., 2006 Jan 27 , 1070 (101-15).

51

Chen WC et al. Voltage-gated and two-pore-domain potassium channels in murine spiral ganglion neurons.
Hear. Res., 2006 Dec , 222 (89-99).

52

Ordög B et al. Gene expression profiling of human cardiac potassium and sodium channels.
Int. J. Cardiol., 2006 Aug 28 , 111 (386-93).

53

Joho RH et al. Behavioral motor dysfunction in Kv3-type potassium channel-deficient mice.
Genes Brain Behav., 2006 Aug , 5 (472-82).

54

Akemann W et al. Interaction of Kv3 potassium channels and resurgent sodium current influences the rate of spontaneous firing of Purkinje neurons.
J. Neurosci., 2006 Apr 26 , 26 (4602-12).

55

Waters MF et al. Mutations in voltage-gated potassium channel KCNC3 cause degenerative and developmental central nervous system phenotypes.
Nat. Genet., 2006 Apr , 38 (447-51).

56

Shumilina E et al. Deranged Kv channel regulation in fibroblasts from mice lacking the serum and glucocorticoid inducible kinase SGK1.
J. Cell. Physiol., 2005 Jul , 204 (87-98).

57

Deng Q et al. A C-terminal domain directs Kv3.3 channels to dendrites.
J. Neurosci., 2005 Dec 14 , 25 (11531-41).

58

Wang Y et al. Anatomical, physiological and molecular properties of Martinotti cells in the somatosensory cortex of the juvenile rat.
J. Physiol. (Lond.), 2004 Nov 15 , 561 (65-90).

59

McMahon A et al. Allele-dependent changes of olivocerebellar circuit properties in the absence of the voltage-gated potassium channels Kv3.1 and Kv3.3.
Eur. J. Neurosci., 2004 Jun , 19 (3317-27).

60

Brooke RE et al. Kv3 voltage-gated potassium channels regulate neurotransmitter release from mouse motor nerve terminals.
Eur. J. Neurosci., 2004 Dec , 20 (3313-21).

61

Espinosa F et al. Increased motor drive and sleep loss in mice lacking Kv3-type potassium channels.
Genes Brain Behav., 2004 Apr , 3 (90-100).

62

Fernandez FR et al. Inactivation of Kv3.3 potassium channels in heterologous expression systems.
J. Biol. Chem., 2003 Oct 17 , 278 (40890-8).

63

Martina M et al. Properties and functional role of voltage-dependent potassium channels in dendrites of rat cerebellar Purkinje neurons.
J. Neurosci., 2003 Jul 2 , 23 (5698-707).

64

Coma M et al. Impaired voltage-gated K+ channel expression in brain during experimental cancer cachexia.
FEBS Lett., 2003 Feb 11 , 536 (45-50).

65

Matsukawa H et al. Motor dysfunction and altered synaptic transmission at the parallel fiber-Purkinje cell synapse in mice lacking potassium channels Kv3.1 and Kv3.3.
J. Neurosci., 2003 Aug 20 , 23 (7677-84).

66

Jiang B et al. Endogenous Kv channels in human embryonic kidney (HEK-293) cells.
Mol. Cell. Biochem., 2002 Sep , 238 (69-79).

67

Sanchez D et al. Molecular identification of Kvalpha subunits that contribute to the oxygen-sensitive K+ current of chemoreceptor cells of the rabbit carotid body.
J. Physiol. (Lond.), 2002 Jul 15 , 542 (369-82).

68

Espinosa F et al. Alcohol hypersensitivity, increased locomotion, and spontaneous myoclonus in mice lacking the potassium channels Kv3.1 and Kv3.3.
J. Neurosci., 2001 Sep 1 , 21 (6657-65).

69

Patel AJ et al. Molecular physiology of oxygen-sensitive potassium channels.
Eur. Respir. J., 2001 Jul , 18 (221-7).

70

Rashid AJ et al. The contribution of dendritic Kv3 K+ channels to burst threshold in a sensory neuron.
J. Neurosci., 2001 Jan 1 , 21 (125-35).

71

Rashid AJ et al. A prominent soma-dendritic distribution of Kv3.3 K+ channels in electrosensory and cerebellar neurons.
J. Comp. Neurol., 2001 Dec 17 , 441 (234-47).

72

Li W et al. Localization of two high-threshold potassium channel subunits in the rat central auditory system.
J. Comp. Neurol., 2001 Aug 20 , 437 (196-218).

73

Rae JL et al. Kv3.3 potassium channels in lens epithelium and corneal endothelium.
Exp. Eye Res., 2000 Mar , 70 (339-48).

74

Grigg JJ et al. Differential expression of voltage-gated potassium channel genes in auditory nuclei of the mouse brainstem.
Hear. Res., 2000 Feb , 140 (77-90).

75

Xu C et al. Molecular basis of voltage-dependent delayed rectifier K+ channels in smooth muscle cells from rat tail artery.
Life Sci., 2000 Apr 14 , 66 (2023-33).

76

Xu C et al. Expression of voltage-dependent K(+) channel genes in mesenteric artery smooth muscle cells.
Am. J. Physiol., 1999 Nov , 277 (G1055-63).

77

Rudy B et al. Contributions of Kv3 channels to neuronal excitability.
Ann. N. Y. Acad. Sci., 1999 Apr 30 , 868 (304-43).

78

Kálmán K et al. Genomic organization, chromosomal localization, tissue distribution, and biophysical characterization of a novel mammalian Shaker-related voltage-gated potassium channel, Kv1.7.
J. Biol. Chem., 1998 Mar 6 , 273 (5851-7).

79

Ohya S et al. Molecular cloning and tissue distribution of an alternatively spliced variant of an A-type K+ channel alpha-subunit, Kv4.3 in the rat.
FEBS Lett., 1997 Dec 22 , 420 (47-53).

80

Wang D et al. NADPH-oxidase and a hydrogen peroxide-sensitive K+ channel may function as an oxygen sensor complex in airway chemoreceptors and small cell lung carcinoma cell lines.
Proc. Natl. Acad. Sci. U.S.A., 1996 Nov 12 , 93 (13182-7).

81

Weiser M et al. Differential expression of Shaw-related K+ channels in the rat central nervous system.
J. Neurosci., 1994 Mar , 14 (949-72).

82

Goldman-Wohl DS et al. Kv3.3b: a novel Shaw type potassium channel expressed in terminally differentiated cerebellar Purkinje cells and deep cerebellar nuclei.
J. Neurosci., 1994 Feb , 14 (511-22).

83

Haas M et al. Localization of Shaw-related K+ channel genes on mouse and human chromosomes.
Mamm. Genome, 1993 Dec , 4 (711-5).

84

Ghanshani S et al. Genomic organization, nucleotide sequence, and cellular distribution of a Shaw-related potassium channel gene, Kv3.3, and mapping of Kv3.3 and Kv3.4 to human chromosomes 19 and 1.
Genomics, 1992 Feb , 12 (190-6).

85

Vega-Saenz de Miera E et al. Modulation of K+ channels by hydrogen peroxide.
Biochem. Biophys. Res. Commun., 1992 Aug 14 , 186 (1681-7).

86

Vega-Saenz de Miera E et al. Cloning of ShIII (Shaw-like) cDNAs encoding a novel high-voltage-activating, TEA-sensitive, type-A K+ channel.
Proc. Biol. Sci., 1992 Apr 22 , 248 (9-18).