K2p3.1
(KCNK3,
TASK-1,
TBAK-1,
OAT1)
K2p3.1
(KCNK3,
TASK-1,
TBAK-1,
OAT1)
K2p3.1
(KCNK3,
TASK-1,
TBAK-1,
OAT1)
K2p3.1
(KCNK3,
TASK-1,
TBAK-1,
OAT1)
K2p3.1
(KCNK3,
TASK-1,
TBAK-1,
OAT1)
K2p3.1
(KCNK3,
TASK-1,
TBAK-1,
OAT1)
K2p3.1
(KCNK3,
TASK-1,
TBAK-1,
OAT1)
|
 Duprat F., Lesage F., Fink
M., Reyes R., Heurteaux C. & Lazdunski M. (1997).
"TASK, a human background K+ channel to sense external pH variations."
EMBO J. 16(17): 5464-5471.
Leonoudakis D, Gray AT, Winegar
BD, Kindler CH, Harada M, Taylor DM, Chavez RA, Forsayeth JR & Yost
CS. (1998).
“An open rectifier potassium channel with two pore domains in tandem
cloned from rat cerebellum.” J Neurosci 18(3): 868-877.
Kim D, Fujita A, Horio Y &
Kurachi Y (1998).
“Cloning and functional expression of a novel cardiac two-pore background
K+ channel (cTBAK-1).” Circ Res 82(4): 513-518.
Lesage F & Lazdunski M.
(1998).
"Mapping of human potassium channel genes TREK-1 (KCNK2) and TASK (KCNK3)
to chromosomes 1q41 and 2p23." Genomics 51(3): 478-479.
Fujita A, Horio Y, Copeland
NG, Gilbert DJ, Jenkins NA & Kurachi Y. (1998).
“Assignment of mouse cardiac two-pore background K+ channel gene
(Kcnk4) to the proximal region of mouse chromosome 5.” Genomics 54(1):
183-184.
Note: mouse Kcnk4 is equivalent to human KCNK3
Kindler CH, Yost CS &
Gray AT. (1999)
" Local anesthetic inhibition of baseline potassium channels with two
pore domains in tandem." Anesthesiology. 90(4): 1092-1102.
Kim Y, Bang H & Kim D.
(1999).
“TBAK-1 and TASK-1, two-pore K(+) channel subunits: kinetic properties
and expression in rat heart.” Am J Physiol 277(5 Pt 2): H1669-H1678.
Manjunath NA, Bray-Ward P,
Goldstein SA & Gallagher PG (1999)
"Assignment of the 2P domain, acid-sensitive potassium channel OAT1 gene
KCNK3 to human chromosome bands 2p24.1-->p23.3 and murine 5B by in
situ hybridization", Cytogenet Cell Genet 86(3-4): 242-243.
Millar JA, Barratt L, Southan
AP, Page KM, Fyffe RE, Robertson B & Mathie A. (2000)
"A functional role for the two-pore domain potassium channel TASK-1 in
cerebellar granule neurons." Proc Natl Acad Sci U S A. 97(7): 3614-3618.
Czirjak G, Fischer T, Spat
A, Lesage F & Enyedi P (2000)
"TASK (TWIK-related acid-sensitive K+ channel) is expressed in glomerulosa
cells of rat adrenal cortex and inhibited by angiotensin II." Mol Endocrinol.
14(6): 863-874.
Lopes CM, Gallagher PG, Buck
ME, Butler MH & Goldstein SA. (2000)
"Proton block and voltage gating are potassium-dependent in the cardiac
leak channel Kcnk3." J Biol Chem. 275(22): 16969-16978.
Talley EM, Lei Q, Sirois JE
& Bayliss DA. (2000).
“TASK-1, a two-pore domain K+ channel, is modulated by multiple neurotransmitters
in motoneurons.” Neuron 25(2): 399-410.
Sirois JE, Lei Q, Talley EM,
Lynch C 3rd & Bayliss DA. (2000).
“The TASK-1 two-pore domain K+ channel is a molecular substrate for
neuronal effects of inhalation anesthetics.” J Neurosci 20(17): 6347-6354.
Kindler CH, Pietruck C, Yost
CS, Sampson ER & Gray AT. (2000).
“Localization of the tandem pore domain K+ channel TASK-1 in the
rat central nervous system” Brain Res Mol Brain Res 80(1): 99-108.
Maingret F, Patel AJ, Lazdunski
M & Honore E. (2001)
"The endocannabinoid anandamide is a direct and selective blocker of the
background K(+) channel TASK-1." EMBO J. 20(1 & 2): 47-54.
Lopes CM, Zilberberg N, Goldstein
SA. (2001)
"Block of Kcnk3 by protons: evidence that 2-P-domain potassium channel
subunits function as homodimers." J. Biol. Chem. 276(27): 24449-24452
Czirjak G, Petheo GL, Spat
A & Enyedi P (2001)
"Inhibition of TASK-1 potassium channel by phospholipase C" Am J Physiol
Cell Physiol 281: 700-708.
Lewis A, Hartness ME, Chapman
CG, Fearon IM, Meadows HJ, Peers C & Kemp PJ. (2001)
"Recombinant hTASK1 Is an O(2)-Sensitive K(+) Channel." Biochem Biophys
Res Commun. 285(5): 1290-1294.
Karschin C, Wischmeyer E, Preisig-Muller
R, Rajan S, Derst C, Grzeschik KH, Daut J & Karschin A (2001)
"Expression Pattern in Brain of TASK-1, TASK-3, and a Tandem
Pore Domain K(+) Channel Subunit, TASK-5, Associated with the Central
Auditory Nervous System." Mol Cell Neurosci 18(6): 632-648.
Czirjak G & Enyedi P (2002)
"Formation of functional heterodimers between the TASK-1 and TASK-3 two
pore domain potassium channel subunits" J. Biol. Chem. 277(7): 5426-5432.
Washburn CP, Sirois JE, Talley
EM, Guyenet PG & Bayliss DA (2002)
"Serotonergic Raphe Neurons Express TASK Channel Transcripts and
a TASK-Like pH- and Halothane-Sensitive K+ Conductance." J. Neurosci.
22: 1256-1265.
Gurney AM, Osipenko
ON, MacMillan D & Kempsill FE. (2002)
"Potassium channels underlying the resting potential of pulmonary
artery smooth muscle cells." Clin Exp Pharmacol Physiol. 29(4): 330-333.
Niemeyer MI, Stutzin A &
Sepulveda FV. (2002)
"A voltage-independent K(+) conductance activated by cell swelling
in Ehrlich cells is modulated by a G-protein-mediated process." Biochim
Biophys Acta. 1562(1-2): 1-5.
Barbuti A, Ishii
S, Shimizu T, Robinson RB & Feinmark SJ. (2002)
"Block of the background K(+) channel TASK-1 contributes to arrhythmogenic
effects of platelet-activating factor." Am J Physiol Heart Circ Physiol.
282(6): H2024-H2030.
Jones
SA, Morton MJ, Hunter M & Boyett MR (2002)
"Expression of TASK-1, a pH-sensitive twin-pore domain K(+) channel,
in rat myocytes." Am J Physiol Heart Circ Physiol.283(1): H181-185.
Talley EM &
Bayliss DA. (2002)
"Modulation of TASK-1 (Kcnk3) and TASK-3 (Kcnk9) potassium channels:
volatile anesthetics and neurotransmitters share a molecular site of action."
J Biol Chem. 277(20): 17733-17742.
Girard
C, Tinel N, Terrenoire C, Romey G, Lazdunski M & Borsotto M. (2002)
"p11, an annexin II subunit, an auxiliary protein associated with
the background K(+) channel, TASK-1." EMBO J. 21(17): 4439-4448.
Plant
LD, Kemp PJ, Peers C, Henderson Z & Pearson HA. (2002)
"Hypoxic Depolarization of Cerebellar Granule Neurons by Specific
Inhibition of TASK-1." Stroke. 33(9): 2324-2328.
C. Derst, G. Liu, B. Musset, S. Rajan, R. Preisig Muller, and J. Daut
(2002)
"Sensitivity of TASK Channels to Extracellular Divalent Cations."
Biophys. J. (Annual Meeting Abstracts): 636b.
Yamamoto
Y, Kummer W, Atoji Y, Suzuki Y. (2002)
"TASK-1, TASK-2, TASK-3 and TRAAK immunoreactivities in the rat carotid
body." Brain Res. 950(1-2): 304-307.
Rajan
S, Preisig-Muller R, Wischmeyer E, Nehring R, Hanley PJ, Renigunta V,
Musset B, Schlichthorl G, Derst C, Karschin A, Daut J. (2002)
"Interaction with 14-3-3 proteins promotes functional expression
of the potassium channels TASK-1 and TASK-3." J Physiol. 545(Pt 1):
13-26.
O'Kelly
I, Butler MH, Zilberberg N, Goldstein SA (2002)
"Forward transport. 14-3-3 binding overcomes retention in endoplasmic
reticulum by dibasic signals." Cell 111(4): 577-588.
Morton
MJ, O'Connell AD, Sivaprasadarao A, & Hunter M. (2003)
"Determinants of pH sensing in the two-pore domain K(+) channels
TASK-1 and -2." Pflugers Arch. 445(5): 577-583.
Perrier
JF, Alaburda A & Hounsgaard J. (2003)
"5-HT1A receptors increase excitability of spinal motoneurons by
inhibiting a TASK-1-like K+ current in the adult turtle." J Physiol.
548(Pt 2): 485-492.
Hajdu
P, Ulens C, Panyi G & Tytgat J (2003)
"Drug- and mutagenesis-induced changes in the selectivity filter
of a cardiac two-pore background K(+) channel." Cardiovasc Res. 58(1):
46-54.
Lauritzen
I, Zanzouri M, Honoré E, Duprat F, Ehrengruber MU, Lazdunski M & Patel
AJ (2003)
"K+-dependent cerebellar granule neuron apoptosis : Role of TASK
leak K+ channels." J Biol Chem 278(34): 32068-32076.
Meuthw
SG, Budde T, Kanyshkova T, Broicher T, Munsch T & Pape HC (2003)
"Contribution of TWIK-related acid-sensitive K+ channel 1 (TASK1)
and TASK3 channels to the control of activity modes in thalamocortical
neurons." J Neurosci. 23(16): 6460-6469.
Fearon
IM, Zhang M, Vollmer C & Nurse CA (2003)
"GABA mediates autoreceptor feedback inhibition in the rat carotid
body via presynaptic GABAB receptors and TASK-1" J Physiol 553(Pt
1): 83-94.
Washburn
CP, Bayliss DA & Guyenet PG (2003)
"Cardiorespiratory neurons of the rat ventrolateral medulla contain
TASK-1 and TASK-3 channel mRNA." Respir Physiol Neurobiol 138(1):
19-35.
Chemin
J, Girard C, Duprat F, Lesage F, Romey G & Lazdunski M (2003)
"Mechanisms underlying excitatory effects of group I metabotropic
glutamate receptors via inhibition of 2P domain K(+) channels." EMBO
J. 22(20): 5403-5411.
Gurney
AM, Osipenko ON, MacMillan D, McFarlane KM, Tate RJ & Kempsill FE
(2003)
"Two-Pore Domain K Channel, TASK-1, in Pulmonary Artery Smooth Muscle
Cells." Circ Res 93(10): 957-964.
Johnson
RP, O'Kelly IM & Fearon IM (2003)
"System-specific O2-sensitivity of the tandem-pore-domain K+ channel
TASK-1." Am J Physiol Cell Physiol 286(2): C391-C397.
Yamamoto Y & Taniguchi K (2003)
"Heterogeneous expression of TASK-3 and TRAAK in rat paraganglionic
cells." Histochem Cell Biol 120(4): 335-339.
Kang
D, Han J, Talley EM, Bayliss DA & Kim D (2004)
"Functional Expression of TASK-1/TASK-3 Heteromers in Cerebellar
Granule Cells." J Physiol 554(1): 64-77.
Yuill
K, Ashmole I & Stanfield PR (2004)
"The selectivity filter of the tandem pore potassium channel TASK-1
and its pH-sensitivity and ionic selectivity." Pflugers Arch. 448(1):
63-69.
Gruss
M, Bushell TJ, Bright DP, Lieb WR, Mathie A & Franks NP (2004)
"Two-pore-domain k+ channels are a novel target for the anesthetic
gases xenon, nitrous oxide, and cyclopropane." Mol Pharmacol. 65(2):
443-452.
Baumann
TK, Chaudhary P & Martenson ME (2004)
"Background potassium channel block and TRPV1 activation contribute
to proton depolarization of sensory neurons from humans with neuropathic
pain." Eur J Neurosci 19(5): 1343-1351.
Hsu
K, Seharaseyon J, Dong P, Bour S & Marban E (2004)
"Mutual Functional Destruction of HIV-1 Vpu and Host TASK-1 Channel."
Mol Cell. 14(2): 259-267.
Kanjhan R, Balke CL, Housley GD, Bellingham MC & Noakes PG (2004)
"Developmental expression of two-pore domain K+ channels, TASK-1
and TREK-1, in the rat cochlea." Neuroreport 15(3): 437-441.
Kemp PJ, Peers C, Lewis A & Miller P (2004)
"Regulation of recombinant human brain tandem P domain K(+) channels
by hypoxia: a role for O(2) in the control of neuronal excitability ?"
J Cell Mol Med. 8(1): 38-44.
Spat
A (2004)
"Glomerulosa cell-a unique sensor of extracellular K(+) concentration."
Mol Cell Endocrinol 217(1-2): 23-26.
Besana
A, Barbuti A, Tateyama MA, Symes AJ, Robinson RB & Feinmark SJ (2004)
"Activation of PKCepsilon inhibits the two-pore domain K+ channel,
task-1, inducing repolarization abnormalities in cardiac ventricular myocytes."
J Biol Chem 279(32): 33154-33160.
Berg
AP, Talley EM, Manger JP & Bayliss DA (2004)
"Motoneurons express heteromeric TWIK-related acid-sensitive K+ (TASK)
channels containing TASK-1 (KCNK3) and TASK-3 (KCNK9) subunits."
J. Neurosci. 24(30): 6693-6702.
Richter
TA, Dvoryanchikov GA, Chaudhari N & Roper SD (2004)
"Acid-sensitive two-pore domain potassium (K2P) channels in mouse
taste buds." J Neurophysiol 92(3):1928-1936.
O'connell
AD, Morton MJ, Sivaprasadarao A & Hunter M (2004)
"Selectivity and interactions of Ba2+ and Cs+ with wild type and
mutant TASK1 K+ channels expressed in Xenopus oocytes." J Physiol
562(Pt 3): 687-696.
Bai
X, Greenwood SL, Glazier JD, Baker PN, Sibley CP, Taggart MJ & Fyfe
GK (2005)
"Localization of TASK and TREK, two-pore domain K+ channels, in human
cytotrophoblast cells." J Soc Gynecol Investig. 12(2): 77-83.
Cho
SY, Beckett EA, Baker SA, Han I, Park KJ, Monaghan K, Ward SM, Sanders
KM & Koh SD (2005)
"A pH-sensitive potassium conductance (TASK) and its function in
the murine gastrointestinal tract." J Physiol. 565(Pt 1): 243-259
Lopes
CM, Rohacs T, Czirjak G, Balla T, Enyedi P & Logothetis DE (2005)
"PIP2-hydrolysis underlies agonist-induced inhibition and regulates
voltage-gating of 2P domain K+ channels". J Physiol 564(Pt 1): 117-129.
Gurney
AM & Hunter E (2005)
" The use of small interfering RNA to elucidate the activity and
function of ion channel genes in an intact tissue." J Pharmacol Toxicol
Methods 51(3): 253-262.
Hopwood
SE, & Trapp S (2005)
"TASK-like K+channels mediate effects of 5-HT and extracellular pH
in rat dorsal vagal neurones in vitro."
J Physiol 568(Pt 1): 145-154.
Lee
YM, Kim BJ, Chun YS, So I, Choi H, Kim MS, & Park JW (2005)
"NOX4 as an oxygen sensor to regulate TASK-1 activity."
Cell Signal 18(4): 499-507.
Taverna S, Tkatch
T, Metz AE, & Martina M (2005)
"Differential expression of TASK channels between horizontal interneurons
and pyramidal cells of rat hippocampus." J Neurosci 25(40): 9162-9170.
Skatchkov
SN, Eaton MJ, Shuba YM, Kucheryavykh YV, Derst C, Veh RW, Wurm A, Iandiev
I, Pannicke T, Bringmann A, & Reichenbach A. (2005)
"Tandem-pore domain potassium channels are functionally expressed
in retinal (Muller) glial cells." Glia. 53(3): 266-276.
Lang
F, Foller M, Lang KS, Lang PA, Ritter M, Gulbins E, Vereninov A, &
Huber SM. (2005)
"Ion channels in cell proliferation and apoptotic cell death."
J Membr Biol.205(3): 147-157.
Aller
MI, Veale EL, Linden AM, Sandu C, Schwaninger M, Evans LJ, Korpi ER, Mathie
A, Wisden W, & Brickley SG (2005)
"Modifying the subunit composition of TASK channels alters the modulation
of a leak conductance in cerebellar granule neurons." J Neurosci.
25(49): 11455-11467.
Kunzelmann
K (2005)
"Ion channels and cancer." J Membr Biol. 205(3): 159-173.
Linden
AM, Aller MI, Leppa E, Vekovischeva OY, Aitta-Aho T, Veale EL, Mathie
A, Rosenberg P, Wisden W, & Korpi ER (2006)
"The in vivo contributions of TASK-1-containing channels to the actions
of inhalation anesthetics, the {alpha}2 adrenergic sedative dexmedetomidine
and cannabinoid agonists." J Pharmacol Exp Ther. 317(2): 615-626.
Meuth
SG, Aller IM, Munsch T, Schuhmacher T, Scheidenbecher T, Meuth P, Kleinschnitz
C, Pape HC, Wiendl H, Wisden W, & Budde T. (2006)
"The contribution of TASK-1-containing channels to the function of
dorsal lateral geniculate thalamocortical relay neurons." Mol Pharmacol.
69(4): 1468-1476.
Renigunta V, Yuan H, Zuzarte M, Rinne S, Koch A, Wischmeyer E, Schlichthorl
G, Gao Y, Karschin A, Jacob R, Schwappach B, Daut J, & Preisig-Muller
R. (2006)
"The Retention Factor p11 Confers an Endoplasmic Reticulum-Localization
Signal to the Potassium Channel TASK-1." Traffic 7(2): 168-181.
Cotten JF, Keshavaprasad B, Laster MJ, Eger EI 2nd, & Yost CS (2006)
"The ventilatory stimulant doxapram inhibits TASK tandem pore (K2P)
potassium channel function but does not affect minimum alveolar anesthetic
concentration." Anesth Analg. 102(3): 779-785.
Chen X, Talley
EM, Patel N, Gomis A, McIntire WE, Dong B, Viana F, Garrison JC, &
Bayliss DA (2006)
"Inhibition of a background potassium channel by Gq protein {alpha}-subunits."
Proc Natl Acad Sci U S A. 103(9): 3422-3427.
Olschewski
A, Li Y, Tang B, Hanze J, Eul B, Bohle RM, Wilhelm J, Morty RE, Brau ME,
Weir EK, Kwapiszewska G, Klepetko W, Seeger W, & Olschewski H. (2006)
"Impact of TASK-1 in Human Pulmonary Artery Smooth Muscle Cells."
Circ Res. 98(8): 1072-1080.
Bieger
D, Parai K, Ford CA, & Tabrizchi R. (2006)
"beta-Adrenoceptor mediated responses in rat pulmonary artery: putative
role of TASK-1 related K channels." Naunyn Schmiedebergs Arch Pharmacol.
Apr 25; [Epub ahead of print]
Wechselberger
M, Wright CL, Bishop GA, & Boulant JA. (2006)
"Ionic Channels and Conductance Based Models for Hypothalamic Neuronal
Thermosensitivity." Am J Physiol Regul Integr Comp Physiol. May 11;
[Epub ahead of print]
Burdakov
D, Jensen LT, Alexopoulos H, Williams RH, Fearon IM, O'kelly I, Gerasimenko
O, Fugger L, & Verkhratsky (2006)
"Tandem-pore k(+) channels mediate inhibition of orexin neurons by
glucose." Neuron 50(5): 711-722.
|
