Erratum: Acid-sensitive two-pore domain potassium (K2P) channels in mouse taste buds (Journal of Neurophysiology (September 2004) 92 (1928-1936) doi:10.1152/jn.00273.2004);Acid-sensitive two-pore domain potassium (K2P) channels in mouse taste buds

Journal of Neurophysiology

Volumn 92, Issue 3, 2004, Pages 1928-1936

  Richter, Trevor A ^a,b   Dvoryanchikov, Gennady A ^a   Chaudhari, Nirupa ^a   Roper, Stephen D ^a  

^a UNIVERSITY OF MIAMI MILLER SCHOOL OF MEDICINE   (United States)

^b OTTAWA HOSPITAL RESEARCH INSTITUTE   (Canada)

Author keywords

[No Author keywords available]

Indexed keywords

4 AMINOPYRIDINE; ACID; ANANDAMIDE; ARACHIDONIC ACID; CALCIUM ION; DYE; HALOTHANE; POTASSIUM CHANNEL; QUINIDINE; QUININE; RILUZOLE;

ANIMAL TISSUE; ARTICLE; CONTROLLED STUDY; GENE SEQUENCE; IMAGING; MOUSE; NONHUMAN; NUCLEOTIDE SEQUENCE; PH; PRIORITY JOURNAL; REVERSE TRANSCRIPTION POLYMERASE CHAIN REACTION; TASTE BUD;

EID: 4143072579     PISSN: 00223077     EISSN: None     Source Type: Journal    
DOI: 10.1152/jn.01078.2004     Document Type: Erratum

References (45)

1. Beatty RM and Cragg LH. The sourness of acids. J Am Chem Soc 57: 2347-2351, 1935.
2. Buckler KJ, Williams BA, and Honore E. An oxygen-, acid- and anaesthetic-sensitive TASK-like background potassium channel in rat arterial chemoreceptor cells. J Physiol 525: 135-142, 2000.
3. Burks CA, Hansen DR, Rao S, Lin W, Kinnamon SC, and Gilbertson TA. Rat taste buds express multiple members of the KCNK family of two-pore domain potassium channels. Chem Senses 28: A75, 2003.
4. 2+ imaging reveals neurotransmitter receptors for glutamate in taste receptor cells. J Neurosci 20: 7978-7985, 2000.
5. Caicedo A, Kim KN, and Roper SD. Individual mouse taste cells respond to multiple chemical stimuli. J Physiol 544: 501-509, 2002.
6. Caicedo A and Roper SD. Taste receptor cells that discriminate between bitter stimuli. Science 291: 1557-1560, 2001.
7. Cao YJ, Dreixler JC, Couey JJ, and Houamed KM. Modulation of recombinant and native neuronal SK channels by the neuroprotective drug riluzole. Eur J Pharmacol 449: 47-54, 2002.
8. Chavez RA, Gray AT, Zhao BB, Kindler CH, Mazurek MJ, Mehta Y, Forsayeth JR, and Yost CS. TWIK-2, a new weak inward rectifying member of the tandem pore domain potassium channel family. J Biol Chem 274: 7887-7892, 1999.
9. + channels in Necturus taste cells. Modulation by intracellular factors and taste stimuli. J Gen Physiol 99: 591-613, 1992.
10. Duprat F, Lesage F, Patel AJ, Fink M, Romey G, and Lazdunski M. The neuroprotective agent riluzole activates the two P domain K(+) channels TREK-1 and TRAAK. Mol Pharmacol 57: 906-912, 2000.
11. Gilbertson DM and Gilbertson TA. Amiloride reduces the aversiveness of acids in preference tests. Physiol Behav 56: 649-654, 1994.
12. Gilbertson TA, Avenet P, Kinnamon SC, and Roper SD. Proton currents through amiloride-sensitive Na channels in hamster taste cells. Role in acid transduction. J Gen Physiol 100: 803-824, 1992.
13. + channels in isolated hamster taste cells: enhancement by vasopressin and cAMP. Neuron 10: 931-942, 1993.
14. Goldstein SA, Bockenhauer D, O'Kelly I, and Zilberberg N. Potassium leak channels and the KCNK family of two-P-domain subunits. Nat Rev Neurosci 2: 175-184, 2001.
15. i in cell ensembles: application to the study of glutamate taste in mice. Biophys J 71: 1057-1070, 1996.
16. Kamatchi GL, Chan CK, Snutch T, Durieux ME, and Lynch C 3rd. Volatile anesthetic inhibition of neuronal Ca channel currents expressed in Xenopus oocytes. Brain Res 831: 85-96, 1999.
17. Kim Y, Bang H, and Kim D. TBAK-1 and TASK-1, two-pore K(+) channel subunits: kinetic properties and expression in rat heart. Am J Physiol Heart Circ Physiol. 277: H1669-H1678, 1999.
18. Kim Y, Bang H, and Kim D. TASK-3, a new member of the tandem pore K(+) channel family. J Biol Chem 275: 9340-9347, 2000.
19. Kinnamon SC, Price MP, Stone LM, Lin W, and Welsh MJ. The acid sensing ion channel BNC1 is not required for sour taste transduction. Int Symp Olfact Taste XIII: 80, 2000.
20. Kinnamon SC and Roper SD. Membrane properties of isolated mudpuppy taste cells. J Gen Physiol 91: 351-371, 1988.
21. Lesage F. Pharmacology of neuronal background potassium channels. Neuropharmacology 44: 1-7, 2003.
22. + channel with a novel structure. EMBO J 15: 1004-1011, 1996.
23. Lesage F and Lazdunski M. Molecular and functional properties of two-pore-domain potassium channels. Am J Physiol Renal Physiol 279: F793-F801, 2000.
24. + channel with multiple regulations by poly-unsaturated fatty acids, lysophospholipids, and Gs, Gi, and Gq protein-coupled receptors. J Biol Chem 275: 28398-28405, 2000.
25. Lin W, Ogura T, and Kinnamon SC. Acid-activated cation currents in rat vallate taste receptor cells. J Neurophysiol 88: 133-141, 2002.
26. + channels in rat taste cells. Chem Senses 27: A77, 2002.
27. Liu L and Simon SA. Acidic stimuli activates two distinct pathways in taste receptor cells from rat fungiform papillae. Brain Res 923: 58-70, 2001.
28. + exchanger (NHE-1) in rat taste receptor cells is involved in neural adaptation to acidic stimuli. J Physiol [Epub ahead of print] Jan 14 as 10.1113/jphysiol.2003.057745, 2004.
29. Lyall V, Alam RI, Phan DQ, Ereso GL, Phan TH, Malik SA, Montrose MH, Chu S, Heck GL, Feldman GM, and DeSimone JA. Decrease in rat taste receptor cell intracellular pH is the proximate stimulus in sour taste transduction. Am J Physiol Cell Physiol 281: C1005-C1013, 2001.
30. Maingret F, Patel AJ, Lazdunski M, and Honore E. The endocannabinoid anandamide is a direct and selective blocker of the background K(+) channel TASK-1. EMBO J 20: 47-54, 2001.
31. Maingret F, Patel AJ, Lesage F, Lazdunski M, and Honore E. Mechano- or acid stimulation, two interactive modes of activation of the TREK-1 potassium channel. J Biol Chem 274: 26691-26696, 1999.
32. Maingret F, Patel AJ, Lesage F, Lazdunski M, and Honore E. Lysophospholipids open the two-pore domain mechano-gated K(+) channels TREK-1 and TRAAK. J Biol Chem 275: 10128-10133, 2000.
33. Miyamoto T, Fujiyama R, Okada Y, and Sato T. Acid and salt responses in mouse taste cells. Prog Neurobiol 62: 135-157, 2000.
34. + channels. Anesthesiology 95: 1013-1021, 2001.
35. + channels. Nat Neurosci 2: 422-426, 1999.
36. 2+ and pH responses in mouse taste cells. J Physiol 547: 475-483, 2003a.
37. Richter TA, Dvorianchikov G, Chaudhari N, and Roper SD. ASIC2 is not necessary for sour taste in mice. J Neurosci 24: 4088-4091, 2004.
38. Richter TA, Pereira E, and Roper SD. Acid-induced calcium responses in murine taste cells. Chem Senses 28: A82-A83, 2003b.
39. + channel, TRESK, is localized in the spinal cord. J Biol Chem 278: 27406-27412, 2003.
40. Sirois JE, Pancrazio JJ, Lynch C, and Bayliss DA. Multiple ionic mechanisms mediate inhibition of rat motoneurones by inhalation anaesthetics. J Physiol 512: 851-862, 1998.
41. Stevens DR, Seifert R, Bufe B, Muller F, Kremmer E, Gauss R, Meyerhof W, Kaupp UB, and Lindemann B. Hyperpolarization-activated channels HCN1 and HCN4 mediate responses to sour stimuli. Nature 413: 631-635, 2001.
42. Talley EM, Sirois JE, Lei Q, and Bayliss DA. Two-pore-domain (KCNK) potassium channels: dynamic roles in neuronal function. Neuroscientist 9: 46-56, 2003.
43. Terrenoire C, Lauritzen I, Lesage F, Romey G, and Lazdunski M. A TREK-1-like potassium channel in atrial cells inhibited by beta-adrenergic stimulation and activated by volatile anesthetics. Circ Res 89: 336-342, 2001.
44. Ugawa S, Minami Y, Guo W, Saishin Y, Takatsuji K, Yamamoto T, Tohyama M, and Shimada S. Receptor that leaves a sour taste in the mouth. Nature 395: 555-556, 1998.
45. Ugawa S, Yamamoto T, Ueda T, Ishida Y, Inagaki A, Nishigaki M, and Shimada S. Amiloride-insensitive currents of the acid-sensing ion channel-2a (ASIC-2a)/ASIC-2b heteromeric sour-taste receptor channel. J Neurosci 23: 3616-3622, 2003.