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Membrane Biochemistry Volume 6, 1986 - Issue 2
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Original Article

Single-Channel Recordings from Two Types of Amiloride-Sensitive Epithelial Na+ Channels

Kirk L. Hamilton Department of Physiology, Biophysics University of Texas Medical Branch Galveston, Texas
&
Douglas C. Eaton Department of Physiology, Biophysics University of Texas Medical Branch Galveston, Texas
Pages 149-171 | Published online: 09 Jul 2009

Citations (47)

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Dale J. Benos. (1989) The Biology of Amiloride-Sensitive Sodium Channels. Hospital Practice 24:4, pages 149-164.
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Articles from other publishers (46)

Jermaine G. Johnston, Amanda K. Welch, Brian D. Cain, Peter P. Sayeski, Michelle L. Gumz & Charles S. Wingo. 2011. Comprehensive Physiology. Comprehensive Physiology 4409 4491 .
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Chang Song, Douglas C. Eaton & Lucky Jain. 2022. Encyclopedia of Respiratory Medicine. Encyclopedia of Respiratory Medicine 660 668 .
Bernard C. Rossier, Michael E. Baker & Romain A. Studer. (2015) Epithelial Sodium Transport and Its Control by Aldosterone: The Story of Our Internal Environment Revisited. Physiological Reviews 95:1, pages 297-340.
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Shaohu Sheng, Kenneth R. Hallows & Thomas R. Kleyman. 2013. Seldin and Giebisch's The Kidney. Seldin and Giebisch's The Kidney 983 1017 .
James D. Stockand. 2013. Seldin and Giebisch's The Kidney. Seldin and Giebisch's The Kidney 217 262 .
Arnaud Goolaerts, Jérémie Roux, Michael T. Ganter, Vadim Shlyonsky, Ahmed Chraibi, Renauld Stéphane, Frédérique Mies, Michael A. Matthay, Robert Naeije, Sarah Sariban-Sohraby, Marybeth Howard & Jean-Francois Pittet. (2010) Serotonin Decreases Alveolar Epithelial Fluid Transport via a Direct Inhibition of the Epithelial Sodium Channel. American Journal of Respiratory Cell and Molecular Biology 43:1, pages 99-108.
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Shaohu Sheng, John P. Johnson & Thomas R. Kleyman. 2008. Seldin and Giebisch's The Kidney. Seldin and Giebisch's The Kidney 743 768 .
Ossama B. Kashlan, Shaohu Sheng & Thomas R. Kleyman. (2005) On the Interaction between Amiloride and Its Putative α-Subunit Epithelial Na+ Channel Binding Site. Journal of Biological Chemistry 280:28, pages 26206-26215.
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He-Ping Ma, Otor Al-Khalili, Semra Ramosevac, Sunil Saxena, You-You Liang, David G. Warnock & Douglas C. Eaton. (2004) Steroids and Exogenous γ-ENaC Subunit Modulate Cation Channels Formed by α-ENaC in Human B Lymphocytes. Journal of Biological Chemistry 279:32, pages 33206-33212.
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M. Wegmann & R.M. Nüsing. (2003) Prostaglandin E2 stimulates sodium reabsorption in MDCK C7 cells, a renal collecting duct principal cell model. Prostaglandins, Leukotrienes and Essential Fatty Acids 69:5, pages 315-322.
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Peter M. Snyder. (2002) The Epithelial Na+ Channel: Cell Surface Insertion and Retrieval in Na+ Homeostasis and Hypertension. Endocrine Reviews 23:2, pages 258-275.
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Nazih L. Nakhoul, Kathleen S. Hering-Smith, Solange M. Abdulnour-Nakhoul & L. Lee Hamm. (2001) Ammonium interaction with the epithelial sodium channel. American Journal of Physiology-Renal Physiology 281:3, pages F493-F502.
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Andrea Becchetti, Alexandra E. Kemendy, James D. Stockand, Sarah Sariban-Sohraby & Douglas C. Eaton. (2000) Methylation Increases the Open Probability of the Epithelial Sodium Channel in A6 Epithelia. Journal of Biological Chemistry 275:22, pages 16550-16559.
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A. LazrakA. SamantaS. Matalon. (2000) Biophysical properties and molecular characterization of amiloride-sensitive sodium channels in A549 cells. American Journal of Physiology-Lung Cellular and Molecular Physiology 278:4, pages L848-L857.
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Michel Brouard, Mariano Casado, Sabri Djelidi, Yann Barrandon & Nicolette Farman. (1999) Epithelial sodium channel in human epidermal keratinocytes: expression of its subunits and relation to sodium transport and differentiation. Journal of Cell Science 112:19, pages 3343-3352.
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Lynn M. Baxendale-CoxRandall L. Duncan. (2016) Insulin Increases Sodium (Na+) Channel Density in A6 Epithelia: Implications for Expression of Hypertension. Biological Research For Nursing 1:1, pages 20-29.
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Yoshinori Marunaka, Naomi Niisato, Hugh O'Brodovich & Douglas C. Eaton. (2004) Regulation of an amiloride‐sensitive Na + ‐permeable channel by a β 2 ‐adrenergic agonist, cytosolic Ca 2+ and Cl − in fetal rat alveolar epithelium . The Journal of Physiology 515:3, pages 669-683.
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Sandra Guggino. 1999. Amiloride-Sensitive Sodium Channels - Physiology and Functional Diversity. Amiloride-Sensitive Sodium Channels - Physiology and Functional Diversity 279 294 .
Horacio F. Cantiello. 1999. Amiloride-Sensitive Sodium Channels - Physiology and Functional Diversity. Amiloride-Sensitive Sodium Channels - Physiology and Functional Diversity 177 194 .
E. M. SchwiebertE. D. PotterT. H. HwangJ. S. WooC. DingW. QiuW. B. GugginoM. A. LevineS. E. Guggino. (1997) cGMP stimulates sodium and chloride currents in rat tracheal airway epithelia. American Journal of Physiology-Cell Physiology 272:3, pages C911-C922.
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B. L. Blazer-YostS. I. Helman. (1997) The amiloride-sensitive epithelial Na+ channel: binding sites and channel densities. American Journal of Physiology-Cell Physiology 272:3, pages C761-C769.
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Adriana G. Prat, Eliezer J. Holtzman, Dennis Brown, C. Casey Cunningham, Ignacio L. Reisin, Thomas R. Kleyman, Margaret McLaughlin, George R. JacksonJr.Jr., John Lydon & Horacio F. Cantiello. (1996) Renal Epithelial Protein (Apx) Is an Actin Cytoskeleton-regulated Na+ Channel. Journal of Biological Chemistry 271:30, pages 18045-18053.
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Yoshinori Marunaka. (1996) Amiloride-blockable Ca2+-activated Na+-permeant channels in the fetal distal lung epithelium. Pflügers Archiv European Journal of Physiology 431:5, pages 748-756.
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Pascal Barbry & Michel Lazdunski. 1996. Ion Channels. Ion Channels 115 167 .
Douglas C. Eaton, Andrea Becchetti, Heping Ma & Brian N. Ling. (1995) Renal sodium channels: Regulation and single channel properties. Kidney International 48:4, pages 941-949.
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Marita Granitzer, Irina Mountian & Willy Van Driessche. (1995) Effect of dexamethasone on sodium channel block and densities in A6 cells. Pflügers Archiv 430:4, pages 493-500.
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S. Renard, E. Lingueglia, N. Voilley, M. Lazdunski & P. Barbry. (1994) Biochemical analysis of the membrane topology of the amiloride-sensitive Na+ channel.. Journal of Biological Chemistry 269:17, pages 12981-12986.
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A. G. PratD. A. AusielloH. F. Cantiello. (1993) Vasopressin and protein kinase A activate G protein-sensitive epithelial Na+ channels. American Journal of Physiology-Cell Physiology 265:1, pages C218-C223.
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A. OharaH. MatsunagaD. C. Eaton. (1993) G protein activation inhibits amiloride-blockable highly selective sodium channels in A6 cells. American Journal of Physiology-Cell Physiology 264:2, pages C352-C360.
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Yoshinori Marunaka, Hideoki Tohda, Nobuko Hagiwara & Hugh O'Brodovich. (1992) Cytosolic Ca2+-induced modulation of ion selectivity and amiloride sensitivity of a cation channel and beta agonist action in fetal lung epithelium. Biochemical and Biophysical Research Communications 187:2, pages 648-656.
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James A. Schafer & C. Terrance Hawk. (1992) Regulation of Na+ channels in the cortical collecting duct by AVP and mineralocorticoids. Kidney International 41:2, pages 255-268.
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Dale J. Benos, Sonia Cunningham, R. Randall Baker, K. Beth Beason, Youngsuk Oh & Peter R. Smith. 1982. Reviews of Physiology, Biochemistry and Pharmacology, Volume 94. Reviews of Physiology, Biochemistry and Pharmacology, Volume 94 31 113 .
D. C. Eaton, Y. Marunaka & B. N. Ling. 1992. Membrane Transport in Biology. Membrane Transport in Biology 73 165 .
Catherine Van Renterghem & Michel Lazdunski. (1991) A new non-voltage-dependent, epithelial-like Na+ channel in vascular smooth muscle cells. Pflügers Archiv 419:3-4, pages 401-408.
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Catherine M. Fuller & Dale J. Benos. (1991) The physiology and biochemistry of sodium and chloride permeability pathways in epithelia. The Journal of Nutritional Biochemistry 2:7, pages 348-362.
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Horacio F. Cantiello & Dennis A. Ausiello. 1991. Developmental Biology of Membrane Transport Systems. Developmental Biology of Membrane Transport Systems 395 436 .
Emile L. Boulpaep & Rosemarie Drake-Baumann. 1991. Nephrology. Nephrology 1669 1676 .
Kirk L. Hamilton & Dale J. Benos. (1990) A non-selective cation channel in the apical membrane of cultured A6 kidney cells. Biochimica et Biophysica Acta (BBA) - Biomembranes 1030:1, pages 16-23.
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James L. Rae, Jerry Dewey, Kim Cooper & Peter Gates. (1990) A non-selective cation channel in rabbit corneal endothelium activated by internal calcium and inhibited by internal ATP. Experimental Eye Research 50:4, pages 373-384.
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Y. MarunakaD. C. Eaton. (1990) Chloride channels in the apical membrane of a distal nephron A6 cell line. American Journal of Physiology-Cell Physiology 258:2, pages C352-C368.
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Sandy I. Helman & Neil L. Kizer. 1990. Channels and Noise in Epithelial Tissues. Channels and Noise in Epithelial Tissues 117 155 .
Bernard VERRIER, Guy CHAMPIGNY, Pascal BARBRY, Corinne GERARD, Jean MAUCHAMP & Michel LAZDUNSKI. (2005) Identification and properties of a novel type of Na + ‐permeable amiloride‐sensitive channel in thyroid cells . European Journal of Biochemistry 183:3, pages 499-505.
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L. Joris, M. E. Krouse, G. Hagiwara, C. L. Bell & J. J. Wine. (1989) Patch-clamp study of cultured human sweat duct cells: amiloride-blockable Na+ channel. Pfl�gers Archiv European Journal of Physiology 414:3, pages 369-372.
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P Vigne, G Champigny, R Marsault, P Barbry, C Frelin & M Lazdunski. (1989) A new type of amiloride-sensitive cationic channel in endothelial cells of brain microvessels. Journal of Biological Chemistry 264:13, pages 7663-7668.
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S. Frings, R. D. Purves & A. D. C. Macknight. (1988) Single-channel recordings from the apical membrane of the toad urinary bladder epithelial cell. The Journal of Membrane Biology 106:2, pages 157-172.
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