Electrophysiological Studies of Sodium Cotransport in Epithelia: Toward a Cellular Model a
1985; Wiley; Volume: 456; Issue: 1 Linguagem: Inglês
10.1111/j.1749-6632.1985.tb14857.x
ISSN1749-6632
AutoresStanley G. Schultz, Randall L. Hudson, Jean‐Yves Lapointe,
Tópico(s)Neuroscience and Neural Engineering
ResumoAnnals of the New York Academy of SciencesVolume 456, Issue 1 p. 127-135 Electrophysiological Studies of Sodium Cotransport in Epithelia: Toward a Cellular Modela STANLEY G. SCHULTZ, STANLEY G. SCHULTZ Department of Physiology and Cell Biology University of Texas Medical School Houston, Texas 77225Search for more papers by this authorRANDALL L. HUDSON, RANDALL L. HUDSON Department of Physiology and Cell Biology University of Texas Medical School Houston, Texas 77225Search for more papers by this authorJEAN-YVES LAPOINTE, JEAN-YVES LAPOINTE Department of Physiology and Cell Biology University of Texas Medical School Houston, Texas 77225Search for more papers by this author STANLEY G. SCHULTZ, STANLEY G. SCHULTZ Department of Physiology and Cell Biology University of Texas Medical School Houston, Texas 77225Search for more papers by this authorRANDALL L. HUDSON, RANDALL L. HUDSON Department of Physiology and Cell Biology University of Texas Medical School Houston, Texas 77225Search for more papers by this authorJEAN-YVES LAPOINTE, JEAN-YVES LAPOINTE Department of Physiology and Cell Biology University of Texas Medical School Houston, Texas 77225Search for more papers by this author First published: November 1985 https://doi.org/10.1111/j.1749-6632.1985.tb14857.xCitations: 18 a Supported by a research grant from the NIH-NIADDK (AM-26609). Dr. Lapointe is supported by a postdoctoral research fellowship from the Medical Research Council of Canada. AboutPDF ToolsRequest permissionExport citationAdd to favoritesTrack citation ShareShare Give accessShare full text accessShare full-text accessPlease review our Terms and Conditions of Use and check box below to share full-text version of article.I have read and accept the Wiley Online Library Terms and Conditions of UseShareable LinkUse the link below to share a full-text version of this article with your friends and colleagues. Learn more.Copy URL Share a linkShare onEmailFacebookTwitterLinkedInRedditWechat References 1 Crane, R. K., D. Miller & I. Bihler 1961. The restrictions on possible mechanisms of intestinal active transport of sugars. In Membrane Transport and Metabolism. A. Kleinzeller & A. Kotyk, Eds. Academic Press. London , pp. 439–449. 2 Bihler, I. & R. K. Crane 1962. Studies on the mechanism of the intestinal absorption of sugars. V. The influence of several cations and anions on the active transport of sugars, in vitro, by various preparations of hamster small intestine. Biochim. Biophys. Acta 59: 78–93. 3 Bihler, I., K. A. Hawkins & R. K. Crane 1962. Studies on the mechanism of intestinal absorption of sugars. VI. The specificity and other properties of Na+-dependent entrance of sugars into intestinal tissue under anaerobic conditions in vitro. Biochim. Biophys. Acta 59: 94–102. 4 Crane, R. K. 1962. Hypothesis for mechanism of intestinal active transport of sugars. Fed. Proc. 21: 891–895. 5 Schultz, S. G. & R. Zalusky 1963. The interaction between active sodium transport and active sugar transport in the isolated rabbit ileum. Biochim. Biophys. Acta 71: 503–505. 6 Schultz, S. G. & R. Zalusky 1964. Ion transport in isolated rabbit ileum II. The interaction between active sodium and active sugar transport. J. Gen. Physiol. 47: 1043–1059. 7 Schultz, S. G. & R. Zalusky 1965. Interactions between active sodium transport and active amino-acid transport in isolated rabbit ileum. Nature (London) 204: 292–294. 8 Schultz, S. G. & P. F. Curran 1970. Coupled transport of sodium and organic solutes. Physiol. Rev. 50: 637–718. 9 Schultz, S. G. 1978. Ion-coupled transport across biological membranes. In Physiology of Membrane Disorders. T. E. Andreoli & J. F. Hoffman & D. D. Fanestil, Eds. Plenum. New York . pp. 273–286. 10 Rose, R. C. 1971. Studies on the electrical potential profile across rabbit ileum: Effects of sugars and amino acids on transmural and transmucosal electrical potential differences. J. Gen. Physiol. 57: 639–663. 11 White, J. F. & W. Armstrong 1971. Effect of transported solutes on membrane potentials in bullfrog small intestine. Am. J. Physiol. 221: 194–201. 12 Gunter-Smith, P., E. Grasset & S. G. Schultz 1982. Sodium-coupled amino acid and sugar transport by Necturus small intestine. An equivalent electrical circuit analysis of a rheogenic cotransport system. J. Membr. Biol. 66: 25–39. 13 Frömter, E. 1982. Electrophysiological analysis of rat renal sugar and amino-acid transport I. Basic principles. Pfluger's Arch. 393: 179–189. 14 Grasset, E., P. Gunter-Smith & S. G. Schultz 1983. Effects of Na-coupled alanine transport on intracellular K activities and the K conductance of the basolateral membranes of Necturus small intestine. J. Membr. Biol. 71: 89–94. 15 Lau, K. R., R. L. Hudson & S. G. Schultz 1984. Cell swelling induces a barium- inhibitable potassium conductance in the basolateral membrane of Necturus small intestine. Proc. Natl. Acad. Sci. USA 81: 3591–3594. 16 Latorre, R. & C. Miller 1983. Conduction and selectivity in potassium channels. J. Membr. Biol. 71: 11–30. 17 Schwarz, W. & H. Passow 1983. Ca2+-activated K+ channels in erythrocytes and excitable cells. Ann. Rev. Physiol Physiol: 359–374. 18 Schultz, S. G. 1977. Sodium-coupled solute transport by small intestine: A status report. Am. J. Physiol. 233(4): E249–E254. 19 Schultz, S. G. 1981. Homocellular regulatory mechanisms in sodium-transporting epithelia: Avoidance of extinction by “flush-through.” Am. J. Physiol. 241: F579–F590. 20 Dellasega, M. & J. J. Grantham 1973. Regulation of renal tubule cell volume in hypotonic media. Am. J. Physiol. 224: 1288–1294. 21 Foskett, J. K. & K. R. Spring 1985. Involvement of calcium and cytoskeleton in gallbladder epithelial cell volume regulation. Am. J. Physiol. 248: C27–C36. 22 Davis, C. W. & A. L. Finn 1982. Sodium transport inhibition by amiloride reduces basolateral membrane potassium conductance in tight epithelia. Science 216: 525–527. 23 Macknight, A. D. C. & A. Leaf 1977. Regulation of cell volume. Physiol. Rev. 57: 510–573. 24 Hoffmann, E. K. Control of cell volume. In Transport of Ions and Water in Animal Cells. B. L. Gupta & R. G. Moreton & J. L. Oschman & B. J. Wall, Eds. Chapter 12. Academic Press. London , pp. 285–332. 25 Hoffmann, E. K., L. O. Simonsen & I. H. Lambert 1984. Volume-induced increase of K+ and Cl- permeabilities in Ehrlich ascites tumor cells. Role of internal Ca2+. J. Membr. Biol. 78: 211–222. 26 Sarkadi, B., E. Mack & A. Rothstein 1984. Ionic events during the volume response of human peripheral blood lymphocytes to hypotonic media. I. Distinctions between volume-activated Cl and K conductance pathways. J. Gen. Physiol. 83: 497–512. 27 Schultz, S. G., R. E. Fuisz & P. F. Curran 1966. Amino acid and sugar transport in rabbit ileum. J. Gen. Physiol. 49: 849–866. 28 Csaky, T. Z. & G. Esposito 1969. Osmotic swelling of intestinal epithelial cells during active transport of sugars. Am. J. Physiol. 217: 753–755. 29 Armstrong, W. McD., D. L. Musselman & H. C. Reitzug 1970. Sodium, potassium and water content of isolated bullfrog small intestinal epithelium. Am. J. Physiol. 219: 1023–1026. 30 Okada, Y., A. Irimajiri & A. Inouye 1976. Intracellular ion concentrations of epithelial cells in rat small intestine. Effects of external potassium ions and uphill transports of glucose and glycine. Jpn. J. Physiol. 26: 427–440. 31 Chase, H. Jr. & S. Wong 1984. Effect of extracellular Na and osmolarity on intracellular Ca in toad bladder. J. Gen. Physiol. 84: 16a. 32 Hudson, R. L. & S. G. Schultz 1984. Effects of sodium-coupled sugar transport on intracellular sodium activities and sodium-pump activity in Necturus small intestine. Science 224: 1237–1239. 33 Boulpaep, E. L. & H. Sackin 1980. Electrical analysis of intraepithelial barriers. Cur. Top. Membr. Transp. 13: 169–197. Citing Literature Volume456, Issue1Membrane Transport Driven by Ion GradientsNovember 1985Pages 127-135 ReferencesRelatedInformation
Referência(s)