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ON THE MECHANISM OF SODIUM MOVEMENT ACROSS EPITHELIA*

1973; Wiley; Volume: 204; Issue: 1 Linguagem: Inglês

10.1111/j.1749-6632.1973.tb30787.x

1749-6632

Marcelino Cereijido, Jaime Moreno, I.L. Reisin, E. Rodríguez Boulan, Catalina A. Rotunno, Edit A. Zylber,

Heme Oxygenase-1 and Carbon Monoxide

Annals of the New York Academy of SciencesVolume 204, Issue 1 p. 310-324 ON THE MECHANISM OF SODIUM MOVEMENT ACROSS EPITHELIA* M. Cereijido, M. Cereijido Department of Biophysics Fundacion Centro de Investigaciones Medicas Albert Einstein Luis Viale 2831, Buenos Aires, ArgentinaSearch for more papers by this authorJ. H. Moreno, J. H. Moreno Department of Biophysics Fundacion Centro de Investigaciones Medicas Albert Einstein Luis Viale 2831, Buenos Aires, Argentina Department of Physiology, University of California, Los Angeles, Cal.Search for more papers by this authorI. Reisin, I. Reisin Department of Biophysics Fundacion Centro de Investigaciones Medicas Albert Einstein Luis Viale 2831, Buenos Aires, Argentina Department of Physiology, University de Sherbrooke, Sherbrooke, Quebec, Canada.Search for more papers by this authorE. Rodríguez Boulan, E. Rodríguez Boulan Department of Biophysics Fundacion Centro de Investigaciones Medicas Albert Einstein Luis Viale 2831, Buenos Aires, ArgentinaSearch for more papers by this authorC. A. Rotunno, C. A. Rotunno Department of Biophysics Fundacion Centro de Investigaciones Medicas Albert Einstein Luis Viale 2831, Buenos Aires, ArgentinaSearch for more papers by this authorE. A. Zylber, E. A. Zylber Department of Biophysics Fundacion Centro de Investigaciones Medicas Albert Einstein Luis Viale 2831, Buenos Aires, ArgentinaSearch for more papers by this author M. Cereijido, M. Cereijido Department of Biophysics Fundacion Centro de Investigaciones Medicas Albert Einstein Luis Viale 2831, Buenos Aires, ArgentinaSearch for more papers by this authorJ. H. Moreno, J. H. Moreno Department of Biophysics Fundacion Centro de Investigaciones Medicas Albert Einstein Luis Viale 2831, Buenos Aires, Argentina Department of Physiology, University of California, Los Angeles, Cal.Search for more papers by this authorI. Reisin, I. Reisin Department of Biophysics Fundacion Centro de Investigaciones Medicas Albert Einstein Luis Viale 2831, Buenos Aires, Argentina Department of Physiology, University de Sherbrooke, Sherbrooke, Quebec, Canada.Search for more papers by this authorE. Rodríguez Boulan, E. Rodríguez Boulan Department of Biophysics Fundacion Centro de Investigaciones Medicas Albert Einstein Luis Viale 2831, Buenos Aires, ArgentinaSearch for more papers by this authorC. A. Rotunno, C. A. Rotunno Department of Biophysics Fundacion Centro de Investigaciones Medicas Albert Einstein Luis Viale 2831, Buenos Aires, ArgentinaSearch for more papers by this authorE. A. Zylber, E. A. Zylber Department of Biophysics Fundacion Centro de Investigaciones Medicas Albert Einstein Luis Viale 2831, Buenos Aires, ArgentinaSearch for more papers by this author First published: March 1973 https://doi.org/10.1111/j.1749-6632.1973.tb30787.xCitations: 9 * This research was supported by grants from the Consejo Nacional de Investigaciones Científicas y Técnicas (CNICT) of Argentina and from the United States Public Health Service. 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 References 1 Ussing, H. H. & K. Zerahn. 1951. active transport of sodium as the source of electric current in the short-circuited isolated frog skin. acta physiol. scand. 23: 110. 2 Koefoed-johnsen, V. & H. H. Ussing. 1958. the nature of the frog skin potential. acta physiol. scand. 42: 298. 3 Ussing, H. H. & E. E. Windhager. 1964. nature of shunt path and active sodium transport path through frog skin epithelium. acta physiol. scand. 61: 484. 4 Farquhar, M. G. & G. E. Palade. 1966. adenosine triphosphatase in amphibian epidermis. j. cellular biol. 30: 359. 5 Vôute, C. L. & H. H. Ussing. 1970. quantitative relation between hydrostatic pressure gradient, extracellular volume and active sodium transport in the epithelium of the frog skin. (r. temporaria). exp. cell. res. 62: 375. 6 Cereijido, M. & C. A. Rotunno. 1967. transport and distribution of sodium across frog skin. j. physiol. 190: 481. 7 Cereijido, M., I. Reisin & C. A. Rotunno. 1968. the effect of sodium concentration on the content and distribution of sodium in the frog skin. j. physiol. 196: 237. 8 Finn, A. L. & M. L. Rockoff. 1971. the kinetics of sodium transport in the toad bladder. i. determination of the transport pool. j. gen. physiol. 57: 326. 9 Biber, T. U. L., R. A. Chez & P. F. Curran. 1966. na transport across frog skin at low external na concentrations. j. gen. physiol. 49: 1161. 10 Rawlins, F., L. Mateu, F. Fragachan & G. Whittembury. 1970. isolated toad skin epithelium: transport characteristics. arch. ges. physiol. 316: 64. 11 Curran, P. F. & M. Cereijido. 1965. k fluxes in frog skin. j. gen. physiol. 48: 1011. 12 Huf, E. G., N. S. Doss & I. P. Wills. 1957. effects of metabolic inhibitors and drugs on ion transport and oxygen consumption in isolated frog skin. j. gen. physiol. 41: 397. 13 Cereijido, M. & C. A. Rotunno. 1968. fluxes and distribution of sodium in frogskin: a new model. j. gen. physiol. 51: 280. 14 Gatzy, J. T. & W. O. Berndt. 1968. isolated epithelial cells of the toad bladder: their preparation oxygen consumption and electrolyte content. j. gen. physiol. 51: 770. 15 Cereijido, M. & P. F. Curran. 1965. intracellular electrical potentials frog skin. j. gen. physiol. 48: 543. 16 Rotunno, C. A., F. Vilallonga, M. Fernandez & M. Cereijido. 1970. the penetration of sodium into the epithelium of the frog skin. j. gen. physiol. 55: 716. 17 Cereijido, M., J. H. Moreno, E. Rodriguez boulan & C. A. Rotunno. on the evaluation of fluxes across the outer border of the epithelium. in role of membranes in secretory processes. Liana Bolis et al, eds. north holland publishing company. amsterdam , the netherlands . in press. 18 Zerahn, K. 1969. nature and localization of the sodium pool during active transport in the isolated frog skin. acta physiol. scand. 77: 272. 19 Eigler, J. & J. Crabbe. 1968. effects of diuretics on active sodium transport in amphibian membranes. in renal transport and diuretics. k. thurau & h. jahrmärker, eds. intern. symp. feldafing. 20 Dörge, A. & W. Nagel. 1970. effect of amiloride on sodium transport in frog skin. ii. sodium transport pool and unidirectional fluxes. ges. physiol. 321: 91. 21 Salako, L. A. & A. J. Smith. 1970. changes in sodium pool and kinetics of sodium transport in frog skin produced by amiloride. brit. j. pharmacol. 39: 99. 22 Gebhardt, U., W. Fuchs & B. Lindemann. 1972. resistance response of frog skin to brief and long lasting changes of (na)0 and (k)0. submitted for publication. 23 Koefoed-johnsen, V. 1957. the effect of g-strophanthin (ouabain) on the active transport of sodium through the isolated frog skin. acta physiol. scand. 42: 145. 24 Zadunaisky, J. A., O. A. Candia & D. J. Chiarandini. 1963. the origin of the short-circuit current in the isolated skin of the south american frog leptodactylus ocellatus. j. gen. physiol. 47: 393. 25 Grigera, J. R. & M. Cereijido. 1971. the state of water in the outer barrier of the isolated frog skin. j. membrane biol. 4: 148. 26 Wang, J. H., C. V. Robinson & I. S. E. Edelman. 1953. self-diffusion and structure of liquid water. iii. measurement of the self-diffusion of liquid water with h 2, h 3 and o 18 as tracers. j. am. chem. soc. 75: 466. 27 Luzzati, V. 1968. x-ray diffraction studies of lipid-water systems. in biological membranes. D. Chapman, ed. academic press inc. new york , n. y. 28 Ussing, H. H. 1964. Transport of electrolytes and water across epithelia. Harvey Lectures. Citing Literature Volume204, Issue1Physicochemical State of Ions and Water in Living Tissues and Model SystemsMarch 1973Pages 310-324 ReferencesRelatedInformation