Na+ recirculation and isosmotic transport

Journal of Membrane Biology

Volumn 212, Issue 1, 2006, Pages 1-15

  Larsen, E H ^a   Mobjerg N ^a  

^a UNIVERSITY OF COPENHAGEN   (Denmark)

Author keywords

Aquaporin 1 knockout; Hertz' convection diffusion equation; Mathematical modeling; Paracellular transport; Proximal tubule; Pseudo solvent drag; Small intestine; Solute coupled water transport; Solvent drag

Indexed keywords

AQUAPORIN 1; SODIUM; SODIUM CHLORIDE;

ANIMAL CELL; BIOENERGY; HYDRAULIC CONDUCTIVITY; KIDNEY PROXIMAL TUBULE; MATHEMATICAL MODEL; MOUSE; NONHUMAN; OSMOSIS; REVIEW; SMALL INTESTINE; SODIUM TRANSPORT; THEORETICAL STUDY; TIGHT JUNCTION; WATER FLOW;

ANIMALS; EPITHELIAL CELLS; HUMANS; MODELS, BIOLOGICAL; OSMOSIS; OSMOTIC PRESSURE; SODIUM; WATER;

MUS;

EID: 33846296303     PISSN: 00222631     EISSN: None     Source Type: Journal    
DOI: 10.1007/s00232-006-0864-x     Document Type: Review

References (89)

1. Agre, P., Nielsen, S. 1996. The aquaporin family of water channels in kidney. Néphrologie 17:409-415
2. Barry, R.J.C., Smyth, D.H., Wright, E.M. 1965. Short-circuit current and solute transfer by rat jejunum. J. Physiol. 181:410-431
3. Barry, P.H., Diamond, J.M. 1984. Effects of unstirred layers on membrane phenomena. Physiol. Rev. 64:763-872
4. Berry, C.A. 1983. Water permeability and pathways in proximal tubules. Am. J. Physiol. 245:F279-F294
5. Boulpaep, E.L., Maunsbach, A.B., Tripathi, S., Weber, M.R. 1993. Mechanism of isosmotic water transport in leaky epithelia: Consensus and inconsistencies. In: Ussing, H.H., Fischbarg, J., Sten-Knudsen, O., Larsen, E.H., Willumsen, N.J., (eds) Proc. Alfred Benzon Symp. 34, Isotonic Transport in Leaky Epithelia. pp 53-67, Munksgaard, Copenhagen
6. Cassola, A.C., Mollehauer, M., Frömter, E. 1983. The intracellular chloride activity of rat kidney proximal tubule cells. Pflügers Arch. 399:259-265
7. Curran, P.F. 1960. Na, Cl, and water transport by rat ileum in vitro. J. Gen. Physiol. 43:1137-1148
8. Curran, P.F., Macintosh, J.R. 1962. A model system for biological water transport. Nature 193:347-348
9. Curran, P.F., Solomon, A.K. 1957. Ion and water fluxes in the ileum of rats. J. Gen. Physiol. 41:143-168
10. 2-Verbrauchs der Niere von der Na-Rückresorption. Pflügers Arch. 273:636-642
11. Denker, B.M., Smith, B.L., Kuhajda, P.P., Agre, P. 1988. Identification, purification, and partial characterization of a novel Mr 28000 integral membrane protein from erythrocytes and renal tubules. J. Biol. Chem. 263:15634-15642
12. Diamond, J.M. 1962. The reabsorptive function of the gall-bladder. J. Physiol. 161:442-473
13. Diamond, J.M. 1964a. Transport of salt and water in rabbit and guinea pig gall bladder. J. Gen. Physiol. 48:1-14
14. Diamond, J.M. 1964b. The mechanism of isotonic water transport. J. Gen. Physiol. 48:15-42
15. Diamond, J.M., Bossert, W.H. 1967. Standing gradient osmotic flow. A mechanism for coupling of water and solute transport in epithelia. J. Gen. Physiol. 50:2061-2083
16. + activity in rat kidney proximal tubular cells. Pflügers Arch. 378:37-45
17. Finkelstein, A. 1987. Water movement through lipid bilayers, pores, and plasma membranes. Theory and Reality. John Wiley & Sons, New York,
18. Fischbarg, J., Diecke, F.P.J. 2005. A mathematical model of electrolyte and fluid transport across corneal epithelium. J. Membrane Biol. 203:41-56
19. Frederiksen, O., Leyssac, P.P. 1969. Transcellular transport of isosmotic volumes by rabbit gall-bladder in vitro. J. Physiol. 201:201-224
20. Frizzell, R.A., Schultz, S.G. 1972. Ionic conductances of extracellular shunt pathway in rabbit ileum. Influence of shunt on transmural sodium transport and electrical potential differences. J. Gen. Physiol. 59:318-346
21. Frömter, E. 1979. Solute transport across epithelia: what can we learn from micropuncture studies on kidney tubules? J. Physiol. 288:1-31
22. - absorption. Pflügers Arch. 343:189-220
23. Green, R., Giebisch, G. 1984. Luminal hypotonicity: a driving force for fluid absorption from the proximal tubule. Am. J. Physiol. 246:F167-F117
24. Green, R., Giebisch, G., Unwin, R., Weinstein, A.M. 1991. Coupled water transport by rat proximal tubule. Am. J. Physiol. 261:F1046-F1054
25. + selective channels in the apical membrane of rabbit late proximal tubule (pars recta). Pflügers Arch. 406:198-203
26. Guggino, W.B., London, R., Boulpaep, E.L., Giebisch, G. 1983. Chloride transport across the basolateral cell membrane of the Necturus proximal tubule. J. Membrane Biol. 71:227-240
27. Halm, D.R., Krasny, E.J., Frizzell, R.A. 1985a. Electrophysiology of flounder intestinal mucosa. I. Conductance properties of the cellular and paracellular pathways. J. Gen. Physiol. 85:843-864
28. Halm, D.R., Krasny, E.J., Frizzell, R.A. 1985b. Electrophysiology of flounder intestinal mucosa. II. Relation of the electric potential to coupled Na-Cl absorption. J. Gen. Physiol. 85:865-883
29. Hertz, G. 1922. Ein neues Verfahren zur Trennung von Gasgemischen durch Diffusion. Physik. Z. 23:433-434
30. Jørgensen, P.L. 1980. Sodium and potassium ion pump in kidney tubules. Physiol. Rev. 60:864-917
31. Karniski, L.P., Aronson, P.S. 1985. Chloride/formate exchange with formic acid recycling: A mechanism of active chloride transport across epithelial membranes. Proc. Natl. Acad. Sci. USA 82:6362-6365
32. Kashgarian, M., Biemesderfer, C., Caplan, M., Forbush, B. 1985. Monoclonal antibody to Na,K-ATPase: immunocytochemical localization along nephron segments. Kidney Intern. 28:899-913
33. Kovbasnjuk, O., Chatton, J.-Y., Friauf, W.S., Spring, K.R. 1995. Detemination of the sodium permeability of the tight junctions of MDCK cells by fluorescence microscopy. J. Membrane Biol. 148:223-232
34. Kovbasnjuk, O., Leader, J.P., Weinstein, A.M., Spring, K.R. 1998. Water does not flow across the tight junctions of MDCK cell epithelium. Proc. Natl. Acad. Sci. USA 95:6526-6530
35. Larsen, E.H., Sørensen, J.B., Sørensen, J.N. 2000. A mathematical model of solute coupled water transport in toad small intestine incorporating recirculation of the actively transported solute. J. Gen. Physiol. 116:101-124
36. Larsen, E.H., Sørensen, J.B., Sørensen, J.N. 2002. Topical Review: Analysis of the sodium recirculation theory of solute-coupled water transport in small intestine. J. Physiol. 542:33-50
37. Larsen, E.H., Møbjerg, N., Sørensen, J.N. 2006. Fluid transport and ion fluxes in mammalian kidney proximal tubule: A model analysis of isotonic transport. Acta Physiol. 187:177-189
38. Lassen, U.V., Thaysen, J.H. 1961. Correlation between sodium transport and oxygen consumption in isolated renal tissue. Biochim. Biophys. Acta 47:616-618
39. Lassen, N.A., Munk, O., Thaysen, J.H. 1961. Oxygen consumption and sodium reabsorption in the kidney. Acta Physiol. Scand. 51:371-384
40. +/glucose cotransporter. Proc. Natl. Acad. Sci. USA 93:13367-13370
41. Martin, D.W., Diamond, J.M., 1996. Energetics of coupled active transport of sodium and chloride. J. Gen. Physiol. 50:295-315
42. Mathias, R.T., Wang, H. 2005. Local osmosis and isotonic transport. J. Membrane Biol. 208:39-53
43. +/glucose transporter is a molecular water pump. J. Physiol. 508:15-21
44. Morel, F., Murayama, Y. 1970. Simultaneous measurement of unidirectional and net sodium fluxes in microperfused rat proximal tubules. Pflügers Arch. 320:1-23
45. Naftalin, R.J., Tripathi, S. 1986. The roles of paracellular and transcellular pathways and submucosal space in isotonic water absorption by rabbit ileum. J. Physiol. 370:409-432
46. Nedergaard, S., Larsen, E.H., Ussing, H.H. 1999. Sodium recirculation and isotonic transport in toad small intestine. J. Membrane Biol. 168:241-251
47. Nielsen, S., Frøkiær, J., Marples, D., Kwon, T.-H., Agre, P., Knepper, M. 2002. Aquaporins in the kidney: From molecules to medicine. Physiol. Rev. 82:205-244
48. Parsons, D.S., Wingate, D.L. 1958. Fluid movements across the wall of rat small intestine. Biochim. Biophys. Acta. 30:666-667
49. Preston, G.M., Caroll, T.P., Guggino, W.B., Agre, P. 1992. Appearance of water channels in Xenopus oocytes expressing red cell CHIP28 protein. Science 257:385-387
50. Pihakaski-Maunsbach, K., Vorum, EL, Løcke, E.-M., Garty, H., Karlish, S.J.D., Maunsbach, A.B. 2003. Immunocytochemical localization of Na,K-ATPase gamma subunit and CHIP in inner medulla of rat kidney. Ann. N. Y Acad. Sci. 986:401-409
51. Rector, F.C. 1983. Sodium, bicarbonate and chloride absorption by proximal tubule. Am. J. Physiol. 244:F461-F471
52. Rubashkin, A., Iserovich, P., Hemandez, J.A., Fischbarg, J. 2005. Epithelial transport: protruding macromolecules and space charges can bring about electro-osmosis at the tight junctions. J. Membrane Biol. 208:251-263
53. Sackin, H., Boulpaep, E.L. 1975. Models for coupling of salt and water transport. Proximal tubular reabsorption in Necturus kidney. J. Gen. Physiol. 66:671-733
54. Sanchez, J.M., Rubashkin, A., Iserovich, P., Wen, Q., Ruberti, J.W., Smith, R.W., Rittenband, D., Kuang, K., Diecjke, F.P.J., Fischbarg, J. 2002. Evidence for a central role for electroosmosis in fluid transport by comeal endothelium. J. Membrane Biol. 187:37-50
55. Schafer, J.A. 1990. Transepithelial osmolality differences, hydraulic conductivities, and volume absorption in the proximal tubule. Annu. Rev. Physiol. 52:709-726
56. Schafer, J.A., Andreoli, T.E. 1979. Perfusion of isolated mammalian renal tubules. In: Giebisch, G., (ed) Transport Biology Volume 4: Transport Organs. pp 473-528, Springer-Verlag, Berlin
57. Schafer, J.A., Patlak, C.S., Andreoli, T.E. 1975. A component of fluid absorption linked to passive ion flows in the superficial pars recta. J. Gen. Physiol. 66:445-471
58. Schnermann, J., Chou, J., Ma, T., Traynor, T., Knepper, M.A., Verkman, A.S. 1998. Defective proximal fluid reabsorplion in transgenic aquaporin-1 null mice. Proc. Natl. Acad. Sci. USA 95:9660-9664
59. Schultz, S.G. 2001. Epithelial water absorption: Osmosis or Cotransport? Proc. Natl. Acad. Sci. USA 98:3628-3630
60. Smyth, D.H., Wright, E.M. 1966. Streaming potentials in the rat small intestine. J. Physiol. 182:591-602
61. Spring, K.R. 1998. Routes and mechanisms of fluid transport by epithelia. Ann. Rev. Physiol. 60:105-119
62. Spring, K.R., Hope, A. 1979. Fluid transport and the dimensions of cells and interspaces of living Necturus gallbladder. J. Gen. Physiol. 73:287-305
63. Sten-Knudsen, O. 2002. Biological membranes. Theory of transport, potentials and electric impulses. Cambridge University Press, Cambridge,
64. Sten-Knudsen, O., Ussing, H.H. 1981. The flux ratio equation under nonstationary conditions. J. Membrane Biol. 63:233-242
65. Stirling, C.E. 1972. Radioautographic localization of sodium pump sites in rabbit intestine. J. Cell. Biol. 53:704-714
66. 2 uptake in dogs during hypoxia and hydrochloro-thiazide infusion. Proc. Soc. Exp. Biol. Med. 106:714-717
67. Tripathi, S., Boulpaep, E.L. 1989. Mechanisms of water transport by epithelial cells. Quart. J. Exp. Physiol. 74:385-417
68. Torrelli, G.E., Milla, E., Faelli, A., Costantini, S. 1966. Energy requirement for sodium reabsorption in the in vivo rabbit kidney. Am. J. Physiol. 211:576-580
69. Ullrich, K. 1973. Permeability characteristics of the mammalian nephron. In: Orloff, J., Berliner, B.W., (eds) Handbook of Physiology. Section 8: Renal Physiology. pp 377-398, American Physiological Society, Bethesda
70. Ussing, H.H. 1949. The distinction by means of tracers between active transport and diffusion. Acta Physiol. Scand. 19:43-56
71. Ussing, H.H., Eskesen, K. 1989. Mechanism of isotonic water transport in glands. Acta Physiol. Scand. 136:443-454
72. Ussing, H.H., Lind, F., Larsen, E.H. 1996. Ion secretion and isotonic transport in frog skin glands. J. Membrane Biol. 152:101-110
73. Ussing, H.H., Nedergaard, S. 1993. Recycling of electrolytes in small intestine of toad. In: Ussing, H.H., Fischbarg, J., Sten-Knudsen, O., Larsen, E.H., Willumsen, N.J., (eds) Proc. Alfred Benzon Symp. 34, Isotonic Transport in Leaky Epithelia. pp 25-34, Munksgaard, Copenhagen
74. Vallon, V., Verkman, A.S., Schnermann, J. 2000. Luminal hypotonicity in proximal tubule of aquaporin-1-knockout mice. Am. J. Physiol. 278:F1030-F1033
75. Welling, L.W., Welling, D.J., Holsapple, J.W., Evan, A.P. 1987. Morphometric analysis of distinct microanatomy near the base of proximal tubule cells. Am. J. Physiol. 253:F126-F140
76. Weinstein, A.M. 1986. A mathematical model of the rat proximal tubule. Am. J. Physiol. 250:F860-F873
77. Weinstein, A.M. 1992. Sodium and chloride transport. In: Seldin, D.W., Giebisch, G., (eds) The Kidney Physiology and Pathophysiology, 2nd edition Vol 2: pp 1925-1973, Raven Press, New York
78. Weinstein, A.M. 1994. Mathematical models of tubular transport. Annu. Rev. Physiol. 56:691-709
79. Weinstein, A.M. 2003. Mathematical models of renal fluid and electrolyte transport: acknowledging our uncertainty. Am. J. Physiol. 284:F871-F884
80. Weinstein, A.M., Stephenson, J.L. 1981. Models of coupled salt and water transport across leaky epithelia. J. Membrane Biol. 60:1-20
81. Whitlock, R.T., Wheeler, H.O. 1964. Coupled transport of solute and water across rabbit gallbladder epithelium. J. Clin. Invest. 43:2249-2265
82. Whittembury, G., Paz-Aliaga, A., Biondi, A., Carpi-Medina, P., Gonzales, E., Linares, H. 1985. Pathways for volume flow and volume regulation in leaky epithelia. Pflügers Arch. Eur. J. Physiol. 404:S17-S22
83. Whittembury, G., Malnic, G., Mello-Aires, M., Amorena, C. 1988. Solvent drag of sucrose during absorption indicates paracellular water flow in the rat kidney proximal tubule. Pflügers Arch. Eur. J. Physiol. 412:541-547
84. Whittembury, G., Reuss, L. 1992. Mechanism of coupling of solute and solvent transport in epithelia. In: Seldin, D.W., Giebisch, G., (eds) The Kidney Physiology and Pathophysiology, 2nd edition Vol 1. pp 317-360, Raven Press, New York
85. Whittembury, G., Echevania, M., Gutierrez, A., Gonzales, E. 1993. Absorption of salt and water in the proximal tubule. In: Ussing, H.H., Fischbarg, J., Sten-Knudsen, O., Larsen, E.H., Willumsen, N.J., (eds) Proc. Alfred Benzon Symp. 34, Isotonic Transport in Leaky Epithelia. pp 37-48, Munksgaard, Copenhagen
86. Windhager, E.E. 1979. Sodium chloride transport. In: Giebisch, G., (ed) Membrane Transport in Biology Volume IV. Transport Organs. pp 145-214, Springer-Verlag, Berlin
87. 2O movement on NaCl concentration. Am. J. Physiol. 197:313-318
88. + across rat renal proximal tubular cell membranes in vivo? Pflügers Arch. 405:S121-S126
89. +-coupled cotransporters of glucose (SGLT1) and of iodide (NIS). The dependence of substrate size at high resolution. J. Physiol. 570:485-499