Aquaporin water channels in gastrointestinal physiology

Journal of Physiology

Volumn 517, Issue 2, 1999, Pages 317-326

  Ma, Tonghui ^a   Verkman, A S ^a  

^a UNIVERSITY OF CALIFORNIA   (United States)

Author keywords

[No Author keywords available]

Indexed keywords

AQUAPORIN; MEMBRANE PROTEIN; AQUAPORIN 3; AQUAPORIN 4; AQUAPORIN 5; AQUAPORIN 7; AQUAPORIN 9;

ANIMAL CELL; CELL TYPE; COLON; COLON MUCOSA; FLUID TRANSPORT; GASTROINTESTINAL TRACT; HUMAN; HUMAN CELL; IMMUNOCYTOCHEMISTRY; INTESTINE; INTESTINE CELL; KNOCKOUT MOUSE; LIVER; MOUSE; NONHUMAN; PANCREAS; PHENOTYPE; PRIORITY JOURNAL; RAT; REVIEW; SALIVARY GLAND; STOMACH; STOMACH PARIETAL CELL; TISSUE DISTRIBUTION; WATER PERMEABILITY; WATER TRANSPORT; CELL MEMBRANE; CELLULAR DISTRIBUTION; GASTROINTESTINAL TRACT FUNCTION; JEJUNUM; LIVER CELL; PROTEIN EXPRESSION; PROTEIN FUNCTION; PROTEIN PHOSPHORYLATION; SECRETION (PROCESS); SMALL INTESTINE; STOMACH JUICE;

ANIMALS; AQUAPORINS; BILE DUCTS; BIOLOGICAL TRANSPORT; BODY FLUIDS; CELL MEMBRANE PERMEABILITY; DIGESTIVE PHYSIOLOGY; DIGESTIVE SYSTEM; HUMANS; SALIVARY GLANDS;

EID: 0033153262     PISSN: 00223751     EISSN: None     Source Type: Journal    
DOI: 10.1111/j.1469-7793.1999.0317t.x     Document Type: Review

References (77)

1. ARGENT, B. E. & CASE, R. M. (1994). Pancreatic ducts. In Physiology of the Gastrointestinal Tract, 3rd edn, ed. JOHNSON L. R., pp. 1473-1497. Raven Press, New York.
2. BAI, C., FUKUDA, N., SONG, Y., MA, T., MATTHAY, M. A. & VERKMAN, A. S. (1999). Lung fluid transport in aquaporin-1 and aquaporin-4 knockout mice. Journal of Clinical Investigation 103, 555-561.
3. BRADDON, V. R., CHIORINI, J. A., WANG, S., KOTIN, R. M. & BAUM, B. J. (1998). Adenoassociated virus-mediated transfer of a functional water channel into salivary epithelial cells in vitro and in vivo. Human Gene Therapy 9, 2777-2785.
4. BROWN, D., KATSURA, T., KAWASHIMA, M., VERKMAN, A. S. & SABOLIC, I. (1995). Cellular distribution of the aquaporins: a family of water channel proteins, Histochemistry and Cell Biology 104, 1-9.
5. CHENG, A., VAN HOEK, A. N., YEAGER, M., VERKMAN, A. S. & MITRA, A. K. (1997). Three-dimensional organization of a human water channel. Nature 387, 627-630.
6. CHOU, C. L., KNEPPER, M. A., VAN HOEK, A. N., BROWN, D., YANG, B., MA, T. & VERKMAN, A. S. (1999). Reduced water permeability and altered ultrastructure in thin descending limb of Henle in aquaporin-1 null mice. Journal of Clinical Investigation 103, 491-496.
7. CHOU, C. L., MA, T., YANG, B., KNEPPER, M. A. & VERKMAN, A. S. (1998). Four-fold reduction in water permeability in inner medullary collecting duct of aquaporin-4 knockout mice. American Journal of Physiology 274, C549-554.
8. DEEN, P. M., VERKIJK, M. A., KNOERS, N. V, WIERINGA, B., MONNENS, L. A., VAN OS, C. H. & VAN OOST, B. A. (1994). Requirement of human renal water channel aquaporin-2 for vasopressin-dependent concentration of urine. Science 264, 92-95.
9. DELPORTE, C., HOQUE, A. T., KULAKUSKY, J. A., BRADDON, V. R., GOLDSMITH, C. M., WELLNER, R. B. & BAUM, B. J. (1998). Relationship between adenovirus-mediated aquaporin 1 expression and fluid movement across epithelial cells. Biochemical and Biophysical Research Communications 246, 584-588.
10. DELPORTE, C., O'CONNELL, B. C., HE, X., AMBUDKAR, I. S., AGRE, P. & BAUM, B. J. (1996). Adenovirus-mediated expression of aquaporin-5 in epithelial cells. Journal of Biological Chemistry 271, 22070-22075.
11. DELPORTE, C., O'CONNELL, B. C., HE, X., LANCASTER, H. E., O'CONNELL, A. C., AGRE, P. & BAUM, B. J. (1997). Increased fluid secretion after adenoviral-mediated transfer of the aquaporin-1 cDNA to irradiated rat salivary glands. Proceedings of the National Academy of Sciences of the USA 94, 3268-3273.
12. EDMONDS, C. J. (1981). Water and ionic transfer pathways of mammalian large intestine. Clinical Science 61, 257-263.
13. FORDTRAN, J., RECTOR, F., EWTON, M., SOTER, N. & KINNEY, J. (1965). Permeability characteristics of the human small intestine. Journal of Clinical Investigation 44, 1935-1944.
14. FRIGERI, A., GROPPER, M., BROWN, D. & VERKMAN, A. S. (1995a). Localization of MIWC and GLIP water channel homologs in neuromuscular, epithelial and glandular tissues. Journal of Cell Science 108, 2993-3002.
15. FRIGERI, A., GROPPER, M., TURCK, C. W. & VERKMAN, A. S. (1995b). Immunolocalization of the mercurial-insensitive water channel and glycerol intrinsic protein in epithelial cell plasma membranes. Proceedings of the National Academy of Sciences of the USA 92, 4328-4331.
16. FUSHIMI, K., SASAKI, S. & MARUMO, F. (1997). Phosphorylation of serine 256 is required for cAMP-dependent regulatory exocytosis of the aquaporin-2 water channel. Journal of Biological Chemistry 272, 14800-14804.
17. GRANGER, D. N., PERRY, M. A. & KVIETYS, P. R. (1983). The microcirculation and fluid transport in digestive organs. Federation Proceedings 42, 1667-1672.
18. HASEGAWA, H., LIAN, S. C., FINKBEINER, W. E. & VERKMAN, A. S. (1994). Extrarenal tissue distribution of CHIP28 water channels by in situ hybridization and antibody staining. American Journal of Physiology 266, C893-903.
19. HINDLE, W. & CODE, C. (1962). Some differences between duodenal and ileal absorption. American Journal of Physiology 203, 215-220.
20. ISHIBASHI, K., KUWAHARA, M., GU, Y., TANAKA, Y., MARUMO, F. & SASAKI, S. (1998a). Cloning and functional expression of a new aquaporin (AQP9) abundantly expressed in the peripheral leukocytes permeable to water and urea, but not to glycerol. Biochemical and Biophysical Research Communications 244, 268-274.
21. ISHIBASHI, K., KUWAHARA, M., KAGEYAMA, Y., TOHSAKA, A. & MARUMO, F. (1997). Cloning and functional expression of a second new aquaporin abundantly expressed in testis. Biochemical and Biophysical Research Communications 237, 714-718.
22. ISHIBASHI, K., SASAKI, S., SAITO, F., IKEUCHI, T. & MARUMO, F. (1995). Structure and chromosomal localization of human water channel (AQP3) gene. Genomics 27, 352-354.
23. ISHIBASHI, K., YAMAUCHI, K., KAGEYAMA, Y., SAITO-OHARA, F., IKEUCHI, T, MARUMO, F. & SASAKI, S. (1998b). Molecular charactrization of human aquaporin-7 gene and its chromosomal mapping. Biochimica et Biophysica Acta 1399, 62-66.
24. JODAL, M. & LUNDGREN, O. (1983). Intestinal water transport. Acta Paediatrica Scandinavica 305, suppl., 49-55.
25. KNEPPER, M. A. & INOUE, T. (1997). Regulation of aquaporin-2 water channel trafficking by vasopressin. Current Opinion in Cell Biology 9, 560-564.
26. KOYAMA, Y., YAMAMOTO, T., KONDO, D., FUNAKI, H., YAOITA, E., KAWASAKI, K., SATO, N., HATAKEYAMA, K. & KIHARA, I. (1997). Molecular cloning of a new aquaporin from rat pancreas and liver. Journal of Biological Chemistry 272, 30329-30333.
27. KOYAMA, Y., YAMAMOTO, T., TANI, T., NIHEI, K., KONDO, D., FUNAKI, H., YAOITA, E., KAWASAKI, K., SATO, N., HATAKEYAMA, K. & KIHARA, I. (1999). Expression and localization of aquaporins in rat gastrointestinal tract. American Journal of Physiology 276, C621-627.
28. KURIYAMA, H., KAWAMOTO, S., ISHIDA, N., OHNO, I., MITA, S., MATSUZAWA, K., MATSUBARA, Y. & OKUBO, K. (1997). Molecular cloning and expression of a novel human aquaporin from adipose tissue with glycerol permeability. Biochemical and Biophysical Research Communications 241, 53-58.
29. LI, H. L., LEE, S. & JAP, B. K. (1997). Molecular design of aquaporin-1 water channel as revealed by electron crystallography. Nature Structural Biology 4, 263-265.
30. LI, J., NIELSEN, S., DAI, Y., LAZOWSKI, K. W., CHRISTENSEN, E. I., TABAK, L. A. & BAUM, B. J. (1994). Examination of rat salivary glands for the presence of the aquaporin CHIP. Pflügers Archiv 428, 455-460.
31. +/glucose cotransporter. Proceedings of the National Academy of Sciences of the USA 93, 13367-13370.
32. MA, T., WANG, K., YANG, B. & VERKMAN, A. S. (1999). Defective dietary fat processing in transgenic mice lacking aquaporin-1 water channels. Gastroenterology (abstract, in the Press).
33. MA, T., YANG, B., GILLESPIE, A., CARLSON, E. J., EPSTEIN, C. J. & VERKMAN, A. S. (1997a). Generation and phenotype of a transgenic knock-out mouse lacking the mercurial-insensitive water channel aquaporin-4. Journal of Clinical Investigation 100, 957-962.
34. MA, T., YANG, B., GILLESPIE, A., CARLSON, E. J., EPSTEIN, C. J. & VERKMAN, A. S. (1998). Severely impaired urinary concentrating ability in transgenic mice lacking aquaporin-1 water channels. Journal of Biological Chemistry 273, 4296-4299.
35. MA, T., YANG, B. & VERKMAN, A. S. (1997b). Cloning of a novel water and urea-permeable aquaporin from mouse expressed strongly in colon, placenta, liver and heart. Biochemical and Biophysical Research Communications 240, 324-328.
36. MARINELLI, R. A., PHAM, L., AGRE, P. & LARUSSO, N. F. (1997). Secretin promotes osmotic water transport in rat cholangiocytes by increasing aquaporin-1 water channels in plasma membrane: Evidence for a secretin-induced vesicular translocation of aquaporin-1. Journal of Biological Chemistry 272, 12984-12988.
37. MARINELLI, R. A., TIETZ, P. S., PHAM, L. D., RUECKERT, L., AGRE, P. & LARUSSO, N. F. (1999). Secretin induces the apical insertion of aquaporin-1 water channels in rat cholangiocytes. American Journal of Physiology 276, G280-286.
38. +-glucose cotransporter is a molecular water pump. Journal of Physiology 508, 15-21.
39. MISAKA, T., ABE, K., IWABUCHI, K., KUSAKABE, Y., ICHINOSE, M., MIKI, K., EMORI, Y. & ARAI, S. (1996). A water channel closely related to rat brain aquaporin 4 is expressed in acid- and pepsinogen-secretory cells of human stomach. FEBS Letters 381, 208-212.
40. NAFTALIN, R. J. (1994). The dehydrating function of the descending colon in relationship to crypt function. Physiological Research 43, 65-73.
41. + probe SBFI indicates the colonie crypts absorb fluid by generating a hypertonic interstitial fluid. FEBS Letters 260, 187-194.
42. NAFTALIN, R. J. & PEDLEY, K. C. (1999). Regional crypt function in rat large intestine in relation to fluid absorption and growth of the pericryptal sheath. Journal of Physiology 514, 211-217.
43. NAFTALIN, R. J., ZAMMIT, P. S. & PEDLEY, K. C. (1999). Regional differences in rat large intestinal crypt function in relation to dehydrating capacity in vivo. Journal of Physiology 514, 201-210.
44. 2 permeability of Xenopus oocytes. American Journal of Physiology 274, C543-548.
45. NAUNTOFTE, B. (1992). Regulation of electrolyte and fluid secretion in salivary acinar cells. American Journal of Physiology 263, G823-837.
46. NIELSEN, S., CHOU, C. L., MARPLES, D., CHRISTENSEN, E. I., KISHORE, B. K. & KNEPPER, M. A. (1995). Vasopressin increases water permeability of kidney collecting duct by inducing translocation of aquaporin-CD water channels to plasma membrane. Proceedings of the National Academy of Sciences of the USA 92, 1013-1017.
47. NIELSEN, S., KING, L. S., CHRISTENSEN, B. M. & AGRE, P. (1997). Aquaporins in complex tissues. II. Subcellular distribution in respiratory and glandular tissues of rat. American Journal of Physiology 273, C1549-1561.
48. NIELSEN, S., SMITH, B. L., CHRISTENSEN, E. I. & AGRE, P. (1993). Distribution of the aquaporin CHIP in secretory and resorptive epithelia and capillary endothelia. Proceedings of the National Academy of Sciences of the USA 90, 7275-7279.
49. PEDLEY, K. C. & NAFTALIN, R. J. (1993). Evidence from fluorescence microscopy and comparative studies that rat, ovine and bovine colonie crypts are absorptive. Journal of Physiology 460, 525-547.
50. POWELL, D. & MALAWER, S. (1968). Relationship between water and solute transport from isosmotic solutions by rat intestine in vivo. American Journal of Physiology 215, 49-55.
51. PRESTON, G. M., SMITH, B. L., ZEIDEL, M. L., MOULDS, J. J. & AGRE, P. (1994). Mutations in aquaporin-1 in phenotypically normal human without functional CHIP water channels. Science 265, 1585-1587.
52. RAINA, S., PRESTON, G. M., GUGGINO, W. B. & AGRE, P. (1995). Molecular cloning and characterization of an aquaporin cDNA from salivary, lacrimal, and respiratory tissues. Journal of Biological Chemistry 270, 1808-1912.
53. REIZER, J., REIZER, A. & SAIER, M. H. (1993). The MIP family of integral membrane channel proteins: sequence comparisons, evolutional relationships, reconstructed pathway of evolution, and proposed functional differentiation of two repeated halves of the protein. Critical Review of Biochemistry and Molecular Biology 28, 235-257.
54. ROBERTS, S. K., YANO, M., UENO, Y., PHAM, L., ALPINI, G., AGRE, P. & LARUSSO, N. F. (1994). Cholangiocytes express the aquaporin CHIP and transport water via a channel-mediated mechanism. Proceedings of the National Academy of Sciences of the USA 91, 13009-13013.
55. SCHNERMANN, J., CHOU, C. L., MA, T., TRAYNOR, T., KNEPPER, M. A. & VERKMAN, A. S. (1998). Defective proximal tubular reabsorption in transgenic aquaporin-1 null mice. Proceedings of the National Academy of Sciences of the USA 95, 9660-9664.
56. SHI, L.-B., SKACH, W. R. & VERKMAN, A. S. (1994). Functional independence of monomeric CHIP28 water channels revealed by expression of wild type-mutant heterodimers. Journal of Biological Chemistry 269, 10417-10422.
57. SINGH, S. K., BINDER, H. J., BORON, W. F. & GEIBEL, J. P. (1995). Fluid absorption in isolated perfused colonie crypts. Journal of Clinical Investigation 96, 2373-2379.
58. SOERGEL, K., WHALEN, G. & HARRIS, J. (1963). Passive movement of water and sodium across the human small intestinal mucosa. Journal of Applied Physiology 24, 40-48.
59. SPRING, K. R. (1998). Routes and mechanism of fluid transport by epithelia. Annual Review of Physiology 60, 105-119.
60. TORIANO, R., FORD, P., RIVAROLA, V., TAMARAPPOO, B. K., VERKMAN, A. S. & PARISI, M. (1998). Reconstitution of a regulated transepithelial water pathway in cells transfected with AQP2 and an AQP1/AQP2 hybrid containing the AQP2 C-terminus. Journal of Membrane Biology 161, 141-149.
61. TSUKAGUCHI, H., SHAVAKUL, C., BERGER, U. V., MACKENZIE, B., DEVIDAS, S., GUGGINO, W. B., VAN HOEK, A. N. & HEDIGER, M. A. (1998). Molecular characterization of a broad selectivity neutral solute channel. Journal of Biological Chemistry 273, 24737-24743.
62. VAN HEESWIJK, M. P. & VAN OS, C. H. (1986). Osmotic water permeabilities of brush border and basolateral membrane vesicles from rat renal cortex and small intestine. Journal of Membrane Biology 92, 183-193.
63. VAN HOEK, A. N. & VERKMAN, A. S. (1992). Functional reconstitution of the isolated erythrocyte water channel CHIP28. Journal of Biological Chemistry 267, 18267-18269.
64. VERBAVATZ, J. M., BROWN, D., SABOLIC, I., VALENTI, G., AUSIELLO, D. A., VAN HOEK, A. N., MA, T. & VERKMAN, A. S. (1993). Tetrameric assembly of CHIP28 water channels in liposomes and cell membranes. A freeze-fracture study. Journal of Cell Biology 123, 605-618.
65. VERBAVATZ, J. M., MA, T., GOBIN, R. & VERKMAN, A. S. (1997). Absence of orthogonal arrays in kidney, brain and muscle from transgenic knockout mice lacking water channel aquaporin-4. Journal of Cell Science 110, 2855-2860.
66. VERKMAN, A. S. (1998). Role of aquaporin water channels in kidney and lung. American Journal of Medical Sciences 316, 310-320.
67. VERKMAN, A. S. (1999). Lessons on renal physiology from transgenic mice lacking aquaporin water channels. Journal of the American Society of Nephrology (in the Press).
68. VERKMAN, A. S., VAN HOEK, A. N., MA, T., FRIGERI, A., SKACH, W. R., MITRA, A., TAMARAPPOO, B. K. & FARINAS, J. (1996). Water transport across mammalian cell membranes. American Journal of Physiology 270, C12-30.
69. WALZ, T., HIRAI, T., MURATA, K., HEYMANN, J. B., MITSUOKA, K., FUJIYOSHI, Y., SMITH, B. L., AGRE, P. & ENGEL, A. (1997). The three-dimensional structure of aquaporin-1. Nature, 387, 624-627.
70. WANG, K., MA, T., FELIZ, F., HUIE, P., FRIGERI, A., VERKMAN, A. S. & BASTIDAS, J. A. (1999). Involvement of aquaporin-4 in colonie water absorption and fecal dehydration. Gastroenterology (abstract, in the Press).
71. WELSH, M. L., SMITH, P. L., FROMM, M. & FRIZZELL, R. A. (1982). Crypts are the site of intestinal fluid and electrolyte secretion. Science 218, 1219-1221.
72. WORMAN, H. J. & FIELD, M. (1985). Osmotic water permeability of small intestinal brush border membranes. Journal of Membrane Biology 87, 233-239.
73. YAMAMOTO, T. & SASAKI, S. (1998). Aquaporins in the kidney: emerging new aspects. Kidney International 54, 1041-1051.
74. YANO, M., MARINELLI, R. A., ROBERTS, S. K., BALAN, V., PHAM, L., TARARA, J. E., DE GROEN, P. C. & LARUSSO, N. F. (1996). Rat hepatocytes transport water mainly via a non-channel-mediated pathway. Journal of Biological Chemistry 271, 6702-6707.
75. ZEIDEL, M. L., AMBUDKAR, S. V., SMITH, B. L. & AGRE, P. (1992). Reconstitution of functional water channels in liposomes containing purified red cell CHIP28 protein. Biochemistry 31, 7436-7440.
76. ZEUTHEN, T. & STEIN, W. D. (1994). Cotransport of salt and water in membrane proteins: membrane proteins as osmotic engines. Journal of Membrane Biology 137, 179-195.
77. ZHANG, E. B. (1996). Intestinal water and electrolyte transport. In Gastrointestinal, Hepatobilliary, and Nutritional Physiology, ed. ZHANG, E. B., SITRIN, M. D. & BLACK, D. B., pp. 91-118. Lippincott-Raven, Philadelphia.