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REFERENCES

  • Biwersi, J. & Verkman, A. S. (1991). Cell-permeable fluorescent indicator for cytosolic chloride. Biochemistry 30, 78797883.
  • Case, R. M. & Argent, B. E. (1993). Pancreatic duct cell secretion: control and mechanisms of transport. In The Pancreas: Biology, Pathophysiology, and Disease, 2nd edn, ed. Go, V. L. W., Dimagno, E. P., Gardner, J. D., Lebenthal, E., Reber, H. A. & Scheele, G. A., pp. 301350. Raven Press, New York .
  • Choi, J. Y., Muallem, D., Kiselyov, K., Lee, M. G., Thomas, P. J. & Muallem, S. (2001). Aberrant CFTR-dependent HCO3 transport mutations associated with cystic fibrosis. Nature 410, 9497.
  • Devor, D. C., Singh, A. K., Lambert, L. C., Deluca, A., Frizzell, R. A. & Bridges, R. J. (1999). Bicarbonate and chloride secretion in Calu-3 human airway epithelial cells. Journal of General Physiology 113, 743760.
  • Dinudom, A., Komwatana, P., Young, J. A. & Cook, D. I. (1995). A forskolin-activated Cl current in mouse mandibular duct cells. American Journal of Physiology 268, G806812.
  • Dinudom, A., Young, J. A. & Cook, D. I. (1993). Na+ and Cl conductances are controlled by cytosolic Cl concentration in the intralobular duct cells of mouse mandibular glands. Journal of Membrane Biology 135, 289295.
  • Fanen, P., Labarthe, R., Garnier, F., Benharouga, M., Goossens, M. & Edelman, A. (1997). Cystic fibrosis phenotype associated with pancreatic insufficiency does not always reflect the cAMP-dependent chloride conductive pathway defect. Analysis of C225R-CFTR and R1066C-CFTR. Journal of Biological Chemistry 272, 3056330566.
  • Foskett, J. K. (1990). [Ca2+]i modulation of Cl content controls cell volume in single salivary acinar cells during fluid secretion. American Journal of Physiology 259, C9981004.
  • Gray, M. A., Greenwell, J. R. & Argent, B. E. (1988). Secretin-regulated chloride channels on the apical plasma membrane of pancreatic duct cells. Journal of Membrane Biology 105, 131142.
  • Gray, M. A., Pollard, C. E., Harris, A., Coleman, L., Greenwell, J. R. & Argent, B. E. (1990). Anion selectivity and block of the small-conductance chloride channel on pancreatic duct cells. American Journal of Physiology 259, C752761.
  • Hongre, A. S., Baro, I., Berthon, B. & Escande, D. (1994). Effects of sulphonylureas on cAMP-stimulated Cl transport via the cystic fibrosis gene product in human epithelial cells. Pflügers Archiv 426, 284287.
  • Ishiguro, H., Lindsay, A. R. G., Steward, M. C. & Case, R. M. (1995). Secretin stimulation of Cl-HCO3 exchange in interlobular ducts isolated from guinea-pig pancreas. Journal of Physiology 482. P, 22P.
  • Ishiguro, H., Naruse, S., Kitagawa, M., Hayakawa, T., Case, R. M. & Steward, M. C. (1999). Luminal ATP stimulates fluid and HCO3 secretion in guinea-pig pancreatic duct. Journal of Physiology 519, 551558.
  • Ishiguro, H., Naruse, S., Kitagawa, M., Suzuki, A., Yamamoto, A., Hayakawa, T., Case, R. M. & Steward, M. C. (2000). CO2 permeability and bicarbonate transport in microperfused interlobular ducts isolated from guinea-pig pancreas. Journal of Physiology 528, 305315.
  • Ishiguro, H., Naruse, S., Steward, M. C., Kitagawa, M., Ko, S. B. H., Hayakawa, T. & Case, R. M. (1998). Fluid secretion in interlobular ducts isolated from guinea-pig pancreas. Journal of Physiology 511, 407422.
  • Ishiguro, H., Steward, M. C., Lindsay, A. R. G. & Case, R. M. (1996a). Accumulation of intracellular HCO3 by Na+-HCO3 cotransport in interlobular ducts from guinea-pig pancreas. Journal of Physiology 495, 169178.
  • Ishiguro, H., Steward, M. C., Wilson, R. W. & Case, R. M. (1996b). Bicarbonate secretion in interlobular ducts from guinea-pig pancreas. Journal of Physiology 495, 179191.
  • Kibble, J. D., Trezise, A. E. & Brown, P. D. (1996). Properties of the cAMP-activated Cl current in choroid plexus epithelial cells isolated from the rat. Journal of Physiology 496, 6980.
  • Lau, K. R., Evans, R. L. & Case, R. M. (1994). Intracellular Cl concentration in striated intralobular ducts from rabbit mandibular salivary glands. Pflügers Archiv 427, 2432.
  • Lee, M. G., Choi, J. Y., Luo, X., Strickland, E., Thomas, P. J. & Muallem, S. (1999). Cystic fibrosis transmembrane conductance regulator regulates Cl/HCO3 exchange in mouse submandibular and pancreatic ducts. Journal of Biological Chemistry 274, 1467014677.
  • Mahiew, I., Becq, F., Wolfensberger, T., Gola, M., Carter, N. & Hollande, E. (1994). The expression of carbonic anhydrase II and IV in the human pancreatic cancer cell line (Capan 1) is associated with bicarbonate ion channels. Biology of the Cell 81, 131141.
  • Novak, I. & Greger, R. (1988). Properties of luminal membrane of isolated rat pancreatic ducts: effect of cyclic AMP and blockers of chloride transport. Pflügers Archiv 411, 546553.
  • O'Reilly, C. M., Winpenny, J. P., Argent, B. E. & Gray, M. A. (2000). Cystic fibrosis transmembrane conductance regulator in guinea-pig pancreatic duct cells: Inhibition by bicarbonate ions. Gastroenterology 118, 11871196.
  • Padfield, P. J., Garner, A. & Case, R. M. (1989). Patterns of pancreatic secretion in the anaesthetised guinea pig following stimulation with secretin, cholecystokinin octapeptide, or bombesin. Pancreas 4, 204209.
  • Robertson, M. A. & Foskett, J. K. (1994). Na+ transport pathways in the secretory acinar cells: membrane cross talk mediated by [Cl]i. American Journal of Physiology 267, C146156.
  • San Román, J. I., Colledge, W. H., Evans, M. J., Case, R. M. & Steward, M. C. (1999). Fluid secretion in ducts isolated from the pancreas of CFTR null (−/−) mice. Journal of Physiology 517. P, 23P.
  • Schultz, B. D., Singh, A. K., Devor, D. C. & Bridges, R. J. (1999). Pharmacology of CFTR chloride channel activity. Physiological Reviews 79, suppl. 1, 109144.
  • Sewell, W. A. & Young, J. A. (1975). Secretion of electrolytes by the pancreas of the anaesthetized rat. Journal of Physiology 252, 379396.
  • Sheppard, D. N. & Welsh, M. J. (1992). Effect of ATP-sensitive K+ channel regulators on cystic fibrosis transmembrane conductance regulator chloride currents. Journal of General Physiology 100, 573591.
  • Shumaker, H., Amlal, H., Frizzell, R., Ulrich Ii, C. D., Soleimani, M. (1999). CFTR drives Na+-nHCO3 cotransport in pancreatic duct cells: a basis for defective HCO3 secretion in CF. American Journal of Physiology 276, C1625.
  • Sohma, Y., Gray, M. A., Imai, Y. & Argent, B. E. (2000). HCO3 transport in a mathematical model of the pancreatic duct epithelium. Journal of Membrane Biology 176, 77100.