Chloride transport by the cortical and outer medullary collecting duct

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Chloride transport by the cortical and outer medullary collecting duct

V. L. Schuster and J. B. Stokes

The processes by which chloride is transported by the cortical and outer medullary collecting tubule have been most extensively studied using in vitro microperfusion of rabbit tubules. Chloride appears to be transported by three major mechanisms. First, Cl can be actively reabsorbed by an electroneutral Cl-HCO3 exchanger localized to the apical membrane of the HCO3-secreting (beta-type) intercalated cell. Cl exits this cell via a basolateral Cl channel. This anion exchange process can also operate in a Cl self-exchange mode, is stimulated acutely by beta-adrenergic agonists and cAMP, and is regulated chronically by in vivo acid-base status. Second, Cl can diffuse passively down electrochemical gradients via the paracellular pathway. Although this pathway does not appear to be selectively permeable to Cl, it is large enough to allow for significant passive reabsorption. Third, Cl undergoes recycling across the basolateral membrane of the H+-secreting (alpha-type) intercalated cell. HCO3 exit from this cell brings Cl into the cell via electroneutral Cl-HCO3 exchange; Cl then exits the cell via a Cl channel. Cl transport is thus required for acidification and alkalinization of the urine. Both of these processes exist in the cortical collecting tubule. Their simultaneous operation allows fine tuning of acid-base excretion. In addition, these transport systems, when functioning at equal rates, effect apparent electrogenic net Cl absorption without changing net HCO3 transport. These systems may play an important role in regulating Cl balance.

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				C. A. Wagner The emerging role of pendrin in renal chloride reabsorption Am J Physiol Renal Physiol, March 1, 2007; 292(3): F912 - F913. [Full Text] [PDF]

				A. Nissant, M. Paulais, S. Lachheb, S. Lourdel, and J. Teulon Similar chloride channels in the connecting tubule and cortical collecting duct of the mouse kidney Am J Physiol Renal Physiol, June 1, 2006; 290(6): F1421 - F1429. [Abstract] [Full Text] [PDF]

				C. Le Moellic, S. Boulkroun, D. Gonzalez-Nunez, I. Dublineau, F. Cluzeaud, M. Fay, M. Blot-Chabaud, and N. Farman Aldosterone and tight junctions: modulation of claudin-4 phosphorylation in renal collecting duct cells Am J Physiol Cell Physiol, December 1, 2005; 289(6): C1513 - C1521. [Abstract] [Full Text] [PDF]

				F. Quentin, R. Chambrey, M. M. Trinh-Trang-Tan, M. Fysekidis, M. Cambillau, M. Paillard, P. S. Aronson, and D. Eladari The Cl-/HCO3- exchanger pendrin in the rat kidney is regulated in response to chronic alterations in chloride balance Am J Physiol Renal Physiol, December 1, 2004; 287(6): F1179 - F1188. [Abstract] [Full Text] [PDF]

				P. A. Ortiz and J. L. Garvin Role of nitric oxide in the regulation of nephron transport Am J Physiol Renal Physiol, May 1, 2002; 282(5): F777 - F784. [Abstract] [Full Text] [PDF]

				T. Oka, Y. Murata, M. Namba, T. Yoshimizu, T. Toyomura, A. Yamamoto, G.-H. Sun-Wada, N. Hamasaki, Y. Wada, and M. Futai a4, a Unique Kidney-specific Isoform of Mouse Vacuolar H+-ATPase Subunit a J. Biol. Chem., October 19, 2001; 276(43): 40050 - 40054. [Abstract] [Full Text] [PDF]

				F. H. Wilson, S. Disse-Nicodeme, K. A. Choate, K. Ishikawa, C. Nelson-Williams, I. Desitter, M. Gunel, D. V. Milford, G. W. Lipkin, J.-M. Achard, et al. Human Hypertension Caused by Mutations in WNK Kinases Science, August 10, 2001; 293(5532): 1107 - 1112. [Abstract] [Full Text] [PDF]

				A. E. FRANK and I. D. WEINER Effects of Ammonia on Acid-Base Transport by the B-Type Intercalated Cell J. Am. Soc. Nephrol., August 1, 2001; 12(8): 1607 - 1614. [Abstract] [Full Text] [PDF]

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Chloride transport by the cortical and outer medullary collecting duct