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Research Article Free access | 10.1172/JCI106266

Interrelationships of chloride, bicarbonate, sodium, and hydrogen transport in the human ileum

Leslie A. Turnberg, Frederick A. Bieberdorf, Stephen G. Morawski, and John S. Fordtran

Department of Internal Medicine, The University of Texas Southwestern Medical School at Dallas, Texas 75235

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Department of Internal Medicine, The University of Texas Southwestern Medical School at Dallas, Texas 75235

Find articles by Bieberdorf, F. in: PubMed | Google Scholar

Department of Internal Medicine, The University of Texas Southwestern Medical School at Dallas, Texas 75235

Find articles by Morawski, S. in: PubMed | Google Scholar

Department of Internal Medicine, The University of Texas Southwestern Medical School at Dallas, Texas 75235

Find articles by Fordtran, J. in: PubMed | Google Scholar

Published March 1, 1970 - More info

Published in Volume 49, Issue 3 on March 1, 1970
J Clin Invest. 1970;49(3):557–567. https://doi.org/10.1172/JCI106266.
© 1970 The American Society for Clinical Investigation
Published March 1, 1970 - Version history
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Abstract

Using a triple-lumen constant perfusion system, the following observations were made in normal subjects. First, chloride, bicarbonate, and sodium were found to exhibit net movement across ileal mucosa against electrochemical gradients. Second, during perfusion with a balanced electrolyte solution simulating plasma, the ileum generally absorbed, but sometimes secreted fluid. A reciprocal net movement of chloride and bicarbonate was noted when sodium movement was zero. Increasing rates of sodium absorption were associated with decreasing bicarbonate secretion rates and finally bicarbonate absorption. Even when bicarbonate was absorbed ileal contents were alkalinized (by contraction of luminal volume). Third, net chloride movement was found to be sensitive to bicarbonate concentration in ileal fluid. For instance, chloride was absorbed from solutions containing 14 or 44 mEq/liter of bicarbonate, but was secreted when ileal fluid contained 87 mEq/liter of bicarbonate. Fourth, when chloridefree (sulfate) solutions were infused, the ileum absorbed sodium bicarbonate and the ileal contents were acidified. Fifth, when plasma-like solutions were infused, the potential difference (PD) between skin and ileal lumen was near zero and did not change when chloride was replaced by sulfate in the perfusion solution.

These results suggest that ileal electrolyte transport occurs via a simultaneous double exchange, Cl/HCO2 and Na/H. In this model neither the anion nor the cation exchange causes net ion movement; net movement results from the chemical reaction between hydrogen and bicarbonate. No other unitary model explains all of the following observations: (a) human ileal transport in vivo is essentially nonelectrogenic even though Na, Cl, and HCO3 are transported against electrochemical gradients, (b) the ileum can secrete as well as absorb, (c) ileal contents are alkalinized during absorption of or during secretion into a plasma-like solution, and (d) the ileum acidifies its contents when sulfate replaces chloride. Data obtained with a carbonic anhydrase inhibitor support the proposed model.

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