Reconciling the Krogh and Ussing interpretations of epithelial chloride transport - presenting a novel hypothesis for the physiological significance of the passive cellular chloride uptake
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Reconciling the Krogh and Ussing interpretations of epithelial chloride transport - presenting a novel hypothesis for the physiological significance of the passive cellular chloride uptake. / Larsen, Erik Hviid.
In: Acta Physiologica, Vol. 202, No. 3, 2011, p. 435-464.Research output: Contribution to journal › Journal article › Research › peer-review
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TY - JOUR
T1 - Reconciling the Krogh and Ussing interpretations of epithelial chloride transport - presenting a novel hypothesis for the physiological significance of the passive cellular chloride uptake
AU - Larsen, Erik Hviid
PY - 2011
Y1 - 2011
N2 - In 1937, August Krogh discovered a powerful active Cl- uptake mechanism in frog skin. After WWII, Hans Ussing continued the studies on the isolated skin and discovered the passive nature of the chloride uptake. The review concludes that the two modes of transport are associated with a minority cell type denoted as the ¿-type mitochondria-rich (MR) cell, which is highly specialized for epithelial Cl- uptake whether the frog is in the pond of low [NaCl] or the skin is isolated and studied by Ussing chamber technique. One type of apical Cl- channels of the ¿-MR cell is activated by binding of Cl- to an external binding site and by membrane depolarization. This results in a tight coupling of the uptake of Na+ by principal cells and Cl- by MR cells. Another type of Cl- channels (probably CFTR) is involved in isotonic fluid uptake. It is suggested that the Cl- channels serve passive uptake of Cl- from the thin epidermal film of fluid produced by mucosal glands. The hypothesis is evaluated by discussing the turnover of water and ions of the epidermal surface fluid under terrestrial conditions. The apical Cl- channels close when the electrodiffusion force is outwardly directed as it is when the animal is in the pond. With the passive fluxes eliminated, the Cl- flux is governed by active transport and evidence is discussed that this is brought about by an exchange of cellular HCO3- with Cl- of the outside bath driven by an apical H+ V-ATPase.
AB - In 1937, August Krogh discovered a powerful active Cl- uptake mechanism in frog skin. After WWII, Hans Ussing continued the studies on the isolated skin and discovered the passive nature of the chloride uptake. The review concludes that the two modes of transport are associated with a minority cell type denoted as the ¿-type mitochondria-rich (MR) cell, which is highly specialized for epithelial Cl- uptake whether the frog is in the pond of low [NaCl] or the skin is isolated and studied by Ussing chamber technique. One type of apical Cl- channels of the ¿-MR cell is activated by binding of Cl- to an external binding site and by membrane depolarization. This results in a tight coupling of the uptake of Na+ by principal cells and Cl- by MR cells. Another type of Cl- channels (probably CFTR) is involved in isotonic fluid uptake. It is suggested that the Cl- channels serve passive uptake of Cl- from the thin epidermal film of fluid produced by mucosal glands. The hypothesis is evaluated by discussing the turnover of water and ions of the epidermal surface fluid under terrestrial conditions. The apical Cl- channels close when the electrodiffusion force is outwardly directed as it is when the animal is in the pond. With the passive fluxes eliminated, the Cl- flux is governed by active transport and evidence is discussed that this is brought about by an exchange of cellular HCO3- with Cl- of the outside bath driven by an apical H+ V-ATPase.
U2 - 10.1111/j.1748-1716.2010.02239.x
DO - 10.1111/j.1748-1716.2010.02239.x
M3 - Journal article
C2 - 21288306
VL - 202
SP - 435
EP - 464
JO - Acta Physiologica
JF - Acta Physiologica
SN - 1748-1708
IS - 3
ER -
ID: 33735373