Formal analysis of electrogenic sodium, potassium, chloride and bicarbonate transport in mouse colon epithelium

The mammalian colonic epithelium carries out a number of different transporting activities simultaneously, of which more than one is increased following activation with a single agonist. These separate activities can be quantified by solving a set of equations describing these activities, provided s...

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Bibliographic Details
Published in:British journal of pharmacology 1999-01, Vol.126 (1), p.358-364
Main Authors: Cuthbert, A W, Hickman, M E, MacVinish, L J
Format: Article
Language:English
Subjects:
Acetazolamide - pharmacology
Amiloride - pharmacology
Animals
bicarbonate secretion
Bicarbonates - pharmacokinetics
Biological and medical sciences
Biological Transport - drug effects
Cell physiology
CFTR
chloride secretion
Chlorides - pharmacokinetics
Colforsin - pharmacology
Colon - drug effects
Colon - metabolism
Colon - physiopathology
cystic fibrosis
Cystic Fibrosis - metabolism
Cystic Fibrosis - physiopathology
Diuretics - pharmacology
Electrogenic epithelial transport
Electrophysiology
Epithelium - drug effects
Epithelium - metabolism
Epithelium - physiopathology
forskolin
Fundamental and applied biological sciences. Psychology
Furosemide - pharmacology
In Vitro Techniques
Inorganic Chemicals - pharmacokinetics
loop diuretics
Medical sciences
Membrane and intracellular transports
Membrane Potentials - drug effects
Mice
Mice, Inbred CFTR
Models, Theoretical
Molecular and cellular biology
Pharmacology. Drug treatments
Potassium - pharmacokinetics
potassium secretion
Sodium - pharmacokinetics
sodium absorption
Urinary system
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Summary:The mammalian colonic epithelium carries out a number of different transporting activities simultaneously, of which more than one is increased following activation with a single agonist. These separate activities can be quantified by solving a set of equations describing these activities, provided some of the dependent variables can be eliminated. Using variations in the experimental conditions, blocking drugs and comparing wild type tissues with those from transgenic animals this has been achieved for electrogenic ion transporting activity of the mouse colon. Basal activity and that following activation with forskolin was measured by short circuit current in isolated mouse colonic epithelia from normal and cystic fibrosis (CF) mice. Using amiloride it is shown that CF colons show increased electrogenic sodium absorption compared to wild type tissues. CF mice had elevated plasma aldosterone, which may be responsible for part or all of the increased sodium absorbtion in CF colons. The derived values for electrogenic chloride secretion and for electrogenic potassium secretion were increased by 13 and 3 fold respectively by forskolin, compared to basal state values for these processes. The loop diuretic, frusemide, completely inhibited electrogenic potassium secretion, but apparently only partially inhibited electrogenic chloride secretion. However, use of bicarbonate‐free solutions and acetazolamide reduced the frusemide‐resistant current, suggesting that electrogenic bicarbonate secretion accounts for the frusemide‐resistant current. It is argued that the use of tissues from transgenic animals is an important adjunct to pharmacological analysis, especially where effects in tissues result in the activation of more than one sort of response. British Journal of Pharmacology (1999) 126, 358–364; doi:10.1038/sj.bjp.0702290
ISSN:0007-1188
1476-5381
DOI:10.1038/sj.bjp.0702290