Inhibition of ileal water absorption by intraluminal fatty acids. Influence of chain length, hydroxylation, and conjugation of fatty acids

The influence of fatty acids on ileal absorption of water, electrolytes, glucose, and taurocholate was examined in Thirty-Vella fistulas in five mongrel dogs. Fatty acid absorption also was measured. Segments of terminal ileum were perfused at steady state with isotonic electrolyte solutions contain...

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Bibliographic Details
Published in:The Journal of clinical investigation 1974-01, Vol.53 (1), p.205-210
Main Authors: Ammon, H V, Phillips, S F
Format: Article
Language:English
Subjects:
Animals
Chlorides - metabolism
Dogs
Fatty Acids - pharmacology
Female
Glucose - metabolism
Ileum - metabolism
Intestinal Absorption - drug effects
Isotonic Solutions
Male
Oleic Acids - pharmacology
Potassium - metabolism
Sodium - metabolism
Stearic Acids - pharmacology
Taurocholic Acid - metabolism
Water - metabolism
Water-Electrolyte Balance
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Summary:The influence of fatty acids on ileal absorption of water, electrolytes, glucose, and taurocholate was examined in Thirty-Vella fistulas in five mongrel dogs. Fatty acid absorption also was measured. Segments of terminal ileum were perfused at steady state with isotonic electrolyte solutions containing 11.2 mM glucose, 4.5 mM taurocholate, and 0.1-5.0 mM fatty acid. Three C(18) fatty acids, oleic acid, 10(9)-hydroxystearic acid, and ricinoleic acid, completely inhibited water absorption at 5 mM. Sodium, chloride, and potassium absorptions were inhibited in parallel with absorption of water. Differences between the potencies of C(18) fatty acids were apparent when lesser concentrations were perfused. Dodecanoic and decanoic acids were as effective as C(18) fatty acids at 5 mM but octanoic and hexanoic acids were ineffective. The polar group of C(18) fatty acids was modified by conjugating oleic and ricinoleic acids with taurine. When these compounds and a substituted C(18) fatty acid, p-n-decylbenzenesulfonate, were perfused, water absorption was also inhibited. Short-chain fatty acids (C(3) and C(4)) and their hydroxylated derivatives were ineffective at 5 mM. When water absorption was inhibited, absorption of glucose and taurocholate was decreased. We speculate that the phenomenon of inhibition of water and electrolyte absorption by fatty acids may be relevant to steatorrhea and diarrhea in man.
ISSN:0021-9738
DOI:10.1172/jci107539