Absorption of 5-fluorouracil and related pyrimidines in rat small intestine.

The transport of 5-fluorouracil, uracil and thymine has been studied with isolated jejunal loops of rat small intestine. High performance liquid chromatography was used to identify the pyrimidines and measure their concentrations. When the lumen of the intestine was perfused with 5-fluorouracil or uracil at 0.1 mmol/l or 0.2 mmol/l, the concentration in the serosal secretions was significantly higher than that in the lumen. For thymine the serosal concentration exceeded that in the lumen only at 0.1 mmol/l. Analysis of the mucosal tissue water at the end of the perfusion demonstrated that when the intestinal lumen was perfused with any one of the three pyrimidines at 0.1 mmol/l or 0.2 mmol/l the concentration within the tissue was significantly above that in the lumen. After an initial lag period linear rates of transport from the lumen to the serosal secretions were obtained for all three pyrimidines over a 10-fold concentration range from 0.1 mmol/l to 1 mmol/l. Uracil and thymine inhibited the transmural transport of 5-fluorouracil. The transport of 5-fluorouracil was also studied with a vascularly perfused preparation of rat small intestine. At 0.1 mmol/l the rate of transmural transport of the drug in this preparation was substantially higher than in the jejunal loops. This difference was eliminated by adding 5-fluorouracil to the vascular perfusate, suggesting that the higher transport rate in the vascularly perfused preparation was due to the lower serosal drug concentrations in the mesenteric circulation of the perfused intestine. At a concentration of 5 mmol/l 5-fluorouracil inhibited water transport in the isolated loops and transmural D-galactose transport in the vascular perfusions.

[1]  J. R. Bronk,et al.  The transport and metabolism of naturally occurring pyrimidine nucleosides by isolated rat jejunum. , 1988, The Journal of physiology.

[2]  J. R. Bronk,et al.  The transport of pyrimidines into tissue rings cut from rat small intestine. , 1987, The Journal of physiology.

[3]  M. Muller,et al.  Role of solute drag in intestinal transport , 1985, The Journal of general physiology.

[4]  D. S. Parsons,et al.  Use of high performance liquid chromatography to study absorption and metabolism of purines by rat jejunum in vitro. , 1983, Quarterly Journal of Experimental Physiology.

[5]  D. S. Parsons,et al.  Application of high performance liquid chromatography to study transport and metabolism of nucleic acid derivatives by rat jejunum in vitro: endogenous washout. , 1983, Quarterly Journal of Experimental Physiology.

[6]  J. R. Bronk,et al.  Effects of feeding and lighting regimes on sugar transport in the rat small intestine. , 1982, Journal of Physiology.

[7]  M. Muller,et al.  Effects of solvent and solute drag on transmembrane diffusion , 1982, The Journal of general physiology.

[8]  R. McIvor,et al.  Facilitated transport of uracil and 5‐fluorouracil, and permeation of orotic acid into cultured mammalian cells , 1980, Journal of cellular physiology.

[9]  J. R. Bronk,et al.  Sugar transfer from the lumen of the rat small intestine to the vascular bed. , 1979, The Journal of physiology.

[10]  M. L. Gardner,et al.  Effects of 'elemental' diets on absorptive and enzymic activities and on 5-fluorouracil toxicity in rat small intestine. , 1979, Clinical science.

[11]  B. Amann,et al.  Active intestinal transport of uracil in sheep. , 1979, Annales de recherches veterinaires. Annals of veterinary research.

[12]  D. S. Parsons,et al.  The utilization of glucose and production of lactate by in vitro preparations of rat small intestine: effects of vascular perfusion. , 1976, The Journal of physiology.

[13]  M. L. Gardner,et al.  A kinetic approach to the study of absorption of solutes by isolated perfused small intestine , 1974, The Journal of physiology.

[14]  C. Heidelberger Chemical carcinogenesis, chemotherapy: cancer's continuing core challenges--G. H. A. Clowes Memorial Lecture. , 1970, Cancer research.

[15]  J. Jeffrey,et al.  INTERACTION OF PURINES WITH THE PYRIMIDINE TRANSPORT PROCESS OF THE SMALL INTESTINE. , 1963, Biochemical pharmacology.

[16]  L. Schanker,et al.  Some characteristics of the pyrimidine transport process of the small intestine. , 1962, Biochimica et biophysica acta.

[17]  T. Csáky Significance of sodium ions in active intestinal transport of nonelectrolytes. , 1961, The American journal of physiology.

[18]  L. Schanker,et al.  Active transport of some pyrimidines across the rat intestinal epithelium. , 1960, The Journal of pharmacology and experimental therapeutics.