Use of a semicontinuous culture system as a model for determining the role of human intestinal microflora in the metabolism of xenobiotics

Abstract

The use of semicontinuous culture system for determining the role of the human intestinal microflora int he biotransformation of xenobiotics is discussed. This model system, which stimulates the lumen of the large intestine, has been used to investigate human intestinal microflora metabolism of compounds representative of three different classes of chemicals; a benzidine-based azo dye, Direct Black 38, a nitropolycyclic aromatic hydrocarbon, 1-nitropyrene and a substituted pyrimidine, 5-fluorocytosine. Metabolites of each of the test compounds were identified, and the kinetics of production and biological activity of the metabolites determined. Metabolic adaptation was observed with 1-nitropyrene and 5-fluorocytosine incubations. This microbial culture system could be quite useful, especially in concert with other in vitro models and animal studies, for determining the pharmacological and toxicological role of the human intestinal microflora in the transformation of xenobiotics. Particular emphasis on the application of this method for toxicological studies in elucidating the role of the intestinal microflora in the etiology of cancer is described.