Impaired Bile Acid Synthesis in a Taurine-Deficient Cat Model.

Abstract

Deficiency of the functional amino acid-like compound taurine induced in cats by taurine-depleted food was previously shown to significantly decrease the levels of taurine-conjugated bile acids (BAs) and significantly increase the levels of unconjugated BAs, with a significant decrease in total BA concentration in the bile. Because the ratios of primary BAs (cholic acid [CA] and chenodeoxycholic acids [CDCA]) have also been shown to be altered in the bile, taurine has been suggested to play an important role in BA synthesis in the liver. The present study showed that in the liver of taurine-deficient cats, CYP7A1 protein expression and its metabolites (7α-hydroxycholesterol and α-hydroxy-4-cholesten-3-one) were significantly increased and, therefore, the ratio of the CA product in this pathway was decreased. On the other hand, the expression of the mitochondrial CYP27A1 protein and its metabolite 27-hydroxycholesterol (27HC) were significantly decreased in the taurine-deficient liver. Thus, a significantly decreased ratio of CDCA, which is the main product of 27HC, was found. The decreased activity of the CDCA-producing pathway might be related to mitochondrial dysfunction induced by taurine deficiency. In addition, a significant decrease in cholesterol levels in the liver was induced by a decrease in intestinal cholesterol absorption because of decreased hepatic-intestinal circulation of taurine-conjugated BAs. The results of this study showed that taurine deficiency alters both the quality and quantity of BAs through inactivity of the mitochondrial CDCA production pathway caused by impaired mitochondrial function and inhibited the absorption of cholesterol in the intestine.