Peroxisomal bile acid-CoA:amino-acid N-acyltransferase in rat liver.

Bile acid-CoA:amino-acid N-acyltransferase activity was measured in subcellular fractions of rat liver homogenate. The conversion of [14C]choloyl-CoA and [14C]chenodeoxycholoyl-CoA into the corresponding [14C]tauro- and glyco-bile acids was calculated after isolation of the product by high performance liquid chromatography. There was an enrichment of bile acid-CoA:amino-acid N-acyltransferase activity in the light mitochondrial (L) fraction and to a lesser extent in the microsomal fraction. Surprisingly, no enrichment was found in the cytosolic fraction. Subfractionation of the L-fraction by Nycodenz gradient centrifugation, showed that the activity of the N-acyltransferase had a bimodal distribution and co-sedimented with peroxisomes (particulate catalase) and microsomes (esterase). The highest specific amidation activity of both choloyl-CoA and chenodeoxycholoyl-CoA was always found in the most peroxisome-rich fractions. [14C]Taurocholate formation in the peroxisomal fraction was 2.2 mumol/mg of protein/min. Striking differences were observed in the Km values and the saturation concentrations for glycine and taurine. The peroxisomal amidation of [14C]choloyl-CoA had a Km for taurine of 0.9 x 10(-3) M and for glycine of 17 x 10(-3) M. The results are consistent with the possibility that most of de novo synthesized bile acids conjugate to taurine by a peroxisomal bile acid-taurine N-acyltransferase in rat liver. The bile acids deconjugated in the gut and recirculating to the liver may be activated and amidated by the microsomal enzyme system prior to biliary secretion.