Hepatic and extrahepatic bioactivation and GSH conjugation of aflatoxin B1 in sheep

Abstract

Whole-body autoradiography of [³H]aflatoxin B₁ ([³H]AFB₁ in lamb showed a localization of bound labelling, in addition to the liver, in the nasal olfactory and respiratory mucosa, in the mucosa of the nasopharynx, pharynx, oesophagus, larynx, trachea, bronchi and bronchioles and in the palpebral and bulbar conjunctiva. Microautoradiography revealed that the bound material was confined to specific cell types in extrahepatic tissues. Whole-body autoradiography also showed a labelling of pigmented tissues (such as the eye melanin), which can be ascribed to a melanin affinity of AFB₁In vivo experiments, performed with microsomal preparations of tissues from ewe and lamb showed that several of the extrahepatic tissues were more efficient than the liver in forming DNA-bound AFB₁ metabolites. The nasal olfactory mucosa was by far the most effective tissue in this respect. AFB, induced a high number of gene mutations in Salmonella typhimurium TA100 when incubated with super natant preparations (9000 g) of the nasal olfactory mucosa, whereas incubations with preparations of the liver resulted in a lower effect. It has been reported that AFB₁ can induce nasal tumours in sheep. When microsomal preparations of various tissues were incubated in the presence of reduced glutathione (GSH), but without any addition of cytosolic glutathione-S-transferase (GST), a drastic decrease in the AFB₁-DNA binding was seen. Analyses of the water-soluble metabolites formed in the microsomal incubations supple mented with GSH showed fluorescent and ninhydrin-positive metabolites that were not present in the absence of GSH. These results indicate that sheep tissues have intrinsic microsomal GST or cytosolic GSTs associated with the microsomal fraction with a high capacity to catalyse the conjugation of bioactivated AFB₁ to GSH. The results of the present study show that several extrahepatic tissues of sheep have a potent capacity to bioactivate AFB₁ and also a high capacity to GSH conjugate the bioactivated AFB₁.