Ingestion of aristolochic acid (AA) is associated with the development of aristolochic acid nephropathy (AAN), which is characterized by chronic renal failure, tubulointerstitial fibrosis and urothelial cancer. AA may also cause another type of kidney fibrosis with malignant transformation of the urothelium, called Balkan Endemic Nephropathy (BEN). The compound predominantly responsible for the nephropathy and urothelial cancer of AA, is aristolochic acid I (AAI) which is a genotoxic mutagen after metabolic activation The activation pathway involves reduction of the nitro group to a cyclic N-acylnitrenium ion that can form covalent DNA adducts. These specific DNA adducts have been detected in experimental animals exposed to AAI, and in urothelial tissues from AAN patients. In rodent tumours induced by AAI, 7-(deoxyadenosin-N(6)-yl)aristolactam I was the most abundant DNA adduct formed and associated with activation of ras oncogenes through a characteristic transversion mutation. Such A:T-->T:A mutations have been identified in TP53 of urothelial tumour DNA of an AAN patient and in several patients suffering from BEN along with specific AA-DNA adducts. Understanding which enzymes are involved in AAI activation to species forming DNA adducts and/or detoxification to its O-demethylated metabolite aristolochic acid Ia (AAIa) is important in order to assess susceptibility to this carcinogen.

A literature search.

The most important human enzymes activating AAI by simple nitroreduction in vitro are hepatic and renal cytosolic NAD(P)H:quinone oxidoreductase, hepatic microsomal cytochrome P450 (CYP) 1A2 and renal microsomal NADPH:CYP reductase as well as cyclooxygenase which is highly expressed in urothelial tissue. However, the contribution of most of these enzymes to the development of AAN and BEN diseases is still unclear. Hepatic CYP enzymes were found to detoxify AAI to AAIa in mice, and thereby protect the kidney from injury. CYP enzymes of the 1A subfamily seem to play a major role in this process in mouse liver. Likewise, among human CYP enzymes, CYP1A1 and 1A2 were found to be the most efficient enzymes participating in AAI oxidation to AAIa in vitro. Nevertheless, which CYPs are the most important in this process in both animal models and in humans have not been entirely resolved as yet. In addition, the relative contribution of enzymes found to activate AAI to species responsible for induction of urothelial cancer in humans remains still to be resolved.