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Bioaccumulation and DNA Adduct Formation of Aristolactam I: Unmasking a Toxicological Mechanism in the Pathophysiology of Aristolochic Acid Nephropathy

Chun-Kit Au, Yat-Hing Ham, Wan Chan

2023Chemical Research in Toxicology19 citationsDOI

Abstract

Prolonged exposure to aristolochic acid (AA) through AA-containing herbal medicines or AA-tainted food is putting a large portion of the global population at risk of developing renal fibrosis and tumors of the upper urinary tract. In an effort to better understand the organotropic property of AA, we studied the cytotoxicity, absorption, oxidative-stress inducing potential, and DNA adduct formation capability of aristolactam I (ALI), one of the major urinary metabolites of aristolochic acid I (AAI) in human cells. Despite ALI having a slightly lower cytotoxicity than that of AAI, the analysis revealed, for the first time, that ALI is bioaccumulated 900 times more than that of AAI inside cultured kidney cells. Furthermore, ALI induced a significantly larger glutathione depletion than that of AAI in the exposed cells. Together with the formation of ALI-DNA adduct at a reasonably high abundance, results of this study unmasked a previously disregarded causative role of ALI in the organotropic tumor-targeting property of AA.

Topics & Concepts

Aristolochic acidCytotoxicityChemistryOxidative stressDNA adductCarcinogenAdductPopulationDNA damageBioaccumulationKidneyPharmacologyDNABiochemistryBiologyMedicineIn vitroEnvironmental chemistryEndocrinologyGeneticsOrganic chemistryEnvironmental healthNephrotoxicity and Medicinal PlantsDrug-Induced Hepatotoxicity and ProtectionHeavy Metals in Plants
Bioaccumulation and DNA Adduct Formation of Aristolactam I: Unmasking a Toxicological Mechanism in the Pathophysiology of Aristolochic Acid Nephropathy | Litcius