Abstract
The primary objective of this study was to determine and characterize surrogate biomarkers that can predict nephrotoxicity induced by mercuric chloride (HgCl 2) using urinary proton nuclear magnetic resonance ( 1H NMR) spectral data. A procedure for 1H NMR urinalysis using pattern recognition was proposed to evaluate nephrotoxicity induced by HgCl 2 in Sprague–Dawley rats. HgCl 2 at 0.1 or 0.75 mg/kg was administered intraperitoneally (i.p.), and urine was collected every 24 h for 6 days. Animals ( n = 6 per group) were sacrificed 3 or 6 days post-dosing in order to perform clinical blood chemistry tests and histopathologic examinations. Urinary 1H NMR spectroscopy revealed apparent differential clustering between the control and HgCl 2 treatment groups as evidenced by principal component analysis (PCA) and partial least square (PLS)-discriminant analysis (DA). Time- and dose-dependent separation of HgCl 2-treated animals from controls was observed by PCA of 1H NMR spectral data. In HgCl 2-treated rats, the concentrations of endogenous urinary metabolites of glucose, acetate, alanine, lactate, succinate, and ethanol were significantly increased, whereas the concentrations of 2-oxoglutarate, allantoin, citrate, formate, taurine, and hippurate were significantly decreased. These endogenous metabolites were selected as putative biomarkers for HgCl 2-induced nephrotoxicity. A dose response was observed in concentrations of lactate, acetate, succinate, and ethanol, where severe disruption of the concentrations of 2-oxoglutarate, citrate, formate, glucose, and taurine was observed at the higher dose (0.75 mg/kg) of HgCl 2. Correlation of urinary 1H NMR PLS-DA data with renal histopathologic changes suggests that 1H NMR urinalysis can be used to predict or screen for HgCl 2-induced nephrotoxicity .
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