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ABSTRACT: We report validation of the first high-pressure liquid chromatography isotope-dilution mass spectrometry method to measure sulforaphane (SFN) and its glutathione-derived conjugates in human urine. As epidemiological evidence continues to mount that the consumption of a diet rich in cruciferous vegetables may reduce the risk of certain cancers, the development of analytical methodologies to accurately measure isothiocyanates (ITCs) and their subsequent metabolic products becomes paramount. SFN, the principal ITC produced by broccoli, is an effective chemopreventive agent with multiple modes of action. SFN and SFN conjugates have often been measured collectively utilizing a cyclocondensation assay with 1,2-benzenedithiol. More recently, some of the major SFN conjugates have been determined using mass spectrometry. Here, triple-quadrupole mass spectrometry has been coupled with the use of stable isotope-labeled internal standards of D8-SFN and all four D8-SFN mercapturic acid pathway conjugates to provide an accurate, precise, sensitive, and specific method for analysis of these compounds. Using urine samples collected during an earlier intervention with broccoli sprouts, the concentrations of SFN, SFN-cysteine, and the mercapturic acid SFN- N-acetylcysteine were sufficiently high such that as little as 50 nL of urine was required for analysis. Although each study participant received an equivalent dose of broccoli sprout preparation, the interindividual conversion of the precursor glucosinolate to SFN varied over 100-fold. These 98 urines provided an ideal sample set for examining the robustness of the assay. The mean urinary concentrations +/- standard deviations in overnight voids following ingestion of the first dose were 4.7 +/- 5.1, 0.03 +/- 0.05, 0.06 +/- 0.06, 18 +/- 15, and 42 +/- 23 nmol/mg creatinine for SFN, SFN-glutathione, SFN-cysteine-glycine, SFN-cysteine, and SFN- N-acetylcysteine, respectively. This method determines SFN and all four SFN glutathione-derived metabolites with minimal sample preparation and will be extremely useful in understanding the role of SFN-rich foods in preventing cancer and other chronic diseases.
Chemical Research in Toxicology 09/2008; 21(10):1991-6. · 3.78 Impact Factor
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ABSTRACT: Estrogen-DNA adducts are potential biomarkers for assessing the risk of developing of a number of hormonally modified cancers, including breast cancer. Formation of the 4-hydroxyestradiol-N(7)-guanine (4-OHE2-N(7)-guanine) adduct from the reaction of estradiol-3,4-quinone with DNA and its detection in vivo has been established. With the ultimate goal of exploring estrogen-DNA adducts as biomarkers in experimental and human investigations, the 4-OHE2-N(7)-guanine was synthesized, and preliminary studies demonstrated that this adduct was detectable in all 10 female human urine samples examined. Therefore, more extensive investigations were conducted to study this compound's chemical-physical properties and to examine the stability of 4-OHE2-N(7)-guanine under a range of pH conditions that might influence biomarker measurement. Under neutral to alkaline conditions, 4-OHE2-N(7)-guanine could completely oxidize to an 8-oxo-guanine derivative. This derivative was isolated by HPLC, and mass spectrometry confirmed the oxidized compound by demonstrating the formation of an m/ z 168 fragment, generated by oxygen addition to guanine. Furthermore, investigation of the 4-OHE2-N(7)-2'-deoxyguanosine nucleoside adduct showed that under alkaline conditions a formamidopyrimidine analogue was produced. The formamidopyrimidine derivative forms from ring opening of the guanine imidazole ring following C-8 oxidation in the N(7), N(9) disubstituted guanine. Formation of both of these oxidized estrogen-guanine DNA adducts has precedent with other chemical agents that covalently bind to the N(7) position in guanine. Therefore, the development and application of methods to measure estrogen-guanine adducts will need to also consider these new adducts, and the biological implications of these compounds will need to be explored to determine their contribution to estrogen toxicology.
Chemical Research in Toxicology 07/2008; 21(8):1622-30. · 3.78 Impact Factor
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ABSTRACT: The murine model of hereditary tyrosinemia type 1 (HT1) was used to analyze the relationship between chronic liver disease and programmed cell death in vivo. In healthy fumarylacetoacetate hydrolase deficient mice (Fah(-/-)), protected from liver injury by the drug 2-(2- nitro-4-trifluoromethylbenzoyl)-1,3-cyclohexanedione (NTBC), the tyrosine metabolite homogentisic acid (HGA) caused rapid hepatocyte death. In contrast, all mice survived the same otherwise lethal dose of HGA if they had preexisting liver damage induced by NTBC withdrawal. Similarly, Fah(-/-) animals with liver injury were also resistant to apoptosis induced by the Fas ligand Jo-2 and to necrosis-like cell death induced by acetaminophen (APAP). Molecular studies revealed a marked up-regulation of the antiapoptotic heat shock proteins (Hsp) 27, 32, and 70 and of c-Jun in hepatocytes of stressed mice. In addition, the p38 and Jun N-terminal kinase (JNK) stress-activated kinase pathways were markedly impaired in the cell-death resistant liver. In conclusion, these results provide evidence that chronic liver disease can paradoxically result in cell death resistance in vivo. Stress-induced failure of cell death programs may lead to an accumulation of damaged cells and therefore enhance the risk for cancer as observed in HT1 and other chronic liver diseases.
Hepatology 03/2004; 39(2):433-43. · 11.66 Impact Factor
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ABSTRACT: Infection of newborn woodchucks with woodchuck hepatitis virus (WHV) results in hepatocellular carcinoma (HCC). Since oxidative damage may be carcinogenic, we investigated the relationship between WHV infection and oxidative damage to hepatic lipids and DNA. Eastern woodchucks were infected with WHV. Hepatic lipid peroxidation was assessed in vitro in isolated hepatocytes by thiobarbituric acid reactive substances (TBARS). Oxidative DNA damage was assessed in vivo in snap-frozen livers by 8-hydroxy-2'-deoxyguanosine (8-OH-dG). The proliferation index (PI) and apoptotic index (AI) were also determined. WHV infection was associated with increased hepatic lipid peroxidation (0.51+/-0.04 nmols TBARS per mg protein for WHV+ hepatocytes vs. 0.38+/-0.04 for WHV negative controls, P<0.01). In contrast, the WHV+ livers exhibited less oxidative DNA damage than uninfected controls (11+/-5 vs. 38+/-8 8-OH-dG/10(6) dG, P<0.02). In WHV-infected animals PI and AI were increased, by >20-fold. We conclude that WHV infection is associated with increased in vitro lipid peroxidation and decreased in vivo oxidative DNA damage. The increased PI and AI in the WHV+livers suggest that rapid cell turnover dilutes 8-OH-dG concentration.
Hepatology Research 03/2003; 25(3):254-262. · 2.20 Impact Factor
