Marilyn C. Henderson scite author profile

1. Several unique flavonoid compounds have recently been isolated from hops, Humulus lupulus, and their presence has been detected in beer. Their chemical structures are similar to other plant-derived compounds, many present in the human diet, that have been shown to have cancer chemopreventive properties due, in part, to inhibition of cytochrome P450 enzymes that activate carcinogens. Additionally, preliminary studies have shown these flavonoids (at 100 microM) to be inhibitory of P450-mediated activation reactions in a variety of in vitro systems. Thus, the in vitro effects of these phytochemicals on cDNA-expressed human CYP1A1, CYP1B1, CYP1A2, CYP3A4 and CYP2E1 were currently examined by the use of diagnostic substrates and the carcinogen AFB1. 2. At 10 microM, the prenylated chalcone, xanthohumol (XN), almost completely inhibited the 7-ethoxyresorufin O-deethylase (EROD) activity of CYP1A1. At the same concentration, other hop flavonoids decreased the EROD activity by 90.8-27.0%. 3. At 10 microM, XN completely eliminated CYP1B1 EROD activity, whereas the other hop flavonoids showed varying degrees of inhibitory action ranging from 99.3 to 1.8%. 4. In contrast, the most effective inhibitors of CYP1A2 acetanilide 4-hydroxylase activity were the two prenylated flavonoids, 8-prenylnaringenin (8PN) and isoxanthohumol (IX), which produced > 90% inhibition when added at concentrations of 10 microM. 5. CYP1A2 metabolism of the carcinogen AFB1 was also inhibited by IX and 8PN as shown by decreased appearance of dihydrodiols and AFM1 as analysed by hplc. IX and 8PN also decreased covalent binding of radiolabelled AFB1 to microsomal protein in a concomitant manner. 6. XN, IX and 8PN, however, were poor inhibitors of CYP2E1 and CYP3A4 as measured by their effect on chorzoxazone hydroxylase and nifedipine oxidase activities respectively. 7. These results suggest that the hop flavonoids are potent and selective inhibitors of human cytochrome P450 and warrant further in vivo investigations.

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Mammalian flavin-containing monooxygenase (FMO) as a source of hydrogen peroxide

Siddens

Krueger

Henderson

et al. 2014

Biochemical Pharmacology

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Flavin-containing monooxygenase (FMO) oxygenates drugs/xenobiotics containing a soft nucleophile through a C4a hydroperoxy-FAD intermediate. Human FMOs 1, 2 and 3, expressed in Sf9 insect microsomes, released 30–50% of O2 consumed as H2O2 upon addition of NADPH. Addition of substrate had little effect on H2O2 production. Two common FMO2 (the major isoform in the lung) genetic polymorphisms, S195L and N413K, were examined for generation of H2O2. FMO2 S195L exhibited higher “leakage”, producing much greater amounts of H2O2, than ancestral FMO2 (FMO2.1) or the N413K variant. S195L was distinct in that H2O2 generation was much higher in the absence of substrate. Addition of superoxide dismutase did not impact H2O2 release. Catalase did not reduce levels of H2O2 with either FMO2.1 or FMO3 but inhibited H2O2 generated by FMO2 allelic variants N413K and S195L. These data are consistent with FMO molecular models. S195L resides in the GxGxSG/A NADP+ binding motif, in which serine is highly conserved (76/89 known FMOs). We hypothesize that FMO, especially allelic variants such as FMO2 S195L, may enhance the toxicity of xenobiotics such as thioureas/thiocarbamides both by generation of sulfenic and sulfinic acid metabolites and enhanced release of reactive oxygen species (ROS) in the form of H2O2.

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Enterovirus Concentration on Cellulose Membranes

Wallis¹,

Henderson²,

Melnick³

1972

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Cellulose nitrate membranes were used as one of the adsorbents in concentrating viruses from water. For adsorption to occur, salts were required. With increase in valency of salt, less salt was necessary for enhanced virus adsorption to membranes. Trivalent salts were more effective because they could be used at only 1% the concentration required for divalent salts. Thus, 0.5 mm AlCl3 was as effective as 50 mm MgCl2. For testing 500 gal of water, only 0.24 kg of AlCl3 was required in contrast to 20 kg of MgCl2. Virus could then be eluted from such membranes, having an area of 486 cm2, with 250 ml of pH 11.5 buffer. Lowering the pH of the eluate and adding AlCl3 permitted the virus to be quickly readsorbed on a smaller cellulose membrane, i.e., 4 cm2. Virus for assay was eluted from the small membrane in 1 ml. This procedure has provided the basis for concentrating minute amounts of virus from large volumes of water. Cliver (2, 3) and Wallis and Melnick (9) reported on the use of cellulose membranes for the concentration of viruses. The parameters for virus adsorption to and elution from cellulose membranes were delineated (10), and such membranes were employed for detection of viruses in natural waters (11). Other investigators have adopted the method for concentrating viruses from water (4-7). An apparatus was recently described which can concentrate virus from 400 gal of water onto cellulose membranes in 1 hr (8). The procedure required a 5-gal vessel containing 4 M MgCl2. The salt was injected into the flowing water to make a final concentration of 0.05 M, which is necessary for virus adsorption to the membrane. Thus, 20 kg of MgCl2 had to be used for each test. This salt had been selected because of its high solubility. The current investigation was undertaken to determine the effects of other highly soluble salts on virus adsorption to cellulose membranes in order to make the concentration of virus from large volumes of water more practical.

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Human Flavin-Containing Monooxygenase Form 2 S-Oxygenation: Sulfenic Acid Formation from Thioureas and Oxidation of Glutathione

Henderson

Krueger

Stevens

et al. 2004

Chem. Res. Toxicol.

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Thioureas are oxygenated by flavin-containing monooxygenases (FMOs), forming reactive sulfenic and/or sulfinic acids. Sulfenic acids can reversibly react with GSH and drive oxidative stress through a redox cycle. For this reason, thiourea S-oxygenation is an example of FMO-dependent bioactivation of a xenobiotic. Functional FMO2 is expressed in the lung of 26% of individuals of African descent and 5% of Hispanics but not in Caucasians or Asians. We have previously demonstrated that human FMO2.1 protein expressed in Sf9 microsomes has high activity toward a series of thioureas that are known or suspected lung toxicants including thiourea, 1-phenylthiourea, and ethylenethiourea. We now show by HPLC and LC-MS that 1-phenylthiourea and alpha-naphthylthiourea are converted to their sulfenic acids. GSH in the incubations at concentrations of 0.5-1.0 mM completely eliminated the sulfenic acid with resultant production of GSSG. These results indicate that individuals with the FMO21 allele may be at enhanced risk of pulmonary damage upon exposure to thioureas.

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