115 results on '"Burka LT"'
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2. Exposure to hexavalent chromium resulted in significantly higher tissue chromium burden compared with trivalent chromium following similar oral doses to male F344/N rats and female B6C3F1 mice.
- Author
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Collins BJ, Stout MD, Levine KE, Kissling GE, Melnick RL, Fennell TR, Walden R, Abdo K, Pritchard JB, Fernando RA, Burka LT, and Hooth MJ
- Subjects
- Administration, Oral, Animals, Body Burden, Chromium analysis, Chromium metabolism, Drinking, Female, Gastric Mucosa metabolism, Liver chemistry, Liver metabolism, Male, Mice, Mice, Inbred Strains, Rats, Rats, Inbred F344, Spectrophotometry, Atomic, Stomach chemistry, Tissue Distribution, Carcinogens, Environmental pharmacokinetics, Chromates pharmacokinetics, Picolinic Acids pharmacokinetics
- Abstract
In National Toxicology Program 2-year studies, hexavalent chromium [Cr(VI)] administered in drinking water was clearly carcinogenic in male and female rats and mice, resulting in small intestine epithelial neoplasms in mice at a dose equivalent to or within an order of magnitude of human doses that could result from consumption of chromium-contaminated drinking water, assuming that dose scales by body weight(3/4) (body weight raised to the 3/4 power). In contrast, exposure to trivalent chromium [Cr(III)] at much higher concentrations may have been carcinogenic in male rats but was not carcinogenic in mice or female rats. As part of these studies, total chromium was measured in tissues and excreta of additional groups of male rats and female mice. These data were used to infer the uptake and distribution of Cr(VI) because Cr(VI) is reduced to Cr(III) in vivo, and no methods are available to speciate tissue chromium. Comparable external doses resulted in much higher tissue chromium concentrations following exposure to Cr(VI) compared with Cr(III), indicating that a portion of the Cr(VI) escaped gastric reduction and was distributed systemically. Linear or supralinear dose responses of total chromium in tissues were observed following exposure to Cr(VI), indicating that these exposures did not saturate gastric reduction capacity. When Cr(VI) exposure was normalized to ingested dose, chromium concentrations in the liver and glandular stomach were higher in mice, whereas kidney concentrations were higher in rats. In vitro studies demonstrated that Cr(VI), but not Cr(III), is a substrate of the sodium/sulfate cotransporter, providing a partial explanation for the greater absorption of Cr(VI).
- Published
- 2010
- Full Text
- View/download PDF
3. Metabolism and disposition of [14C]dibromoacetonitrile in rats and mice following oral and intravenous administration.
- Author
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Mathews JM, Pulliam D Jr, Black SR, and Burka LT
- Subjects
- Acetonitriles administration & dosage, Acetonitriles chemistry, Acetonitriles urine, Administration, Oral, Animals, Carbon Radioisotopes administration & dosage, Carbon Radioisotopes chemistry, Chromatography, Liquid, Dose-Response Relationship, Drug, Glutathione metabolism, Injections, Intravenous, Male, Mass Spectrometry, Mice, Rats, Species Specificity, Sulfhydryl Compounds urine, Tissue Distribution, Acetonitriles metabolism, Acetonitriles pharmacokinetics, Carbon Radioisotopes metabolism, Carbon Radioisotopes pharmacokinetics
- Abstract
1. Tissue distribution, metabolism, and disposition of oral (0.2-20 mg/kg) and intravenous (0.2 mg/kg) doses of [2-(14)C]dibromoacetonitrile (DBAN) were investigated in male rats and mice. 2. [(14)C]DBAN reacts rapidly with rat blood in vitro and binds covalently. Prior depletion of glutathione (GSH) markedly diminished loss of DBAN. Chemical reaction with GSH readily yielded glutathionylacetonitrile. 3. About 90% of the radioactivity from orally administered doses of [(14)C]DBAN was absorbed. After intravenous administration, 10% and 20% of the radioactivity was recovered in mouse and rat tissues, respectively, at 72 h. After oral dosing, three to four times less radioactivity was recovered, but radioactivity in stomach was mostly covalently bound. 4. Excretion of radioactivity into urine exceeded that in feces; 9-15% was exhaled as labeled carbon dioxide and 1-3% as volatiles in 72 h. 5. The major urinary metabolites were identified by liquid chromatography-mass spectrometry, and included acetonitrile mercaptoacetate (mouse), acetonitrile mercapturate, and cysteinylacetonitrile. 6.The primary mode of DBAN metabolism is via reaction with GSH, and covalent binding may be due to reaction with tissue sulphydryls.
- Published
- 2010
- Full Text
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4. Effect of dose volume on the toxicokinetics of acrylamide and its metabolites and 2-deoxy-D-glucose.
- Author
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Ghanayem BI, Bai R, and Burka LT
- Subjects
- Acrylamide metabolism, Acrylamide toxicity, Administration, Oral, Animals, Carcinogens metabolism, Carcinogens toxicity, Deoxyglucose metabolism, Deoxyglucose pharmacokinetics, Dose-Response Relationship, Drug, Epoxy Compounds, Glucose pharmacokinetics, Male, Mice, Mutagenicity Tests, Mutagens pharmacokinetics, Spectrometry, Mass, Electrospray Ionization, Acrylamide pharmacokinetics, Carcinogens pharmacokinetics, Deoxyglucose toxicity
- Abstract
Acrylamide (AA) is a known mutagen and animal carcinogen. Comparison of recent studies revealed significant quantitative differences in AA-induced germ cell mutagenicity. It was hypothesized that despite the administration of AA at similar doses, the discrepancy in the observed effects was most likely due to varying AA concentrations in the administered dosing solution. To test this hypothesis, AA was administered i.p. to mice at 50 mg/kg in a dose volume of 5 or 50 ml/kg, blood was collected at various time points, and AA and its metabolites were quantitated. Changes in dose volume resulted in significant differences in the toxicokinetics of AA and its metabolites and suggested that increased C(max) of AA led to increased metabolism. This theory, in conjunction with the fact that higher levels of AA-derived radioactivity were detected in the testes, may explain the greater toxicity of a 50 mg/kg dose when administered in 5 versus 50 ml/kg. The impact of dose volume on the toxicokinetics of 2-deoxy-d-glucose (DG), a nonreactive, nonmetabolizable substance, was also investigated. The areas under the curve for DG were not different for the two dose volumes; however, C(max) for the more concentrated dose was significantly higher. In conclusion, current studies show that the toxicokinetics of an administered xenobiotic and its metabolites is influenced by the concentration of the parent chemical in the dosing solution. Therefore, it is important to consider the concentration of an administered xenobiotic in the dosing solution because it may affect its toxicokinetics and metabolism and subsequently affect the biological effects of the administered chemical.
- Published
- 2009
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5. Estrogenic phenol and catechol metabolites of PCBs modulate catechol-O-methyltransferase expression via the estrogen receptor: potential contribution to cancer risk.
- Author
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Ho PW, Garner CE, Ho JW, Leung KC, Chu AC, Kwok KH, Kung MH, Burka LT, Ramsden DB, and Ho SL
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- Actins toxicity, Blotting, Western, Catechols metabolism, Catechols pharmacology, Cell Line, Tumor, Electrophoresis, Polyacrylamide Gel, Environmental Pollutants metabolism, Environmental Pollutants pharmacology, Estradiol analogs & derivatives, Estradiol pharmacology, Estrogen Antagonists pharmacology, Fulvestrant, Humans, Neoplasms epidemiology, Phenols metabolism, Phenols pharmacology, Polychlorinated Biphenyls metabolism, Polychlorinated Biphenyls pharmacology, Risk, Catechol O-Methyltransferase biosynthesis, Catechols toxicity, Environmental Pollutants toxicity, Estrogens, Non-Steroidal, Neoplasms chemically induced, Phenols toxicity, Polychlorinated Biphenyls toxicity, Receptors, Estrogen drug effects
- Abstract
Commercial PCB mixtures have been shown to induce liver tumors in female rats and this effect has been attributed to the effects of PCBs on estrogen metabolism. Catechol metabolites of PCBs are potent inhibitors of COMT activity and are likely to contribute significantly to reduced clearance of genotoxic catechol metabolites of estrogen. The effect of PCB metabolites on COMT expression in cultured cells was investigated to explore potential mechanisms by which PCB exposure alters catechol estrogen clearance. We hypothesize that estrogenic PCB metabolites may contribute to reduction of COMT expression via interaction with the estrogen receptor. To test this hypothesis, human MCF-7 cells were exposed to PCB analogues and the expression of COMT determined. Western blot analysis demonstrated that COMT protein levels were statistically significantly reduced by both the phenolic and the catechol compounds, an effect which was abolished by the anti-estrogen, ICI182780. The above suggests that COMT levels may be reduced by estrogenic PCB metabolites, via interactions between PCB metabolites and the ER. It supports the hypothesis that both phenolic and catechol metabolites of PCBs may contribute to PCB-mediated carcinogenesis through reduction of COMT levels and activities and subsequent reduction in clearance of endogenous and xenobiotic catechols.
- Published
- 2008
- Full Text
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6. Neuronal effects of 4-t-Butylcatechol: a model for catechol-containing antioxidants.
- Author
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Lo YC, Liu Y, Lin YC, Shih YT, Liu CM, and Burka LT
- Subjects
- Animals, Cell Line, Cell Line, Tumor, Cell Survival drug effects, Coculture Techniques, Cyclooxygenase 2 metabolism, Cyclooxygenase Inhibitors pharmacology, Dose-Response Relationship, Drug, Heme Oxygenase-1 metabolism, Humans, Lipopolysaccharides pharmacology, Membrane Glycoproteins metabolism, Membrane Potential, Mitochondrial drug effects, Microglia cytology, Microglia drug effects, Microglia metabolism, NADPH Oxidase 2, NADPH Oxidases metabolism, Neurons cytology, Neurons metabolism, Nitric Oxide Synthase Type I antagonists & inhibitors, Nitric Oxide Synthase Type I metabolism, Nitric Oxide Synthase Type II antagonists & inhibitors, Nitric Oxide Synthase Type II metabolism, Nitrobenzenes pharmacology, Oxidative Stress drug effects, Reactive Oxygen Species metabolism, Sulfonamides pharmacology, Antioxidants pharmacology, Catechols pharmacology, Neurons drug effects, Oxidopamine pharmacology
- Abstract
Many herbal medicines and dietary supplements sold as aids to improve memory or treat neurodegenerative diseases or have other favorable effects on the CNS contain a catechol or similar 1,2-dihydroxy aromatic moiety in their structure. As an approach to isolate and examine the neuroprotective properties of catechols, a simple catechol 4-t-Butylcatechol (TBC) has been used as a model. In this study, we investigated the effects of TBC on lipopolysaccharide (LPS)-activated microglial-induced neurotoxicity by using the in vitro model of coculture murine microglial-like cell line HAPI with the neuronal-like human neuroblastoma cell line SH-SY5Y. We also examined the effects of TBC on 6-hydroxydopamine (6-OHDA)-induced neurotoxicity in human dopaminergic neuroblastoma SH-SY5Y cells. TBC at concentrations from 0.1-10 microM had no toxic effect on HAPI cells and SH-SY5Y cells, and it inhibited LPS (100 ng/ml)-induced increases of superoxide, intracellular ROS, gp91(Phox), iNOS and a decrease of HO-1 in HAPI cells. Under coculture condition, TBC significantly reduced LPS-activated microglia-induced dopaminergic SH-SY5Y cells death. Moreover, TBC (0.1-10 microM) inhibited 6-OHDA-induced increases of intracellular ROS, iNOS, nNOS, and a decrease of mitochondria membrane potential, and cell death in SH-SY5Y cells. However, the neurotoxic effects of TBC (100 microM) on SH-SY5Y cells were also observed including the decrease in mitochondria membrane potential and the increase in COX-2 expression and cell death. TBC-induced SH-SY5Y cell death was attenuated by pretreatment with NS-398, a selective COX-2 inhibitor. In conclusion, this study suggests that TBC might possess protective effects on inflammation- and oxidative stress-related neurodegenerative disorders. However, the high concentration of TBC might be toxic, at least in part, for increasing COX-2 expression.
- Published
- 2008
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7. Metabolism and disposition of n-butyl glycidyl ether in F344 rats and B6C3F1 mice.
- Author
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Chen LJ, Lebetkin EH, Nwakpuda EI, and Burka LT
- Subjects
- Administration, Oral, Animals, Biotransformation, Carbon Radioisotopes, Deamination, Dose-Response Relationship, Drug, Epoxy Compounds administration & dosage, Epoxy Compounds urine, Epoxy Resins administration & dosage, Feces chemistry, Female, Glucuronides urine, Glutathione analogs & derivatives, Glutathione urine, Male, Mice, Oxidation-Reduction, Rats, Rats, Inbred F344, Species Specificity, Sulfates urine, Tissue Distribution, Epoxy Compounds metabolism, Epoxy Resins metabolism
- Abstract
The disposition of [(14)C]-labeled n-butyl glycidyl ether (BGE, 3-butoxy-1,2-epoxypropane) was studied in rats and mice. The majority of a single p.o. dose (2-200 mg/kg) was excreted in urine (rats, 84-92%; mice, 64-73%) within 24 h. The rest of the dose was excreted in feces (rats, 2.6-7.7%; mice, 5.3-12%) and in expired air as (14)CO(2) (rats, 1.5%; mice, 10-18%), or remained in the tissues (rats, 2.7-4.4%; mice, 1.5-1.7%). No parent BGE was detected in rat or mouse urine. Fifteen urinary metabolites were identified, including 3-butoxy-2-hydroxy-1-propanol and its monosulfate or monoglucuronide conjugates, 3-butoxy-2-hydroxypropionic acid, O-butyl-N-acetylserine, butoxyacetic acid, 2-butoxyethanol, and 3-butoxy-1-(N-acetylcystein-S-yl)-2-propanol, the mercapturic acid metabolite derived from conjugation of glutathione (GSH) with BGE at the C-1 position. Some of these metabolites underwent further omega-1 oxidation to form a 3'-hydroxybutoxy substitution. One urinary metabolite was from omega-oxidation of 3-butoxy-1-(N-acetylcystein-S-yl)-2-propanol to yield the corresponding carboxylic acid. Oxidative deamination of 3-butoxy-1-(cystein-S-yl)-2-propanol gave the corresponding alpha-keto acid and alpha-hydroxy acid metabolites that were present in mouse urine but not in rat urine. An in vitro incubation of BGE with GSH showed that the conjugation occurred only at the C-1 position with or without the addition of GSH S-transferase.
- Published
- 2007
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8. Chemical and enzymatic oxidation of furosemide: formation of pyridinium salts.
- Author
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Chen LJ and Burka LT
- Subjects
- Animals, Biotransformation, Chromatography, High Pressure Liquid, Epoxy Compounds chemistry, Magnetic Resonance Spectroscopy, Male, Molecular Structure, Oxidation-Reduction, Pyridinium Compounds metabolism, Rats, Rats, Inbred F344, Salts, Spectrometry, Mass, Electrospray Ionization, Cytochrome P-450 Enzyme System metabolism, Diuretics chemistry, Diuretics metabolism, Furosemide chemistry, Furosemide metabolism, Microsomes, Liver drug effects, Microsomes, Liver enzymology, Pyridinium Compounds chemistry
- Abstract
Furosemide (Lasix) is frequently used in the treatment of cardiovascular and renal disease. Only one metabolite, furosemide glucuronide, has ever been identified. Oxidation of furosemide by cytochrome P450 has been demonstrated, but the metabolite(s) has never been identified. The oxidation of furosemide by dimethyldioxirane in acetone and by liver microsomal incubations was explored in this study. The first observable product from dimethyldioxirane oxidation was a ring-expanded enone resulting from an intramolecular condensation of the aldehyde group of the enonal, the secondary amine, and the carboxylic acid in a Mannich-like reaction. Keto-enol tautomerization and opening of the lactone gave a stable pyridinium salt. The pyridinium salt was also observed in the microsomal incubations of furosemide. The presence of an internal nucleophile in furosemide may have a significant effect on the toxicology and possibly the pharmacology of this furan.
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- 2007
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9. 14C-labeled pulegone and metabolites binding to alpha2u-globulin in kidneys of male F-344 rats.
- Author
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Ferguson LJ, Lebetkin EH, Lih FB, Tomer KB, Parkinson HD, Borghoff SJ, and Burka LT
- Subjects
- Animals, Carbon Radioisotopes metabolism, Cyclohexane Monoterpenes, Female, Male, Metabolic Networks and Pathways, Rats, Sex Factors, Alpha-Globulins chemistry, Kidney Glomerulus metabolism, Menthol pharmacokinetics, Monoterpenes pharmacokinetics
- Abstract
Pulegone is a major constituent of pennyroyal oil and a minor component of peppermint oil. Pulegone is biotransformed to menthofuran and menthones (diastereomeric menthone and isomenthone) in pennyroyal and peppermint as well as in rodents. Pulegone and menthofuran are hepatotoxic to rodents, and menthones are less toxic. The metabolism and disposition of pulegone and menthofuran were previously studied in rodents, and higher concentrations of pulegone- and menthofuran-derived radioactivity were observed in male than female rat kidney. One explanation is the association of pulegone and metabolites with a male rat-specific protein, alpha2u-globulin. To test this hypothesis, male and female rats were dosed orally with 14C-labeled pulegone (80 mg/kg, 120 microCi/kg) or menthofuran (60 mg/kg, 120 microCi/kg) or menthones (80 mg/kg, 120 microCi/kg) in corn oil, and the kidney cytosol was prepared 24 h after dosing. An equilibrium dialysis experiment showed that in all three studies the radioactivity was associated with kidney cytosol proteins of male but not female rats. The chemicals present in the male rat kidney cytosol after dialysis were extracted with dichloromethane and characterized by high-performance liquid chromatography (HPLC) and gas chromatography/mass spectrometry (GC-MS). All parent compounds were detected, and the metabolites characterized included piperitone from pulegone or menthones treatment, menthones and possibly 8-hydroxymenthones from pulegone treatment, and mintlactones (diastereomeric mintlactone and isomintlactone) and 7a-hydroxymintlactone from menthofuran treatment. Analysis of the male rat kidney cytosol by a gel filtration column demonstrated that the retention was due to reversible binding of these chemicals with the male rat-specific protein alpha2u-globulin. However, binding of pulegone and/or metabolites to alpha2u-globulin did not produce accumulation of this protein in the kidney.
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- 2007
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10. Immunohistochemical analysis of expressions of hepatic cytochrome P450 in F344 rats following oral treatment with kava extract.
- Author
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Clayton NP, Yoshizawa K, Kissling GE, Burka LT, Chan PC, and Nyska A
- Subjects
- Administration, Oral, Animals, Blood Glucose drug effects, Cholesterol blood, Cytochrome P-450 Enzyme System metabolism, Dietary Supplements toxicity, Dose-Response Relationship, Drug, Female, Hypertrophy chemically induced, Immunohistochemistry, Liver pathology, Liver Function Tests, Male, Rats, Rats, Inbred F344, gamma-Glutamyltransferase blood, gamma-Glutamyltransferase drug effects, Cytochrome P-450 Enzyme System drug effects, Kava toxicity, Liver drug effects, Liver enzymology
- Abstract
Kava (Piper methysticum), used for relaxation and pain relief, has been one of the leading dietary supplements and several reports linking hepatic functional disturbances and liver failure to kava have resulted in a ban on sales in Europe and Canada and the issuance of warnings by the US FDA. The National Toxicology Program conducted 14-week rat studies to characterize the toxicology of kava exposure in Fischer 344 rats [National Toxicity Program. 90 day gavage toxicity studies of KAVA KAVA EXTRACT in Fischer rats and B6C3F1 mice. Research Triangle Park, NC; 2005a; National Toxicity Program. Testing status of agents at NTP (KAVA KAVA EXTRACT M990058). Research Triangle Park, NC; 2005b. (http://ntp.niehs.nih.gov/index.cfm?objectid=071516E-C6E1-7AAA-C90C751E23D14C1B)]. Groups of 10 male and 10 female rats were administered kava extract by gavage at 0, 0.125, 0.25, 0.5, 1.0, and 2.0 g/kg/day. Increased gamma-glutamyl-transpeptidase (GGT) activities were observed in the 2.0 g/kg males and 1.0 and 2.0 g/kg females, as well as increased serum cholesterol levels in males and females at 0.5 g/kg and higher. Increases in incidence and severity of hepatocellular hypertrophy (HP) were noted in males at 1.0 g/kg and females at 0.5 g/kg and higher, as well as increased liver weights. Immunohistochemical analyses of the expression of cytochrome-P450 (CYP) enzymes in liver of the control and 1.0- and 2.0-g/kg-treated groups indicated decreased expression of CYP2D1 (human CYP2D6 homolog) in 2.0 g/kg females and increased expression of CYP1A2, 2B1, and 3A1 in 1.0 and 2.0 g/kg groups of both sexes. The no observed adverse effect levels were decided as 0.25 g/kg in both genders, based on neurotoxic effects, increases in GGT, cholesterol, liver weight, and HP and decreases in body weight. Kava-induced hepatic functional changes in the F344 rat might be relevant to human clinical cases of hepatotoxicity following exposure.
- Published
- 2007
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11. Metabolism of furans in vitro: ipomeanine and 4-ipomeanol.
- Author
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Chen LJ, DeRose EF, and Burka LT
- Subjects
- Acetylation, Animals, Cysteine metabolism, Furans chemistry, Glutathione metabolism, Glycine metabolism, Methylation, Microsomes metabolism, Molecular Structure, NADP metabolism, Oxidation-Reduction, Rats, Rats, Inbred F344, Terpenes chemistry, Furans metabolism, Terpenes metabolism
- Abstract
Ipomeanine (IPN), 4-ipomeanol (4-IPO), 1-ipomeanol (1-IPO), and 1,4-ipomeadiol (DIOL) are toxic 3-substituted furans found in mold-damaged sweet potatoes. IPN and 4-IPO are the most toxic, but all produce pulmonary toxicity in cattle and rodents, and 4-IPO induces hepatotoxicity in humans. These furans require metabolic activation to elicit toxicity, but the limited information obtained from previous metabolism studies prompted us to initiate the investigation reported here. Our initial studies of 4-IPO metabolism by rat liver microsomes demonstrated that the oxidation of 4-IPO to IPN and reduction to DIOL occurred and that more IPN was metabolized to a reactive species than 4-IPO or DIOL. Incubation of IPN and Gly produced a 2'-pyrrolin-5'-one adduct establishing that IPN was metabolized to an enedial. N-Acetylcysteine reacted with the 5'-aldehyde of the enedial to give two 2',5'-dihydro-2'-hydroxyfurans stabilized by H bonding between the 2'-OH and 3'-keto group. Reaction of the enedial metabolite of IPN with one GSH gave several adducts including a pyrrole derived from the 1,2-addition of GSH to the 5'-aldehyde as well as two tricyclic 2'-pyrrolines derived from the 1,4-addition of GSH at the 4'-position. The identities of the pyrrole and 2'-pyrroline GSH adducts were confirmed by observation of structurally similar adducts from Cys conjugation with the enedial metabolite of IPN. Several minor adducts from the conjugation of the enedial metabolite of IPN with two GSH were also detected. Mono-GSH and bis-GSH adducts were derived from both the 1,2-and 1,4-addition of GSH to the enedial metabolite of 4-IPO in rat liver microsomal incubations of 4-IPO and GSH. Sequential oxidation of 4-IPO to IPN and then to the enedial metabolite followed by GSH conjugation also occurred in the 4-IPO incubations. The complex structures of the reaction products of the enedial with biological nucleophiles may explain why the many attempts to identify 4-IPO adducts to protein have not been successful.
- Published
- 2006
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12. Disposition of 2,2',4,4',5,5'-hexabromodiphenyl ether (BDE153) and its interaction with other polybrominated diphenyl ethers (PBDEs) in rodents.
- Author
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Sanders JM, Lebetkin EH, Chen LJ, and Burka LT
- Subjects
- Animals, Carbon Radioisotopes, Chromatography, High Pressure Liquid, Feces chemistry, Female, Halogenated Diphenyl Ethers, Male, Mice, Phenyl Ethers chemistry, Phenyl Ethers urine, Polybrominated Biphenyls chemistry, Polybrominated Biphenyls urine, Radioactivity, Rats, Rats, Inbred F344, Phenyl Ethers pharmacokinetics, Polybrominated Biphenyls pharmacokinetics
- Abstract
The disposition of the 14C-labelled polybrominated diphenyl ether (PBDE) 2,2',4,4',5,5'-hexaBDE (BDE153) was investigated in rodents following single and multiple doses and in a mixture with radiolabelled 2,2',4,4'-tetraBDE (BDE47) and 2,2',4,4',5-pentaBDE (BDE99). In single exposure studies there was little or no effect of dose on BDE153 disposition in male rats in the range 1-100 micromol kg-1. No major sex or species differences in the in vivo fate of BDE153 were detected. BDE153 was absorbed in rats or mice following gavage by approximately 70%; retained in tissues; and poorly metabolized and slowly excreted. Mixture studies indicated that, relative to each other, more BDE47 was distributed to adipose tissue, more BDE153 accumulated in the liver, and BDE99 was metabolized to the greatest extent. BDE153 was probably retained in the liver due to minimal metabolism and elimination after 'first-pass' distribution to the tissue following gavage.
- Published
- 2006
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13. Metabolism and disposition of 1-bromopropane in rats and mice following inhalation or intravenous administration.
- Author
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Garner CE, Sumner SC, Davis JG, Burgess JP, Yueh Y, Demeter J, Zhan Q, Valentine J, Jeffcoat AR, Burka LT, and Mathews JM
- Subjects
- Animals, Chromatography, High Pressure Liquid, Hydrocarbons, Brominated administration & dosage, Hydrocarbons, Brominated pharmacokinetics, Infusions, Intravenous, Inhalation Exposure, Magnetic Resonance Spectroscopy, Male, Mice, Rats, Rats, Inbred F344
- Abstract
Workplace exposure to 1-bromopropane (1-BrP) can potentially occur during its use in spray adhesives, fats, waxes, and resins. 1-BrP may be used to replace ozone depleting solvents, resulting in an increase in its annual production in the US, which currently exceeds 1 million pounds. The potential for human exposure to 1-BrP and the reports of adverse effects associated with potential occupational exposure to high levels of 1-BrP have increased the need for the development of biomarkers of exposure and an improved understanding of 1-BrP metabolism and disposition. In this study, the factors influencing the disposition and biotransformation of 1-BrP were examined in male F344 rats and B6C3F1 mice following inhalation exposure (800 ppm) or intravenous administration (5, 20, and 100 mg/kg). [1,2,3-(13)C]1-BrP and [1-(14)C]1-BrP were administered to enable characterization of urinary metabolites using NMR spectroscopy, LC-MS/MS, and HPLC coupled radiochromatography. Exhaled breath volatile organic chemicals (VOC), exhaled CO(2), urine, feces, and tissues were collected for up to 48 h post-administration for determination of radioactivity distribution. Rats and mice exhaled a majority of the administered dose as either VOC (40-72%) or (14)CO(2) (10-30%). For rats, but not mice, the percentage of the dose exhaled as VOC increased between the mid ( approximately 50%) and high ( approximately 71%) dose groups; while the percentage of the dose exhaled as (14)CO(2) decreased (19 to 10%). The molar ratio of exhaled (14)CO(2) to total released bromide, which decreased as dose increased, demonstrated that the proportion of 1-BrP metabolized via oxidation relative to pathways dependent on glutathione conjugation is inversely proportional to dose in the rat. [(14)C]1-BrP equivalents were recovered in urine (13-17%, rats; 14-23% mice), feces (<2%), or retained in the tissues and carcass (<6%) of rats and mice administered i.v. 5 to 100 mg/kg [(14)C]1-BrP. Metabolites characterized in urine of rats and mice include N-acetyl-S-propylcysteine, N-acetyl-3-(propylsulfinyl)alanine, N-acetyl-S-(2-hydroxypropyl)cysteine, 1-bromo-2-hydroxypropane-O-glucuronide, N-acetyl-S-(2-oxopropyl)cysteine, and N-acetyl-3-[(2-oxopropyl)sulfinyl]alanine. These metabolites may be formed following oxidation of 1-bromopropane to 1-bromo-2-propanol and bromoacetone and following subsequent glutathione conjugation with either of these compounds. Rats pretreated with 1-aminobenzotriazole (ABT), a potent inhibitor of P450 excreted less in urine (down 30%), exhaled as (14)CO2 (down 80%), or retained in liver (down 90%), with a concomitant increase in radioactivity expired as VOC (up 52%). Following ABT pretreatment, rat urinary metabolites were reduced in number from 10 to 1, N-acetyl-S-propylcysteine, which accounted for >90% of the total urinary radioactivity in ABT pretreated rats. Together, these data demonstrate a role for cytochrome P450 and glutathione in the dose-dependent metabolism and disposition of 1-BrP in the rat.
- Published
- 2006
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14. Metabolism and disposition of 2,2',4,4',5-pentabromodiphenyl ether (BDE99) following a single or repeated administration to rats or mice.
- Author
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Chen LJ, Lebetkin EH, Sanders JM, and Burka LT
- Subjects
- Adipose Tissue metabolism, Administration, Oral, Animals, Carbon Isotopes administration & dosage, Carbon Isotopes pharmacokinetics, Carbon Isotopes urine, Dose-Response Relationship, Drug, Female, Halogenated Diphenyl Ethers, Male, Mice, Oxidation-Reduction, Phenyl Ethers administration & dosage, Phenyl Ethers urine, Rats, Rats, Inbred F344, Sex Factors, Species Specificity, Phenyl Ethers pharmacokinetics
- Abstract
The metabolism and disposition of 14C-labelled 2,2',4,4',5-pentabromodiphenyl ether (BDE99) were studied in F344 rats and B6C3F1 mice. Approximately 85% of a 1 micromol kg-1 oral dose was absorbed by male rats and mice. Within 24 h following oral doses ranging from 0.1 to 1000 micromol kg-1 to rats, 39-47% of the dose was excreted in the faeces (including 16% unabsorbed), up to 2% was excreted in the urine, and 34-38% remained in the tissues, mostly in adipose tissue. Mice excreted more in the urine and less in the faeces than rats. Tissue accumulation was observed following repeated dosing to rats. Two dihydrohydroxy-S-glutathionyl and two S-glutathionyl conjugates of BDE99, 2,4,5-tribromophenol glucuronide, two mono-hydroxylated BDE99 glucuronides, and three mono-hydroxylated tetrabromodiphenyl ether glucuronides were identified in male rat bile. 2,4,5-Tribromophenol and its glucuronide and sulfate conjugates, were identified in male rat urine. 2,4,5-Tribromophenol, one mono-hydroxylated tetrabromodiphenyl ether, and two mono-hydroxylated BDE99 were characterized in male rat faeces. BDE99 undergoes more extensive metabolism than does BDE47. Half of the absorbed oral dose in male rats was excreted in 10 days mostly as metabolites derived from arene oxide intermediates.
- Published
- 2006
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15. Metabolism and disposition of 2,2',4,4'- tetrabromodiphenyl ether following administration of single or multiple doses to rats and mice.
- Author
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Sanders JM, Chen LJ, Lebetkin EH, and Burka LT
- Subjects
- Animals, Dose-Response Relationship, Drug, Drug Administration Schedule, Female, Halogenated Diphenyl Ethers, Male, Metabolic Clearance Rate, Mice, Organ Specificity, Polybrominated Biphenyls, Rats, Rats, Inbred F344, Species Specificity, Tissue Distribution, Hydrocarbons, Brominated administration & dosage, Hydrocarbons, Brominated pharmacokinetics, Phenyl Ethers administration & dosage, Phenyl Ethers pharmacokinetics
- Abstract
The metabolism and disposition of (14)C-labelled 2,2',4,4'-tetrabromodiphenyl ether (BDE47) were investigated in F344 rats and B6C3F1 mice. Approximately 75-85% of 1 micromol BDE47 kg(-1) was absorbed following oral administration to either rats or mice. Sex and species differences were observed in tissue distribution and excretion of BDE47-derived radioactivity. Absorption and distribution of (14)C to major tissues were dose-proportional in male rats from 0.1 to 1,000 micromol kg(-1). BDE47-derived radioactivity increased in all rat and mouse tissues examined following repeated daily doses of 1 micromol kg(-1). Accumulation of (14)C in tissues of mice was less than in corresponding rat tissues. Glutathione conjugates of BDE47 were excreted in rat bile. A glucuronide and a sulfate conjugate of 2,4-dibromophenol were detected in the urine of BDE47-treated rats. BDE47 appears to induce its own metabolism. Increased formation of reactive metabolites over time may correlate with toxicological effects in BDE47-treated rodents.
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- 2006
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16. Differential expression of CYP1A, 2B, and 3A genes in the F344 rat following exposure to a polybrominated diphenyl ether mixture or individual components.
- Author
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Sanders JM, Burka LT, Smith CS, Black W, James R, and Cunningham ML
- Subjects
- Administration, Oral, Animals, Aryl Hydrocarbon Hydroxylases metabolism, Complex Mixtures, Cytochrome P-450 CYP1A1 metabolism, Cytochrome P-450 CYP2B1 metabolism, Cytochrome P-450 CYP3A, Halogenated Diphenyl Ethers, Male, Oxidoreductases, N-Demethylating metabolism, RNA, Messenger metabolism, Rats, Rats, Inbred F344, Reverse Transcriptase Polymerase Chain Reaction, Up-Regulation, Aryl Hydrocarbon Hydroxylases genetics, Cytochrome P-450 CYP1A1 genetics, Cytochrome P-450 CYP2B1 genetics, Flame Retardants toxicity, Gene Expression Regulation, Enzymologic drug effects, Oxidoreductases, N-Demethylating genetics, Phenyl Ethers toxicity, Polybrominated Biphenyls toxicity
- Abstract
Polybrominated diphenyl ethers (PBDEs), used as flame retardants, have been detected in the environment and in mammalian tissues and fluids. Evidence indicates that PBDE mixtures induce CYPs through aryl hydrocarbon receptor (AhR)-dependent and -independent pathways. The present work has investigated the effects of individual components of a commercial PBDE mixture (DE71) on expression of CYP1A1, a biomarker for activation of the AhR (dioxin-like), and CYP2B and CYP3A, biomarkers for activation of the constitutive androstane and pregnanexreceptors (CAR and PXR), respectively, in the rat. Male F344 rats were dosed orally on three consecutive days with either DE71, PBDE components, 2,2',4,4'-tetraBDE (BDE47), 2,2',4,4',5-pentaBDE (BDE99), 2,2',4,4',5,5'-hexaBDE (BDE153), representative polybrominated dibenzofurans (PBDFs) present in DE71, or reference PCBs. Differential expression of target genes was determined in liver 24 h after the last dose. Quantitative PCR analysis indicated up-regulation of CYP1A1 by DE71; however, the response was weak compared to that for dioxin-like PCB126. Individual PBDE components of DE71 up-regulated CYP1A1 only at the highest administered dose (100 micromol/kg/day). Representative PBDFs efficiently up-regulated CYP1A1; therefore, they, along with other PBDFs and polybrominated dibenzodioxins detected in DE71 and individual PBDE components, may be responsible for most, if not all, dioxin-like properties previously observed for PBDEs. Conversely, PBDEs appear capable of up-regulating CYP2B and CYP3A in rats at doses similar to that for non-dioxin-like PCB153. These results indicate that in vivo PBDE-mediated toxicity would be better categorized by AhR-independent mechanisms, rather than the well-characterized AhR-dependent mechanism associated with exposure to dioxin-like chemicals.
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- 2005
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17. Metabolism and disposition of juglone in male F344 rats.
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Chen LJ, Lebetkin EH, and Burka LT
- Subjects
- Administration, Oral, Administration, Topical, Animals, Injections, Intravenous, Male, Metabolic Clearance Rate, Organ Specificity, Rats, Rats, Inbred F344, Tissue Distribution, Feces chemistry, Kidney metabolism, Liver metabolism, Naphthoquinones administration & dosage, Naphthoquinones pharmacokinetics
- Abstract
The metabolism and disposition of 14C-labelled juglone in male F344 rats following oral, intravenous and dermal administration were studied. Approximately 40-50% of an oral dose (0.1 to 10 mg kg-1) and less than 20% of the dermal dose (4 mg kg-1) were absorbed within 24 h. Most of the oral dose was excreted in faeces and urine within 24 h and only 1-3% remained in the tissues. High concentrations of juglone-derived radioactivity were found in kidney for all three dosing routes. The accumulation in kidney can be attributed to covalent binding of juglone and/or metabolites to cytosolic protein. Five metabolites were identified in the urine of rats treated with an oral dose: 1,4,5-trihydroxynaphthalene di-glucuronide, 1,4,5-trihydroxynaphthalene mono-glucuronide mono-sulfate, 2-sulfo-2,3-dihydrojuglone, 4,8-dihydroxy-1-tetralone mono-glucuronide and 1,4,5-trihydroxynaphthalene mono-glucuronide. Liver microsomal incubations of juglone in the presence of NAD(P)H and UDP-glucuronic acid gave rise to two 1,4,5-trihydroxynaphthalene mono-glucuronides.
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- 2005
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18. Pharmacokinetics and disposition of the kavalactone kawain: interaction with kava extract and kavalactones in vivo and in vitro.
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Mathews JM, Etheridge AS, Valentine JL, Black SR, Coleman DP, Patel P, So J, and Burka LT
- Subjects
- ATP Binding Cassette Transporter, Subfamily B, Member 1 metabolism, Adenosine Triphosphatases metabolism, Administration, Oral, Animals, Anti-Anxiety Agents blood, Anti-Anxiety Agents urine, Biological Availability, Cytochrome P-450 Enzyme Inhibitors, Cytochrome P-450 Enzyme System metabolism, Humans, Injections, Intravenous, Lactones pharmacokinetics, Male, Microsomes, Liver enzymology, Microsomes, Liver metabolism, Plant Extracts pharmacokinetics, Pyrones administration & dosage, Pyrones blood, Rats, Rats, Inbred F344, Anti-Anxiety Agents pharmacokinetics, Kava chemistry, Lactones pharmacology, Plant Extracts pharmacology, Pyrones pharmacokinetics
- Abstract
Reported adverse drug interactions with the popular herb kava have spurred investigation of the mechanisms by which kava could mediate these effects. In vivo and in vitro experiments were conducted to examine the effects of kava extract and individual kavalactones on cytochrome P450 (P450) and P-glycoprotein activity. The oral pharmacokinetics of the kavalactone, kawain (100 mg/kg), were determined in rats with and without coadministration of kava extract (256 mg/kg) to study the effect of the extract on drug disposition. Kawain was well absorbed, with >90% of the dose eliminated within 72 h, chiefly in urine. Compared with kawain alone, coadministration with kava extract caused a tripling of kawain AUC(0-8 h) and a doubling of C(max). However, a 7-day pretreatment with kava extract (256 mg /kg/day) had no effect on the pharmacokinetics of kawain administered on day 8. The 7-day pretreatment with kava extract only modestly induced hepatic P450 activities. The human hepatic microsomal P450s most strongly inhibited by kava extract (CYP2C9, CYP2C19, CYP2D6, CYP3A4) were inhibited to the same degree by a "composite" kava formulation composed of the six major kavalactones contained in the extract. K(i) values for the inhibition of CYP2C9 and CYP2C19 activities by methysticin, dihydromethysticin, and desmethoxyyangonin ranged from 5 to 10 microM. Kava extract and kavalactones (< or =9 microM) modestly stimulated P-glycoprotein ATPase activities. Taken together, the data indicate that kava can cause adverse drug reactions via inhibition of drug metabolism.
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- 2005
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19. Transcriptional profiling of the left and median liver lobes of male f344/n rats following exposure to acetaminophen.
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Irwin RD, Parker JS, Lobenhofer EK, Burka LT, Blackshear PE, Vallant MK, Lebetkin EH, Gerken DF, and Boorman GA
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- Animals, Dose-Response Relationship, Drug, Inflammation, Liver metabolism, Liver pathology, Male, Necrosis, Oligonucleotide Array Sequence Analysis, Rats, Rats, Inbred F344, Acetaminophen toxicity, Analgesics, Non-Narcotic toxicity, Gene Expression Profiling, Liver anatomy & histology, Liver drug effects
- Abstract
The liver is a common organ for transcriptional profiling because of its role in xenobiotic metabolism and because hepatotoxicity is a common response to chemical exposure. To explore the impact that sampling different lobes may have on transcriptional profiling experiments we have examined and compared gene expression profiles of the left and median lobes of livers from male F344 rats exposed to toxic and nontoxic doses of acetaminophen. Transcript profiling using micorarrays revealed clear differences in the response of the left and median liver lobes of F344 rats to acetaminophen exposure both at low doses as well as doses that caused hepatotoxicity. Differences were found in the total number of differentially expressed genes in the left and median lobes, the number and identity of genes that were differentially expressed uniquely only in the left or median lobe, and in the patterns of gene expression. While it is not possible to generalize these results to compounds other than acetaminophen or other strains of rat, these results highlight the potential impact of sampling differences on the interpretation of gene expression profiles in the liver.
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- 2005
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20. Mercury concentrations in brain and kidney following ethylmercury, methylmercury and Thimerosal administration to neonatal mice.
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Harry GJ, Harris MW, and Burka LT
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- Animals, Animals, Newborn, Ethylmercuric Chloride administration & dosage, Injections, Intramuscular, Male, Methylmercury Compounds administration & dosage, Mice, Thimerosal administration & dosage, Tissue Distribution, Brain metabolism, Ethylmercuric Chloride pharmacokinetics, Kidney metabolism, Mercury pharmacokinetics, Methylmercury Compounds pharmacokinetics, Thimerosal pharmacokinetics
- Abstract
The distribution of mercury to the brain following an injection of methylmercury (MeHg) or ethylmercury (EtHg) was examined in immature mice. Postnatal day (PND) 16 CD1 mice received MeHg chloride either by IM injection or by gavage. At 24 h and 7 days post-injection, total mercury concentrations were determined in blood, kidney, brain, and muscle by cold vapor atomic fluorescence spectrometry. At 24 h, an IM injection of MeHg chloride (17.4 microg) produced total mercury concentrations in the blood (6.2 +/- 0.9 microg/g), brain (5.6 +/- 1.3 microg; 0.6% delivered dose), and kidney (25.2 +/- 5.6 microg; 1.1%), approximately 30% of that obtained from oral administration (blood: 17.9 +/- 1.0 microg; brain: 16.1 +/- 1.2 microg, 1.5%; kidney: 64.9 +/- 6.3 microg, 2.7%). For comparison, PND 16 mice received an IM injection of concentrated dosing suspensions (2 microl dosing vol.) for EtHg chloride (6 microg) or Thimerosal (15.4 microg). For EtHg, approximately 0.39 +/- 0.06% of the injected mercury was detected in the brain and 3.5 +/- 0.6% in the kidney at 24 h. Thimerosal IM injection resulted in 0.22 +/- 0.04% in the brain, and 1.7 +/- 0.3% in the kidney. By 7 days, mercury levels decreased in the blood but were unchanged in the brain. An acute IM injection to adult mice of each suspension at a 10-fold higher dose resulted an average 0.1% mercury in the brain, and higher levels in the blood, kidney, and muscle as compared to the young. In immature mice, MeHg delivered via oral route of administration resulted in significantly greater tissue levels as compared to levels from IM injection. Comparisons of tissue distribution following IM administration suggest that an oral route of administration for mercury is not comparable to an IM delivery and that MeHg does not appear to be a good model for EtHg-containing compounds.
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- 2004
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21. Toxicology and carcinogenesis studies of microencapsulated trans-cinnamaldehyde in rats and mice.
- Author
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Hooth MJ, Sills RC, Burka LT, Haseman JK, Witt KL, Orzech DP, Fuciarelli AF, Graves SW, Johnson JD, and Bucher JR
- Subjects
- Administration, Oral, Animals, Body Weight drug effects, Carcinogenicity Tests, Dose-Response Relationship, Drug, Drug Compounding, Female, Longitudinal Studies, Male, Mice, Mice, Inbred Strains, Random Allocation, Rats, Rats, Inbred F344, Stomach pathology, Survival Analysis, Acrolein analogs & derivatives, Acrolein toxicity, Carcinogens toxicity, Flavoring Agents toxicity, Stomach drug effects
- Abstract
trans-Cinnamaldehyde is a widely used natural ingredient that is added to foods and cosmetics as a flavoring and fragrance agent. Male and female F344/N rats and B6C3F(1) mice were exposed to microencapsulated trans-cinnamaldehyde in the feed for three months or two years. All studies included untreated and vehicle control groups. In the three-month studies, rats and mice were given diets containing 4100, 8200, 16,500, or 33,000 ppm trans-cinnamaldehyde. In rats, feed consumption was reduced in all exposed groups. In mice, feed consumption was reduced in the highest dose groups. Body weights of all treated males were less than controls. Body weights were reduced in female rats exposed to 16,500 or 33,000 ppm and female mice exposed to 8200 ppm or greater. All rats survived to the end of the study but some male mice in the highest dose groups died due to inanition from unpalatability of the dosed feed. The incidence of squamous epithelial hyperplasia of the forestomach was significantly increased in rats exposed to 8200 ppm or greater and female mice exposed to 33,000 ppm. In mice, the incidence of olfactory epithelial degeneration of the nasal cavity was significantly increased in males and females exposed to 16,500 ppm and females exposed to 33,000 ppm. In the two-year studies, rats and mice were exposed to 1000, 2100, or 4100 ppm trans-cinnamaldehyde. Body weights were reduced in mice exposed to 2100 ppm and in rats and mice exposed to 4100 ppm. In rats, hippuric acid excretion was dose proportional indicating that absorption, metabolism, and excretion were not saturated. No neoplasms were attributed to trans-cinnamaldehyde in rats or mice. Squamous cell papillomas and carcinomas of the forestomach were observed in male and female mice but the incidences were within the NTP historical control range and were not considered to be related to trans-cinnamaldehyde exposure.
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- 2004
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22. Lung deposition and clearance of inhaled vanadium pentoxide in chronically exposed F344 rats and B6C3F1 mice.
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Dill JA, Lee KM, Mellinger KH, Bates DJ, Burka LT, and Roycroft JH
- Subjects
- Administration, Inhalation, Animals, Dose-Response Relationship, Drug, Female, Lung drug effects, Lung pathology, Mice, Mice, Inbred Strains, Models, Biological, Organ Size drug effects, Rats, Rats, Inbred F344, Vanadium Compounds administration & dosage, Vanadium Compounds toxicity, Lung metabolism, Toxicity Tests, Chronic, Vanadium Compounds pharmacokinetics
- Abstract
Female F344 rats and B6C3F1 mice were exposed to vanadium pentoxide (V2O5) at concentrations of 0, 0.5, 1, or 2 mg/m3 (rats) and 0, 1, 2, or 4 mg/m3 (mice) for 6 h/day, 5 days/week (for up to 18 months), by whole-body inhalation. Lung weights and lung burdens of vanadium were determined for exposed animals after 1, 5, and 12 days and after 1, 2, 6, 12, and 18 months of V2O5 exposure. Blood vanadium concentrations were determined at 1, 2, 6, 12, and 18 months for all animals including controls. A model that assumed a first-order deposition rate and a first-order elimination rate for vanadium was employed to fit the lung burden data. Comparisons between exposed groups indicated a progressive increase in lung weight with exposure concentration and time on exposure for both species. The vanadium lung burdens appeared to reach steady state in the lowest exposure groups (0.5 and 1 mg/m3 for rats and mice, respectively) but showed a decline in the higher exposure groups. This deposition pattern was similar between rats and mice but the maximum lung burdens were observed at different times (1 or 2 months in mice vs. 6 months in rats). The vanadium deposition rate decreased faster in mice, while the elimination half-lives of vanadium lung burdens were about six- to nine-fold shorter in mice than in rats at 1 and 2 mg/m3. Thus, the retention of vanadium in the lungs at 18 months was lower in mice (approximately 2% retained) compared with rats (13-15% retained) at the common exposure concentrations of 1 and 2 mg/m3. The lung burden data were approximately proportional to the exposure concentration in both species, likely due to concomitant decreases in deposition and elimination to a similar extent with increasing exposure. The area under the lung burden versus time curves and the area under the blood concentration (control-normalized) versus time curves were also proportional to exposure concentration. The progression of pathological changes in the lung with exposure and time is thought to affect the pattern and/or extent of vanadium deposition in the lungs following repeated exposures to V2O5.
- Published
- 2004
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23. NTP technical report on the toxicity studies of Butanal oxime (CAS No. 110-69-0) administered in drinking water and by gavage to F344/N rats and B6C3F1 mice.
- Author
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Burka LT
- Subjects
- Administration, Oral, Animals, Body Weight drug effects, Drinking Water, Female, Hematologic Tests, Histocytochemistry, Male, Mice, Necrosis chemically induced, Neoplasms chemically induced, Oximes administration & dosage, Rats, Toxicity Tests, Oximes toxicity
- Abstract
Butanal oxime is used as a volatile antiskinning agent in paints, inks, and similar products. Butanal oxime was chosen for toxicology testing as a representative of the aldoxime class. Male and female F344/N rats and B6C3F1 mice received butanal oxime (99 percent pure) in drinking water for 15 days or by gavage in 0.5 percent methylcellulose for 14 weeks. Animals were evaluated for clinical pathology, reproductive system effects, and histopathology. Genetic toxicology studies were conducted in Salmonella typhimurium, cultured Chinese hamster ovary cells, and mouse peripheral blood erythrocytes. In the 15-day studies, groups of five male and five female rats and mice received 0, 312, 625, 1,250, 2,500, or 5,000 ppm butanal oxime in drinking water, resulting in average daily doses of approximately 40, 70, or 100 mg butanal oxime/kg body weight to male and female rats; 45, 90, 130, 200, or 300 mg/kg to male mice; and 45, 85, 100, 130, or 170 mg/kg to female mice. Due to body weight loss and lack of water consumption, all male and female rats receiving 2,500 or 5,000 ppm were removed from the study on day 9; average daily doses were not calculated for these groups. All other rats and mice survived until the end of the studies. Mean body weights of 1,250 ppm male and female rats and 2,500 and 5,000 ppm male and female mice were significantly less than those of the controls. Male mice receiving 5,000 ppm and females receiving 2,500 or 5,000 ppm lost weight during the study. Water consumption by rats and mice receiving 1,250 ppm or greater was less than that by the controls. Thinness in 2,500 and 5,000 ppm rats and mice was the only clinical finding of toxicity. Spleen weights were significantly decreased in 2,500 and 5,000 ppm female mice. No chemical-related lesions were observed grossly; histologic examinations were not performed. In the 14-week studies, groups of 10 male and 10 female rats and mice received butanal oxime by gavage at doses of 0, 25, 50, 100, 200, or 600 mg/kg, 5 days per week for 14 weeks. All 600 mg/kg rats died or were killed moribund during the first week of the study; in the 600 mg/kg mouse groups, seven males and nine females died, were killed moribund, or were killed accidentally before the end of the study. Mean body weights of 100 and 200 mg/kg male rats, 600 mg/kg male mice, and female mice administered 50 mg/kg or greater were less than those of the controls. Clinical findings of toxicity in 600 mg/kg rats included loss of coordination, wobbly gait, shaking, blinking, constant grooming and scratching of the face, head weaving, burying of the face in bedding, lethargy, and prostration; in 600 mg/kg mice, clinical findings included ataxia, loss of balance after rearing, squinting, and burying of the face in the bedding. Hematology results of the 14-week gavage studies indicate that butanal oxime induces a methemoglobinemia and a responsive anemia in rats and mice. Spleen weights of 100 and 200 mg/kg male rats, female rats administered 50 mg/kg or greater, and 200 and 600 mg/kg male mice were increased, as were the liver weights of 200 mg/kg female rats and mice. In animals that died early due to butanal oxime administration, hepatocellular necrosis was the primary pathologic finding. Degeneration of the nasal olfactory epithelium was observed in dosed rats and mice that died early as well as in animals that survived to the end of the studies. Additional chemical-related nasal findings were respiratory epithelial changes in male rats and suppurative exudate in male and female mice. Increased incidences and/or severities of splenic hematopoietic cell proliferation and pigmentation (hemosiderin) as well as bone marrow hyperplasia were also observed in dosed groups, particularly in the 200 and 600 mg/kg groups, and were indicative of erythrocyte damage. Butanal oxime (3 to 10,000 ug/plate) was mutagenic in S. typhimurium strain TA1535 in the presence of 5 percent or 10 percent rat liver S9; an equivocal response was seen in TA100 with 30 percent rat S9, and no mutagenic activity was seen in TA98, with or without rat or hamster liver S9. Butanal oxime induced chromosomal aberrations in cultured Chinese hamster ovary cells, with and without S9. Significant increases in the frequencies of micronucleated normochromatic erythrocytes were observed in vivo in peripheral blood of male and female mice administered 25 to 600 mg/kg butanal oxime for 14 weeks by gavage. Synonyms: Butanaloxime; butylaldoxime; butyraldehyde oxime; n-butyraldehyde oxime; butyraldoxime; n-butyraldoxime Trade names: Exkin 1, Exkin No. 1 Anti-Skinning Agent, Skino #1, Troykyd Anti-Skin BTO
- Published
- 2004
24. Metabolism of (R)-(+)-menthofuran in Fischer-344 rats: identification of sulfonic acid metabolites.
- Author
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Chen LJ, Lebetkin EH, and Burka LT
- Subjects
- Animals, Female, Male, Monoterpenes chemistry, Monoterpenes pharmacology, Rats, Rats, Inbred F344, Sulfonic Acids analysis, Sulfonic Acids chemistry, Monoterpenes metabolism, Sulfonic Acids metabolism
- Abstract
(R)-(+)-Menthofuran is a metabolite of (R)-(+)-pulegone, the chief constituent of pennyroyal oil. Menthofuran has been shown to account for a significant percentage of pulegone toxicity through further metabolism to a reactive intermediate, an enonal (2-Z-(2'-keto-4'-methylcyclohexylidene)propanal). Hydration of the enonal followed by a 1,4-dehydration and rearrangement gives rise to diastereomeric (-)-mintlactone and (+)-isomintlactone (mintlactones). We have conducted disposition studies on pulegone as part of the National Toxicology Program initiative in herbal medicines and dietary supplements, and have reported previously unknown urinary metabolites of pulegone. Comparative metabolism studies of 14C-labeled menthofuran in Fischer-344 (F344) rats were carried out to determine urinary metabolites of pulegone that are derived from the menthofuran pathway. Three sulfonic acid metabolites, namely, hexahydro-3,6-dimethyl-1-(2-sulfoethyl)-2H-indol-2-one, hexahydro-3,6-dimethyl-7a-sulfo-2(3H)-benzofuranone, and 2-sulfomenthofuran, were identified in urine of treated rats. Formation of these metabolites may be derived from reactions of the enonal with taurine or glutathione (GSH) (or sulfite ion). Other identified urinary metabolites of menthofuran could be attributed to further metabolism of mintlactones. Further hydroxylation of mintlactones could give 7a-hydroxymintlactone and 6,7a-dihydroxymintlactone. Glucuronidation or reduction of 7a-hydroxymintlactone could give rise to the major metabolites 7a-hydroxymintlactone glucuronide and 2-[2'-keto-4'-methylcyclohexyl]propionic acids. Glucuronidation or repeated hydroxylation/dehydration of 2-[2'-keto-4'-methylcyclohexyl]propionic acids could result in formation of hexahydro-3,6-dimethyl-7a-hydroxy-2(3H)-benzofuranone glucuronide and 2-(2'-hydroxy-4'-methylphenyl)propionic acid. 2-(Glutathion-S-yl)menthofuran, a GSH conjugate of the enonal that has been partially characterized in bile of rats dosed with pulegone, is at most a minor biliary metabolite of menthofuran in rats.
- Published
- 2003
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25. Comparative disposition of (R)-(+)-pulegone in B6C3F1 mice and F344 rats.
- Author
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Chen LJ, Lebetkin EH, and Burka LT
- Subjects
- Administration, Oral, Animals, Bile chemistry, Biotransformation, Carbon Isotopes, Cyclohexane Monoterpenes, Drug Administration Schedule, Drug Evaluation, Feces chemistry, Female, Injections, Intravenous, Kidney chemistry, Kidney drug effects, Liver chemistry, Liver drug effects, Lung chemistry, Lung drug effects, Male, Mice, Mice, Inbred Strains genetics, Monoterpenes administration & dosage, Monoterpenes metabolism, Rats, Rats, Inbred F344 genetics, Sex Characteristics, Species Specificity, Tissue Distribution genetics, Mice, Inbred Strains metabolism, Monoterpenes pharmacokinetics, Rats, Inbred F344 metabolism, Tissue Distribution drug effects
- Abstract
Pulegone is a monoterpene ketone that is usually associated with the herb pennyroyal but is also found in the essential oils from many other mint species. It is the major constituent of pennyroyal oil. Pennyroyal is used as a flavoring and fragrance and as an herbal medicine to induce menstruation and abortion. A disposition study of 14C-pulegone in B6C3F1 mice and F344 rats has been conducted at doses from 0.8 to 80 mg/kg. Mice excrete 85 to 100% of the dose in 24 h. Rats excrete only 59 to 81% of the administered radioactivity in the same time, primarily in urine and feces, with a trace in respired air. Consequently, tissue concentrations are lower in mice than in rats. Male rats tend to have higher tissue concentrations, especially in kidney, than female rats have, but this sex difference is not seen in mice. The residual radioactivity at 24 h demonstrates potential for accumulation of pulegone-derived material in several tissues following multiple doses. The metabolic profile is complex in both species, with at least three pathways involving hydroxylation, reduction, or conjugation with glutathione as first steps. Mercapturic acid pathway metabolites were detected in bile in mice and both bile and urine in rats.
- Published
- 2003
- Full Text
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26. Single administration toxicokinetic studies of decalin (decahydronaphthalene) in rats and mice.
- Author
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Dill JA, Fuciarelli AF, Lee KM, Mellinger KM, Chan PC, Burka LT, and Roycroft JH
- Subjects
- Administration, Inhalation, Age Factors, Alpha-Globulins urine, Animals, Area Under Curve, Dose-Response Relationship, Drug, Female, Kidney drug effects, Kidney metabolism, Male, Mice, Mice, Inbred Strains, Naphthalenes administration & dosage, Rats, Rats, Inbred F344, Sex Factors, Solvents, Naphthalenes pharmacokinetics, Naphthalenes toxicity
- Abstract
Decalin (decahydronaphthalene) is an industrial solvent known to cause alpha2u-globulin nephropathy in male rats. Studies were conducted using decalin (mixture of cis and trans isomers) to (1) characterize systemic elimination of decalin in rats and mice and (2) evaluate disposition of decalin, its metabolites, and kidney alpha2u-globulin in young and old rats of both sexes following a single 6-h whole-body inhalation exposure at up to 400 ppm decalin. Additionally, a separate group of young male F344/N rats were administered either cis- or trans-decalin iv at doses up to 20 mg/kg to assess disposition of each isomer, its metabolites, and kidney alpha2u-globulin. Decalin was eliminated from blood in a dose-dependent manner, regardless of sex, age, or species. C0 and AUC infinity increased supra-proportionally with exposure concentration. Mice were more efficient in eliminating decalin than rats at lower exposure concentrations, but nonlinear elimination kinetics were more noticeable at 400 ppm. Sex differences in blood decalin elimination were observed in rats; females had a consistently higher AUC infinity at all exposure concentrations. There was a dose-dependent increase in kidney decalin, decalone, and alpha2u-globulin in male rats exposed to decalin. Kidney alpha2u-globulin and decalone concentrations in old male rats were substantially lower than those in young males, but were similar to those observed in all (young and old) females. Compared to old males and all females, young male rats had significantly lower urinary decalol concentrations, but higher kidney decalin, decalone, and alpha2u-globulin concentrations. Administration of decalin to male rats as either the cis or trans isomer revealed that more cis -decalone is produced per unit dose as compared to trans-decalone, and that more trans-decalin accumulated in the kidney (as alpha2u-globulin-ligand complexes) compared to cis-decalin. These patterns of isomer-specific metabolism were also reflected in the cis/trans ratios of decalin in blood, as well as urinary decalol metabolites. The ratio of alpha2u-globulin to the total amount of decalin plus decalone measured in the male rat kidney was approximately 1.0. Therefore, alpha2u-globulin was a key factor in the accumulation of decalin and decalone in kidneys of young male rats, decalin and decalone were practically absent in all females and in old males.
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- 2003
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27. Alpha 2u-globulin nephropathy and carcinogenicity following exposure to decalin (decahydronaphthalene) in F344/N rats.
- Author
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Dill JA, Lee KM, Renne RA, Miller RA, Fuciarelli AF, Gideon KM, Chan PC, Burka LT, and Roycroft JH
- Subjects
- Adenoma metabolism, Adenoma pathology, Administration, Inhalation, Alpha-Globulins, Animals, Carcinogenicity Tests, Carcinogens administration & dosage, Carcinoma metabolism, Carcinoma pathology, Cell Division drug effects, Dose-Response Relationship, Drug, Female, Hyalin metabolism, Kidney metabolism, Kidney pathology, Kidney Neoplasms metabolism, Kidney Neoplasms pathology, Kidney Tubules, Proximal drug effects, Kidney Tubules, Proximal pathology, Male, Naphthalenes administration & dosage, Organ Size drug effects, Rats, Rats, Inbred F344, Sex Factors, Solvents, Adenoma chemically induced, Carcinogens toxicity, Carcinoma chemically induced, Kidney drug effects, Kidney Neoplasms chemically induced, Naphthalenes toxicity
- Abstract
Decalin (decahydronaphthalene) is a widely used industrial solvent known to cause male rat-specific alpha2u-globulin nephropathy. In this project, 13-week and two-year inhalation studies of decalin were conducted consecutively in both sexes of F344/N rats. The key objectives were to (1) characterize the 13-week toxicity of decalin in rats, with an emphasis on nephropathy in males; (2) compare the kidney concentrations of decalin, 2-decalone, and alpha2u-globulin in males over 2 to 13 weeks of decalin exposure; and (3) correlate male rat nephropathy observed in the 13-week study with renal carcinogenicity in the two-year study. F344 rats (M/F) were exposed via whole-body inhalation to 0, 25, 50, 100, 200, or 400 ppm decalin for 13 weeks. Urine was collected at weeks 2 and 6 for creatinine and decalol analyses and at week 12 for clinical urinalysis. Right kidneys were collected from male rats at weeks 2 and 6 and from both sexes at week 13, homogenates were prepared using the whole kidney, and these homogenates were analyzed for alpha2u-globulin, decalin, and 2-decalone. Left kidneys were evaluated for histopathology and cell proliferation utilizing a proliferating cell nuclear antigen technique and counting proximal renal tubular epithelial cells to determine cell labeling indices. Necropsies and histopathologic evaluations were performed at week 13. Decalin exposure caused increases in kidney weight, urinalysis parameters (protein, AST, LDH), kidney alpha2u-globulin concentration, and proximal convoluted renal tubular cell proliferation in males. These changes were accompanied by microscopic lesions (accumulation of hyaline droplets in cortical tubules, regeneration of proximal tubular epithelium, and granular casts in medullary tubules) clearly linked to alpha2u-globulin nephropathy. Both decalin and 2-decalone were related to increased alpha2u-globulin in male kidneys. Kidney concentrations of decalin, 2-decalone, and alpha2u-globulin in exposed females were negligible, while females excreted greater amounts of decalol metabolites in urine than males at weeks 2 and 6. There were no exposure-related microscopic lesions in females. For chronic exposure, F344 rats were exposed via whole-body inhalation to 0, 25, 50 (males only), 100, or 400 ppm decalin for two years. Chronic exposure induced a spectrum of nonneoplastic and neoplastic lesions in the renal cortex of males, ranging from regenerative lesions of chronic nephropathy to tubular carcinomas. Incidences of renal tubular adenoma, tubular carcinoma, combined tubular adenomas and carcinomas, cortical tubular hyperplasia, hyaline droplet accumulation, hyperplasia of pelvic epithelium, and mineralization in renal papilla were increased in exposed males compared to controls. There was a clear increase in the mean severity of chronic nephropathy in decalin-exposed males. It was concluded that the carcinogenic effect on the renal cortical epithelium of male rats exposed to decalin was related to increased turnover of this epithelium, resulting from the cytotoxic effects of alpha2u-globulin accumulation in the renal cortical tubular cell cytoplasm.
- Published
- 2003
- Full Text
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28. Carcinogenic potential of o-nitrotoluene and p-nitrotoluene.
- Author
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Dunnick JK, Burka LT, Mahler J, and Sills R
- Subjects
- Animals, Carcinogenicity Tests, Carcinogens metabolism, Male, Mice, Neoplasms, Experimental chemically induced, Rats, Toluene metabolism, Carcinogens toxicity, Rats, Inbred F344 metabolism, Toluene analogs & derivatives, Toluene toxicity
- Abstract
The potential of o-nitrotoluene and p-nitrotoluene to cause cancer in mammalian species was studied in male and female F344/N rats and B6C3F1 mice. These chemicals are on the EPA list of high production chemicals and there is potential for human exposure (High Production Volume Chemical List (2000) http://oaspub.cpa.gov/opptintr/chemrtk/volchall.htm.). o-Nitrotoluene, administered in the feed for up to 2 years, caused clear evidence for cancer at multiple sites in rats and mice. Male rats, receiving o-nitrotoluene in the feed ( approximately 0, 25, 50, or 90 mg/kg per day), developed treatment-related mesotheliomas, subcutaneous skin neoplasms, mammary gland fibroadenomas, and liver neoplasms. By 2 years, mesotheliomas, skin, liver, mammary gland and liver tumors also occurred in 'stop-study' male rats that received o-nitrotoluene at 125 or 315 mg/kg per day for only the first 3 months of study. These 'stop-studies' showed that the critical events leading to tumor formation occurred after 3 months of dosing, and these events were irreversible and eventually led to cancer at multiple sites. o-Nitrotoluene given in the feed to female rats (approximately 0, 30, 60, or 100 mg/kg per day) and to male and female mice (approximately 0, 150, 320, or 700 mg/kg per day) also caused a carcinogenic response. In female rats, treatment-related subcutaneous skin neoplasms and mammary gland fibroadenomas occurred. Hemangiosarcomas and carcinomas of the large intestine (cecum) were seen in treated male and female mice. In contrast to o-nitrotoluene, p-nitrotoluene given in the feed over approximately the same exposure levels caused only equivocal evidence of carcinogenic activity in male rats (subcutaneous skin neoplasms); some evidence of carcinogenic activity in female rats (clitoral gland neoplasms); equivocal evidence of carcinogenic activity in male mice (lung neoplasms); and no evidence of carcinogenic activity in female mice. Differences in the o-nitrotoluene and p-nitrotoluene carcinogenic activity may be due to differences in the metabolism of the parent compound to carcinogenic metabolites.
- Published
- 2003
- Full Text
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29. Mouse bone marrow micronucleus test results do not predict the germ cell mutagenicity of N-hydroxymethylacrylamide in the mouse dominant lethal assay.
- Author
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Witt KL, Hughes LA, Burka LT, McFee AF, Mathews JM, Black SL, and Bishop JB
- Subjects
- Acrylamides administration & dosage, Acrylamides urine, Animals, Bone Marrow pathology, Erythrocytes, Female, Genes, Dominant, Genes, Lethal, Injections, Intraperitoneal, Male, Mice, Mice, Inbred Strains, Micronucleus Tests, Mutagenicity Tests, Pregnancy, Water, Acrylamides toxicity, Bone Marrow drug effects, Chromosome Aberrations, Germ Cells drug effects, Mutagens toxicity, Pregnancy, Animal drug effects
- Abstract
N-Hydroxymethylacrylamide (NHMA), a mouse carcinogen inactive in the Salmonella assay and mouse micronucleus (MN) assay, was tested for reproductive effects in a mouse continuous breeding study. In that study, increased embryonic deaths were observed after 13 weeks exposure of parental animals to NHMA via drinking water (highest dose, 360 ppm); the results indicated the possible induction of chromosome damage in germ cells of treated males. An additional mouse MN test was conducted using a 31-day treatment period to better match the dosing regimen used in the breeding study; the results were negative. Additional studies were conducted to explore the germ cell activity of NHMA. A male mouse dominant lethal study was conducted using a single intraperitoneal injection of 150 mg/kg NHMA; the results were negative. A follow-up study was conducted using fractionated dosing, 50 mg/kg/day for 5 days; again, no increase in dominant lethal mutations was observed. NHMA (180-720 ppm) was then administered to male mice in drinking water for 13 weeks, during which three sets of matings occurred. Two weeks after mating, females were killed and the uterine contents were analyzed. Large, dose-related increases in dominant lethal mutations were observed with increasing length of exposure. The magnitude of the increases stabilized after 8 weeks of treatment. However, the frequency of micronucleated peripheral blood erythrocytes was not elevated in mice treated for 13 weeks with NHMA in drinking water. Thus, NHMA appears to be unique in inducing genetic damage in germ cells but not somatic cells of male mice.
- Published
- 2003
- Full Text
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30. Disposition of 3-chloro-4-(dichloromethyl)-5-hydroxy-2(5h)-furanone (mx) in b6c3f1 mice and f344 rats.
- Author
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Lebetkin EH, Chen LJ, and Burka LT
- Subjects
- Animals, Bile metabolism, Biotransformation, Chromatography, High Pressure Liquid, Feces chemistry, Female, Hydrogen-Ion Concentration, Magnetic Resonance Spectroscopy, Male, Mice, Mice, Inbred Strains, Rats, Rats, Inbred F344, Spectrometry, Mass, Electrospray Ionization, Spectrophotometry, Ultraviolet, Tissue Distribution, Carcinogens pharmacokinetics, Furans pharmacokinetics, Water Pollutants, Chemical pharmacokinetics
- Abstract
3-Chloro-4-(dichloromethyl)-5-hydroxy-2(5H)-furanone (MX) is a mutagenic by-product of chlorination of drinking water, particularly where the water contains humic matter. MX has been estimated to account for 50% of the mutagenic activity in some drinking water. A bioassay in rats demonstrated an increased tumor incidence, primarily in liver and thyroid glands. This study was designed to provide disposition/metabolism information in mice to evaluate the necessity of a National Toxicology Program chronic bioassay and to provide data for female rats. Radioactivity was rapidly absorbed and excreted near equally in urine (42-54%) and feces (40-51%) 72 h following oral administration of (14)C-labeled MX at single doses from 0.2 to 20 mg/kg to male and female mice and female rats. A larger percentage (71-73%) of MX-derived radioactivity was excreted in urine after an iv dose (0.2 mg/kg) in both female rats and male mice. Most MX-derived radioactivity was excreted within the first 24 h postdosing. MX was transformed to urinary and biliary metabolites. A major extremely polar urinary metabolite was tentatively identified as 1-hydroxy-1,2,2-ethanetricarboxylic acid. This metabolite is likely transformed from the MX degradation product 2-hydroxy-3-formyl-4-oxo-2-butenoic acid. Oral administration produced highest tissue/blood ratios in the following order: forestomach (>100), glandular stomach, intestine, and kidney. Intravenous administration resulted in high, prolonged levels of radioactivity in blood compared to oral dosing. Therefore, MX disposition appears to be dominated by its chemical reactivity with highest concentrations of radioactivity being found at the site of administration.
- Published
- 2002
- Full Text
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31. Tyrosine iminoxyl radical formation from tyrosyl radical/nitric oxide and nitrosotyrosine.
- Author
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Sturgeon BE, Glover RE, Chen YR, Burka LT, and Mason RP
- Subjects
- Antioxidants chemistry, Ascorbic Acid chemistry, Electron Spin Resonance Spectroscopy, Imines chemistry, Oxidation-Reduction, Tyrosine analogs & derivatives, Free Radicals, Nitric Oxide chemistry, Nitroso Compounds chemistry, Tyrosine chemistry
- Abstract
The quenching of the Y(D)(.) tyrosyl radical in photosystem II by nitric oxide was reported to result from the formation of a weak tyrosyl radical-nitric oxide complex (Petrouleas, V., and Diner, B. A. (1990) Biochim. Biophys. Acta 1015, 131-140). This radical/radical reaction is expected to generate an electron spin resonance (ESR)-silent 3-nitrosocyclohexadienone species that can reversibly regenerate the tyrosyl radical and nitric oxide or undergo rearrangement to form 3-nitrosotyrosine. It has been proposed that 3-nitrosotyrosine can be oxidized by one electron to form the tyrosine iminoxyl radical (>C=N-O*). This proposal was put forth as a result of ESR detection of the iminoxyl radical intermediate when photosystem II was exposed to nitric oxide (Sanakis, Y., Goussias, C., Mason, R. P., and Petrouleas, V. (1997) Biochemistry 36, 1411-1417). A similar iminoxyl radical was detected in prostaglandin H synthase-2 (Gunther, M. R., Hsi, L. C., Curtis, J. F., Gierse, J. K., Marnett, L. J., Eling, T. E., and Mason, R. P. (1997) J. Biol. Chem., 272, 17086-17090). Although the iminoxyl radicals detected in the photosystem II and prostaglandin H synthase-2 systems strongly suggest a mechanism involving 3-nitrosotyrosine, the iminoxyl radical ESR spectrum was not unequivocally identified as originating from tyrosine. We report here the detection of the non-protein L-tyrosine iminoxyl radical generated by two methods: 1) peroxidase oxidation of synthetic 3-nitroso-N-acetyl-L-tyrosine and 2) peroxidase oxidation of free L-tyrosine in the presence of nitric oxide. A newly developed ESR technique that uses immobilized enzyme was used to perform the ESR experiments. Analysis of the high resolution ESR spectrum of the tyrosine iminoxyl radical generated from free tyrosine and nitric oxide reveals a 28.4-G isotropic nitrogen hyperfine coupling and a 2.2-G proton hyperfine coupling assigned to the proton originally ortho to the phenoxyl oxygen.
- Published
- 2001
- Full Text
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32. Metabolism of (R)-(+)-pulegone in F344 rats.
- Author
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Chen LJ, Lebetkin EH, and Burka LT
- Subjects
- Animals, Biotransformation, Chromatography, High Pressure Liquid, Cyclohexane Monoterpenes, Female, Glutathione metabolism, Glutathione urine, Hydrolysis, Hydroxylation, Magnetic Resonance Spectroscopy, Male, Menthol urine, Microsomes, Liver metabolism, Rats, Rats, Inbred F344, Stereoisomerism, Mentha chemistry, Menthol analogs & derivatives, Menthol pharmacokinetics, Monoterpenes
- Abstract
(R)-(+)-Pulegone, a monoterpene ketone, is a major component of pennyroyal oil. Ingestion of high doses of pennyroyal oil has caused severe toxicity and occasionally death. Studies have shown that metabolites of pulegone were responsible for the toxicity. Previous metabolism studies have used high, near lethal doses and isolation and analysis techniques that may cause degradation of some metabolites. To clarify these issues and further explore the metabolic pathways, a study of (14)C-labeled pulegone in F344 rats at doses from 0.8 to 80 mg/kg has been conducted. High-pressure liquid chromatography (HPLC) analysis of the collected urine showed the metabolism of pulegone to be extensive and complex. Fourteen metabolites were isolated by HPLC and characterized by NMR, UV, and mass spectroscopy. The results demonstrated that pulegone was metabolized by three major pathways: 1) hydroxylation to give monohydroxylated pulegones, followed by glucuronidation or further metabolism; 2) reduction of the carbon-carbon double bond to give diastereomeric menthone/isomenthone, followed by hydroxylation and glucuronidation; and 3) Michael addition of glutathione to pulegone, followed by further metabolism to give diastereomeric 8-(N-acetylcystein-S-yl)menthone/isomenthone. This 1,4-addition not only took place in vivo but also in vitro under catalysis of glutathione S-transferase or mild base. Several hydroxylated products of the two mercapturic acids were also observed. Contrary to the previous study, all but one of the major metabolites characterized in the present study are phase II metabolites, and most of the metabolites in free forms are structurally different from those previously identified phase I metabolites.
- Published
- 2001
33. Comparative xenobiotic metabolism between Tg.AC and p53+/- genetically altered mice and their respective wild types.
- Author
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Sanders JM, Burka LT, Chanas B, and Matthews HB
- Subjects
- Animals, Benzene administration & dosage, Benzene pharmacokinetics, Blotting, Western, Carbon chemistry, Chromatography, High Pressure Liquid, Cytochrome P-450 CYP1A2 metabolism, Cytochrome P-450 CYP2E1 metabolism, Cytochrome P-450 CYP3A, Cytochrome P-450 Enzyme System metabolism, Dose-Response Relationship, Drug, Ethoxyquin administration & dosage, Ethoxyquin pharmacokinetics, Glutathione Transferase metabolism, Heterozygote, Immunoenzyme Techniques, Isoenzymes metabolism, Liver drug effects, Methacrylates administration & dosage, Methacrylates pharmacokinetics, Mice, Mice, Inbred C57BL, Mice, Inbred Strains, Mice, Transgenic genetics, Microsomes, Liver enzymology, Nitriles administration & dosage, Nitriles pharmacokinetics, Oxidoreductases, N-Demethylating metabolism, Radioisotopes, Aryl Hydrocarbon Hydroxylases, Autoantibodies drug effects, Benzene pharmacology, Ethoxyquin pharmacology, Ethoxyquin urine, Gene Expression Regulation, Genes, p53 drug effects, Genes, ras drug effects, Methacrylates pharmacology, Mice, Transgenic metabolism, Microsomes, Liver drug effects, Nitriles pharmacology, Nitriles urine, Xenobiotics metabolism, Xenobiotics toxicity
- Abstract
The use of transgenic animals, such as v-Ha-ras activated (TG:AC) and p53+/- mice, offers great promise for a rapid and more sensitive assay for chemical carcinogenicity. Some carcinogens are metabolically activated; therefore, it is critical that the altered genome of either of these model systems does not compromise their capability and capacity for metabolism of xenobiotics. The present work tests the generally held assumption that xenobiotic metabolism in the TG:AC and p53+/- mouse is not inherently different from that of the respective wild type, the FVB/N and C57BL/6 mouse, by comparing each genotype's ability to metabolize benzene, ethoxyquin, or methacrylonitrile. Use of these representative substrates offers the opportunity to examine arene oxide formation, aromatic ring opening, hydroxylation, epoxidation, O-deethylation, and a number of conjugation reactions. Mice were treated by gavage with (14)C-labeled parent compound, excreta were collected, and elimination routes and rates, as well as (14)C-derived metabolite profiles in urine, were compared between relevant treatment groups. Results of this study indicated that metabolism of the 3 parent compounds was not appreciably altered between either FVB/N and TG:AC mice or C57BL/6 and p53+/- mice. Further, expression of CYP1A2, CYP2E1, CYP3A, and GST-alpha in liver of naive genetically altered mice was similar to that of corresponding wild-type mice. Thus, these results suggest that the inherent ability of TG:AC and p53+/- mice to metabolize xenobiotics is not compromised by their altered genomes and would not be a factor in data interpretation of toxicity studies using either transgenic mouse line.
- Published
- 2001
- Full Text
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34. Metabolism and disposition of luminol in the rat.
- Author
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Sanders JM, Chen LJ, Burka LT, and Matthews HB
- Subjects
- Administration, Oral, Animals, Bile Ducts drug effects, Chromatography, High Pressure Liquid, Feces, Glucuronides metabolism, Glucuronides urine, Indicators and Reagents toxicity, Infusions, Intravenous, Luminol metabolism, Luminol toxicity, Male, Models, Chemical, Rats, Rats, Inbred F344, Skin drug effects, Sulfonic Acids metabolism, Sulfonic Acids urine, Time Factors, Indicators and Reagents pharmacokinetics, Luminol analogs & derivatives, Luminol pharmacokinetics
- Abstract
1. The metabolism and disposition of Luminol (LMN, 3-aminophthalhydrazide), a widely used forensic and laboratory reagent that chemiluminesses upon oxidation, was determined as part of its overall toxicological characterization. 2. Radiolabelled LMN was well absorbed, metabolized and excreted following p.o. administration of a range of doses. About 90% of the total dose was recovered within 24 h of administration in urine in the form of two metabolites identified as LMN N8-glucuronide and LMN N8-sulphamic acid. 3-Aminophthalic acid, the oxidative product of LMN in the light-emitting reaction, was apparently not formed in vivo. 3. Metabolism and disposition of an i.v. administered dose was similar to that following gavage. Little or no LMN-derived radioactivity was present in tissue within 12 h post-dosing. Excretion of radioactivity in bile following i.v. injection was minimal (approximately 8% of the total dose in 6 h) and consisted of the same urinary-excreted glucuronide and sulphate conjugates. 4. LMN was not absorbed dermally in rat, potentially a major route of exposure to human. If the fate of LMN is similar between species, this compound should have little potential for either dermal absorption, bioaccumulation in tissues following other routes of exposure or chronic toxicity in humans.
- Published
- 2000
- Full Text
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35. Phenolphthalein metabolite inhibits catechol-O-methyltransferase-mediated metabolism of catechol estrogens: a possible mechanism for carcinogenicity.
- Author
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Garner CE, Matthews HB, and Burka LT
- Subjects
- Animals, Carcinogens metabolism, Catechol O-Methyltransferase metabolism, Cathartics metabolism, Enzyme Inhibitors blood, Enzyme Inhibitors urine, Estradiol analogs & derivatives, Estradiol metabolism, Female, Kinetics, Liver drug effects, Liver enzymology, Methylation drug effects, Mice, Mice, Inbred Strains, Phenolphthalein blood, Phenolphthalein urine, Phenolphthaleins blood, Phenolphthaleins metabolism, Phenolphthaleins urine, Swine, Carcinogens toxicity, Catechol O-Methyltransferase Inhibitors, Cathartics toxicity, Enzyme Inhibitors metabolism, Enzyme Inhibitors toxicity, Estrogens, Catechol metabolism, Phenolphthalein metabolism, Phenolphthalein toxicity, Phenolphthaleins toxicity
- Abstract
Phenolphthalein (PT), used in over-the-counter laxatives, has recently been identified as a multisite carcinogen in rodents, but the molecular species responsible for the carcinogenicity is not known. A catechol metabolite of PT, hydroxyphenolphthalein (PT-CAT), was recently identified and may be the molecular species responsible for at least part of the toxicity/carcinogenicity of PT. We hypothesize that PT-CAT inhibits the enzyme catechol-O-methyltransferase (COMT) and therefore potentiates genotoxicity by either PT-CAT itself or the endogenous catechol estrogens (CEs) in susceptible tissues. The present studies were conducted to determine the effects of PT treatment and PT-CAT itself on the COMT-mediated metabolism of 4- and 2-hydroxyestradiol both in vitro and in vivo. Female mice were treated with PT (50 mg/kg/d) for 21 days and then euthanized. PT-CAT concentration in urine reached plateau levels by 7 days of exposure. An O-methylated metabolite of PT-CAT was detected in feces. In vitro experiments demonstrated that PT treatment resulted in an increase in free CEs, which are normally cleared by COMT and a concurrent decrease in the capacity of hepatic catechol clearance by COMT. In vitro, PT-CAT was a substrate of COMT, with kinetic properties within the range measured with endogenous substrates. PT-CAT was an extremely potent mixed-type inhibitor of the O-methylation of the catechol estrogens, with 90-300 nM IC50s. The above data, when taken together, suggest that chronic administration of PT may enhance metabolic redox cycling of both PT-CAT and the catechol estrogens and this, in turn, may contribute to PT-induced tumorigenesis.
- Published
- 2000
- Full Text
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36. Catechol metabolites of polychlorinated biphenyls inhibit the catechol-O-methyltransferase-mediated metabolism of catechol estrogens.
- Author
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Garner CE, Burka LT, Etheridge AE, and Matthews HB
- Subjects
- Animals, Catalysis, Chlorodiphenyl (54% Chlorine) toxicity, Chromatography, High Pressure Liquid, Enzyme Inhibitors metabolism, Estradiol analogs & derivatives, Estradiol metabolism, Female, Kinetics, Liver drug effects, Liver enzymology, Methylation, Rats, Rats, Sprague-Dawley, Tritium, Catechol O-Methyltransferase metabolism, Catechol O-Methyltransferase Inhibitors, Catechols metabolism, Catechols toxicity, Enzyme Inhibitors toxicity, Estrogens, Catechol metabolism, Polychlorinated Biphenyls metabolism, Polychlorinated Biphenyls toxicity
- Abstract
The catechol metabolites of estradiol, 2- and 4-hydroxyestradiol (2-OHE(2) and 4-OHE(2), respectively) are potent signaling molecules and are hypothesized to be central to estrogen-linked carcinogenesis. Methylation by catechol-O-methyltransferase (COMT) is the principal means of catechol estrogen (CE) deactivation in the liver and other tissues. The present studies were conducted to determine the effects of PCBs and catechol metabolites of PCBs on the COMT-mediated catabolism of 4-OHE(2) and 2-OHE(2) in vitro and in vivo. Liver homogenates of female Sprague-Dawley rats treated with Aroclor 1254 for 21 days (5 mg/kg/day) showed a 30 and 40% reduction of COMT activity toward 2-OHE(2) and 4-OHE(2), respectively. Incubation of [(3)H]-beta-estradiol with these same liver homogenates, followed by HPLC analysis, demonstrated an elevation of CEs and a nearly complete reduction in levels of methylated catechol estrogens. In classical enzyme kinetics studies, COMT was demonstrated to have a high affinity for catechol PCBs, with K(m)'s approximately equivalent to those of CEs. Catechol PCBs were also potent inhibitors of CE O-methylation. These data suggest that PCBs may significantly alter the metabolism of catechol estrogens in vivo and that this effect may be mediated by catechol metabolites of PCBs. It is further speculated that methyltransferase inhibition by PCB catechols may contribute to PCB-mediated endocrine effects and liver carcinogenesis.
- Published
- 2000
- Full Text
- View/download PDF
37. In vivo production of nitric oxide after administration of cyclohexanone oxime.
- Author
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Glover RE, Corbett JT, Burka LT, and Mason RP
- Subjects
- Animals, Chromatography, High Pressure Liquid, Cytochrome P-450 Enzyme System metabolism, Cytochromes metabolism, Electron Spin Resonance Spectroscopy, Erythrocytes metabolism, Hemoglobins metabolism, Male, Methemoglobin metabolism, Nitric Oxide blood, Nitric Oxide metabolism, Rats, Rats, Inbred F344, Cyclohexanones pharmacology, Nitric Oxide biosynthesis
- Abstract
Cyclohexanone oxime (CHOX), an intermediate used in the synthesis of polycaprolactam (Nylon-6), has been reported to be hematotoxic in Fischer rats. The in vivo metabolism of CHOX was found to release nitric oxide, which was detected in venous blood by electron paramagnetic resonance spectroscopy as the nitrosylhemoglobin complex. In vitro incubation of CHOX with venous blood resulted in the formation of the characteristic nitrosylhemoglobin complex, suggesting that the blood was a possible site for metabolism. Excessive nitric oxide production may, in part, contribute to the observed toxicity of CHOX.
- Published
- 1999
- Full Text
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38. Identification of urinary metabolites of isoprene in rats and comparison with mouse urinary metabolites.
- Author
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Buckley LA, Coleman DP, Burgess JP, Thomas BF, Burka LT, and Jeffcoat AR
- Subjects
- Animals, Chromatography, High Pressure Liquid, Gas Chromatography-Mass Spectrometry, Magnetic Resonance Spectroscopy, Male, Mice, Mice, Inbred Strains, Rats, Rats, Inbred F344, Species Specificity, Butadienes urine, Hemiterpenes, Pentanes
- Abstract
Isoprene, a major commodity chemical used in production of polyisoprene elastomers, has been shown to be carcinogenic in rodents. Similar to findings for the structurally related compound butadiene, mice are more susceptible than rats to isoprene-induced toxicity and carcinogenicity. Although differences in uptake, and disposition of isoprene in rats and mice have been described, its in vivo biotransformation products have not been characterized in either species. The purpose of these studies was to identify the urinary metabolites of isoprene in Fischer 344 rats and compare these metabolites with those formed in male B6C3F1 mice. After i.p. administration of 64 mg [14C]isoprene/kg to rats and mice, isoprene was excreted unchanged in breath ( approximately 50%) or as urinary metabolites ( approximately 32%). In rats isoprene was primarily excreted in urine as 2-hydroxy-2-methyl-3-butenoic acid (53%), 2-methyl-3-buten-1,2-diol (23%), and the C-1 glucuronide conjugate of 2-methyl-3-buten-1,2-diol (13%). These metabolites are consistent with preferential oxidation of isoprene's methyl-substituted vinyl group. No oxidation of the unsubstituted vinyl group was observed. In addition to the isoprene metabolites found in rat urine, mouse urine contained numerous other isoprene metabolites with a larger percentage (25%) of total urinary radioactivity associated with an unidentified, polar fraction than in the rat (7%). Unlike butadiene, there was no evidence that glutathione conjugation played a significant role in the metabolism of isoprene in rats. Because of the unidentified metabolites in mouse urine, involvement of glutathione in the metabolism of isoprene in mice cannot be delineated.
- Published
- 1999
39. Distribution and metabolism of (5-hydroxymethyl)furfural in male F344 rats and B6C3F1 mice after oral administration.
- Author
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Godfrey VB, Chen LJ, Griffin RJ, Lebetkin EH, and Burka LT
- Subjects
- Animals, Carcinogens metabolism, Food Contamination, Furaldehyde metabolism, Hot Temperature, Male, Mice, Rats, Rats, Inbred F344, Tissue Distribution, Carcinogens pharmacokinetics, Furaldehyde analogs & derivatives, Furaldehyde pharmacokinetics
- Abstract
(5-Hydroxymethyl)furfural (HMF), a heat-induced decomposition product of hexoses, is present in food and drink. Recent reports have shown HMF to be an in vitro mutagen after sulfate conjugation and to be a promoter as well as a weak initiator of colonic aberrant foci in rats. In order to investigate the metabolic activation further and to provide information for HMF toxicology studies, the disposition of [14C]-HMF has been investigated in male F344 rats and B6C3F1 mice following po administration of either 5, 10, 100, or 500 mg/kg. Tissue distribution results indicated that absorption of HMF was rapid in male rats and mice and that tissue concentrations in male mice at the earliest time point are not linearly proportional to dose. Excretion was primarily via the urine in both, with 60-80% of the administered dose excreted by this route in 48 h. Tissue/blood ratios of HMF-derived radioactivity were greater than 1 for liver and kidney. Three metabolites were identified and quantitated in urine. Formation of one of the metabolites, N-(5-hydroxymethyl-2-furoyl)glycine, was inversely proportional to dose in rats but not mice. None of the metabolites were sulfate conjugates nor likely to be formed from sulfate conjugates. There were relatively low levels of nonextractable radioactivity in liver, kidney, and intestines, indicating that some reactive intermediate(s) may be formed.
- Published
- 1999
- Full Text
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40. Role of cytochrome P-450 2E1 in methacrylonitrile metabolism and disposition.
- Author
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Ghanayem BI, Sanders JM, Chanas B, Burka LT, and Gonzalez FJ
- Subjects
- Acetylcysteine analogs & derivatives, Acetylcysteine urine, Animals, Biotransformation, Chromatography, High Pressure Liquid, Feces chemistry, Female, Male, Methacrylates metabolism, Methacrylates toxicity, Mice, Mice, Knockout, Nitriles metabolism, Nitriles toxicity, Oxidation-Reduction, Tissue Distribution, Cytochrome P-450 CYP2E1 metabolism, Methacrylates pharmacokinetics, Nitriles pharmacokinetics
- Abstract
Methacrylonitrile (MAN) is a widely used aliphatic nitrile and is structurally similar to the known rat carcinogen and suspected human carcinogen acrylonitrile (AN). There is evidence that AN is metabolized via the cytochrome P-450 (CYP) 2E1. Recently, we identified two biliary conjugates originating from the interaction of MAN and its epoxide with glutathione. Mercapturic acids formed via the degradation of the two conjugates were also identified in rat and mouse urine. Additionally, a significant portion of MAN was eliminated in the expired air as CO2 (formed via the epoxide pathway) and unchanged MAN. The objective of the present work was to determine whether CYP2E1 is involved in the oxidative metabolism of MAN as was suggested for AN. 2-14C-MAN was administered to CYP2E1-null or wild-type mice by gavage at 12 mg/kg. Although total urinary and fecal excretion of MAN-derived radioactivity was slightly different in CYP2E1-null versus wild-type mice, the ratio of mercapturic acids originating from the epoxide-glutathione versus MAN-glutathione conjugates were lower in urine of CYP2E1-null mice than in that of wild-type animals. Exhalation of MAN-derived organic volatiles (primarily parent MAN) was 12- and 42-fold greater in female and male CYP2E1-null mice than in wild-type mice, respectively. Additionally, exhalation of CO2 derived from metabolism of MAN via the CYP2E1 pathway was 3- to 5-fold greater in wild-type than in CYP2E1-null animals. Although these data indicate that CYP2E1 is the principal enzyme responsible for the oxidative metabolism of MAN, other cytochrome P-450 enzymes may be involved. Assessment of MAN metabolism in CYP2E1-null mice pretreated with 1-aminobenzotriazole (CYP inhibitor) resulted in a further decrease in oxidative metabolites of MAN. Comparison of the tissue concentrations of MAN-derived radioactivity in mouse tissues revealed that MAN-derived radioactivity is generally higher in wild-type > CYP2E1-null mice > CYP2E1-null mice pretreated with 1-aminobenzotriazole, suggesting a direct relationship between MAN oxidative metabolism and the half-life of MAN and/or its metabolites in various tissues. It is therefore concluded that MAN oxidative metabolites such as the epoxide intermediate have greater reactivity than parent MAN.
- Published
- 1999
41. In vitro estrogenicity of the catechol metabolites of selected polychlorinated biphenyls.
- Author
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Garner CE, Jefferson WN, Burka LT, Matthews HB, and Newbold RR
- Subjects
- Animals, Chloramphenicol O-Acetyltransferase metabolism, Estradiol blood, HeLa Cells, Humans, Indicators and Reagents, Mice, Polychlorinated Biphenyls chemistry, Receptors, Estrogen drug effects, Catechols pharmacology, Estradiol Congeners pharmacology, Polychlorinated Biphenyls pharmacology
- Abstract
A considerable body of work has demonstrated that phenolic polychlorinated biphenyl (PCB) metabolites, structural analogues to estradiol, bind to the soluble estrogen receptor (ER) and that hydroxy PCB-ER complexes will translocate into the nucleus and bind to ER response elements in cultured cells. Although catechol estrogens exhibit weak estrogenic activity, the catechol PCB metabolites which are structurally similar to these ER agonists have gone untested for potential estrogenicity. In the present work we have assessed the estrogenicity of this second group of PCB metabolites, the catechols. The test compounds used in the present study were chosen to elucidate the effects of chlorine and catechol position on in vitro estrogenicity. Cultured HeLa cells, transfected with the estrogen reporter gene ERET81CAT and mouse ER cDNA, were incubated with PCB catechols. The cells were harvested at 28 h posttransfection and assayed for chloramphenicol acetyl transferase (CAT) activity. The responses elicited by the PCB catechols tested fell within the range of effect measured for the catechol estrogens and phenolic PCBs, and were within the range previously reported for other "environmental estrogens" such as nonylphenol and o,p'-DDT. Maximal measured responses were achieved at concentrations approximately two to three orders of magnitude higher than that of 17-beta-estradiol, indicating that PCB catechols have estrogenic activity in vitro. The extent of chlorination and the position of the catechol (3,4 vs 2,3 substitution) were important in determining estrogenicity in the compounds tested. The 2,3-catechol showed no detectable activity in this system, while activity of the 3, 4-catechols increased with the degree of chlorination. The observed estrogenicity of PCB catechols suggests that further oxidative metabolism of estrogenic PCB phenolic metabolites would not necessarily result in lowering the total estrogenic burden of a PCB-exposed organism. The present results imply that if estrogenic activity is assigned to an individual phenol, the potential contribution of its catechol metabolites to the total estrogenic burden should also be taken into consideration.
- Published
- 1999
- Full Text
- View/download PDF
42. Toxicokinetics of inhaled 2-butoxyethanol and its major metabolite, 2-butoxyacetic acid, in F344 rats and B6C3F1 mice.
- Author
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Dill JA, Lee KM, Bates DJ, Anderson DJ, Johnson RE, Chou BJ, Burka LT, and Roycroft JH
- Subjects
- Administration, Inhalation, Age Factors, Animals, Dose-Response Relationship, Drug, Ethylene Glycols blood, Ethylene Glycols urine, Female, Male, Metabolic Clearance Rate, Mice, Rats, Rats, Inbred F344, Sex Characteristics, Species Specificity, Time Factors, Ethylene Glycols pharmacokinetics, Glycolates pharmacokinetics, Solvents pharmacokinetics
- Abstract
2-Butoxyethanol (2BE) is used extensively in the production of cleaning agents and solvents. It is primarily metabolized in the liver to 2-butoxyacetic acid (2BAA), which is believed to be responsible for 2BE toxicities associated with hemolysis of red blood cells. The objective of the study was to characterize the systemic disposition of 2BE and 2BAA in rats and mice during 2-year 2BE inhalation toxicity studies. Male and female F344 rats and B6C3F1 mice (6-7 weeks old) were exposed to target 2BE concentrations of 0, 31.2, 62.5, or 125 ppm (rats), or 0, 62.5, 125, or 250 ppm (mice), by whole-body inhalation for 6 h/day, 5 days/week for up to 18 months. Postexposure blood samples were collected after 1 day, 2 weeks, and 3, 6, 12, and 18 months of exposure. Postexposure 16-h urine samples were collected after 2 weeks and 3, 6, 12, and 18 months of exposure. A separate set of mice was kept in the control chamber and exposed to 2BE for 3 weeks when they were approximately 19 months old. Postexposure blood samples were collected after 1 day and 3 weeks of exposure and 16-h urine samples were collected after 2 weeks of exposure from these aged mice. Blood samples were analyzed for both 2BE and 2BAA and urine samples were analyzed for 2BAA using GC/MS, and their kinetic parameters were estimated through the curve-fitting method using SAS. Systemically absorbed 2BE was rapidly cleared from blood (t1/2-RAT < 10 min; t1/2-MOUSE < 5 min after the 1-day exposure) independent of exposure concentration. Proportional increases in AUC2BE relative to increases in exposure concentration indicated linear 2BE kinetics. In contrast, the rate of 2BAA elimination from blood decreased as the exposure concentration increased. Nonproportional increases in AUC2BAA also indicated that 2BAA is eliminated following dose-dependent, nonlinear kinetics. Overall, mice eliminated both 2BE and 2BAA from blood faster than rats. Sex-related differences in 2BAA elimination were most significant with rats, in that females were less efficient in clearing 2BAA from the blood. Differences in renal excretion of 2BAA are possibly responsible for the sex-related difference in the 2BAA blood profiles in rats. As exposure continued, the rates of elimination for both 2BE and 2BAA decreased in both species, resulting in longer residence times in the blood. When 19-month-old naive mice were exposed to 125 ppm, 2BE was rapidly cleared from the systemic circulation, exhibiting clearance profiles similar to young mice. However, old mice eliminated 2BAA from blood > 10 times slower than young mice after 1-day of exposure. This delayed elimination of 2BAA in old mice was less obvious after 3 weeks of exposure, suggesting that there might be other factors in addition to the age of animals that could influence the apparent difference in 2BAA kinetics between old and young mice. It was concluded that the elimination kinetics of 2BE and 2BAA following repeated 2BE exposure appear to be dependent on species, sex, age, time of exposure, as well as the exposure concentration., (Copyright 1998 Academic Press.)
- Published
- 1998
- Full Text
- View/download PDF
43. Disposition of methyl ethyl ketoxime in the rat after oral, intravenous and dermal administration.
- Author
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Burka LT, Black SR, and Mathews JM
- Subjects
- Administration, Cutaneous, Administration, Oral, Animals, Biotransformation, Butanones urine, Chromatography, High Pressure Liquid, Injections, Intravenous, Male, Oximes urine, Rats, Rats, Inbred F344, Tissue Distribution, Butanones administration & dosage, Butanones pharmacokinetics, Oximes administration & dosage, Oximes pharmacokinetics
- Abstract
1. The disposition of 14C-methyl ethyl ketoxime (MEKO) was determined in the male F344 rat following oral, intravenous (i.v.) and dermal administration. 2. Oral doses of 2.7, 27 and 270 mg/kg were primarily excreted as CO2 (71-49%) in decreasing percentage as the dose increased. Excretion in urine (13-26%) and as volatiles (5-18%) increased as the dose increased. Five to 6% of the dose remained in the major tissues after 72 h. 3. An i.v. dose of 2.7 mg/kg was also principally excreted as CO2 (48.8%) with excretion in urine and as expired volatiles accounting for 21.4 and 11.4%, respectively. About 7% of the administered radioactivity remained in the tissues after 72 h. 4. Following dermal administration, 13 and 26% of a 2.7 and 270 mg/kg dose, respectively, were absorbed. Volatilization from the dose site prior to placement in the metabolism cage may account for the low absorption. 5. MEKO was biotransformed to at least five polar metabolites that could only be partially resolved by anion exchange chromatography. Incubation with glucuronidase, but not sulphatase, changed the urinary metabolic profile. Methyl ethyl ketone was a major component in the volatiles.
- Published
- 1998
- Full Text
- View/download PDF
44. Disposition of butanal oxime in rat following oral, intravenous and dermal administration.
- Author
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Mathews JM, Black SR, and Burka LT
- Subjects
- Absorption, Administration, Cutaneous, Administration, Oral, Aldehydes administration & dosage, Aldehydes urine, Animals, Carbon Radioisotopes, Chromatography, High Pressure Liquid, Dose-Response Relationship, Drug, Injections, Intravenous, Male, Oximes administration & dosage, Oximes urine, Rats, Rats, Inbred F344, Tissue Distribution, Aldehydes pharmacokinetics, Oximes pharmacokinetics
- Abstract
1. The disposition of [1-14C]butanal oxime (BOX) was determined in the rat after oral, i.v. and dermal administration. 2. Oral doses of [14C]BOX (2 and 20 mg/kg) were predominantly excreted in the urine (> 42%) and converted to 14CO2 (> 30%) and about 10% of the dose remained in the tissues 72 h post-dosing. 3. Eight and 16% of a 2 and 20 mg/kg dermal dose of BOX, respectively, were absorbed, due in part to rapid volatilization from the surface of the skin. 4. Oral doses of BOX were transformed into several polar and/or anionic metabolites that include sulphate conjugates and a significant amount of thiocyanate. 5. The effect of inhibitors on the metabolism of BOX was investigated using 1-aminobenzotriazole (ABT; an inhibitor of diverse cytochrome P450s) and trans-1,2-dichloroethylene (DCE; an inhibitor of CYP2E1). No thiocyanate anion was detected in the urine of rat treated with DCE or ABT. ABT markedly increased the production of 14CO2 and excretion as volatile metabolites. DCE had no effect on 14CO2 excretion, but increased exhalation of radiolabel. ABT also effectively blocked the expression of toxic effects attributable to cyanide in rat given near-lethal doses of BOX. 6. The data are consistent with two distinct pathways of metabolism for BOX, (1) reduction to an imine, hydrolysis and subsequent conversion of butyraldehyde to 14CO2 and (2) CYP3A-catalysed dehydration of BOX to butyronitrile followed by CYP2E1-catalysed release of cyanide.
- Published
- 1998
- Full Text
- View/download PDF
45. Disposition of 2-methylimidazole in rats.
- Author
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Sanders JM, Griffin RJ, Burka LT, and Matthews HB
- Subjects
- Administration, Oral, Animals, Chromatography, High Pressure Liquid, Dose-Response Relationship, Drug, Male, Metabolic Clearance Rate, Rats, Rats, Inbred F344, Tissue Distribution, Imidazoles pharmacokinetics
- Abstract
2-Methylimidazole (2-MI), widely used as a chemical intermediate, is also present in cigarette smoke and may form in food and forage as a result of ammoniation of simple sugars. 2-MI has been shown to be neurotoxic in several animal species and to alter serum levels of T3, T4, and thyroid-stimulating hormone (TSH) in the rat, apparently leading to hyperplasia of thyroid follicular cells. In order to better characterize 2-MI-induced toxicity, the disposition of [2-(14)C]-2-MI has been investigated following p.o. administration of either 5, 50, or 150 mg/kg to male F344 rats. Excretion data indicated that absorption of 2-MI was both rapid and proportional to dose in the range studied. Approximately 90% of the total dose was eliminated in urine within 24 h. Most of the remaining 14C was excreted in feces and as expired 14CO2. Excretion data were similar following i.v. administration of 5 mg/kg. Little or no enterohepatic circulation of compound occurred, since biliary excretion of 2-MI-derived 14C was negligible. Approximately 70% of the 14C excreted in urine, following all dosing, consisted of parent compound. High-performance liquid chromatography (HPLC) chromatograms for all treatment groups were similar, indicating that metabolism of 2-MI in rats was not affected by dose or route of administration.
- Published
- 1998
- Full Text
- View/download PDF
46. Metabolism and disposition of phenolphthalein in male and female F344 rats and B6C3F1 mice.
- Author
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Griffin RJ, Godfrey VB, and Burka LT
- Subjects
- Administration, Oral, Animals, Bile metabolism, Carcinogens pharmacokinetics, Feces, Female, Injections, Intravenous, Male, Mice, Phenolphthalein, Phenolphthaleins pharmacokinetics, Radiometry, Rats, Rats, Inbred F344, Tissue Distribution, Carcinogens metabolism, Phenolphthaleins metabolism
- Abstract
A recent 2-year carcinogenicity/toxicology study determined that phenolphthalein (PHTH) is a multisite carcinogen in both mice and rats at all doses evaluated. In response to this finding the metabolism and disposition of PHTH has been evaluated in both F344 rats and B6C3F1 mice at a single oral dose of 800 mg/kg. This dose fell within the range previously found to be carcinogenic in rats and mice. Studies were also performed using 1 and 50 mg/kg doses. At 800 mg/kg recovery of [14C]PHTH after 72 h was near 100% in females but closer to 75% in males. Radioactivity was primarily recovered in the feces in rats (> 90%), while mice excreted 30-40% of administered activity in the urine. There was no significant retention of radioactivity in tissues by 72 h and no significant accumulation of radioactivity in any tissue at any time point. Covalent binding to protein in target tissues, bone marrow and ovary, was at or less than the pmol/mg protein range. The major metabolite was PHTH glucuronide. Three minor metabolites were detected. A sulfate conjugate and and a hydroxylated metabolite were identified by comparison of retention times and 1H NMR and/or mass spectra with synthetic standards. A diglucuronide conjugate was tentatively identified. Biliary elimination was extensive in rats (35% of dose within 6 h); the only product detected in bile was phenolphthalein glucuronide.
- Published
- 1998
- Full Text
- View/download PDF
47. The effects of perinatal/juvenile methoxychlor exposure on adult rat nervous, immune, and reproductive system function.
- Author
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Chapin RE, Harris MW, Davis BJ, Ward SM, Wilson RE, Mauney MA, Lockhart AC, Smialowicz RJ, Moser VC, Burka LT, and Collins BJ
- Subjects
- Animals, Animals, Newborn, Behavior, Animal drug effects, Body Weight drug effects, Cell Division drug effects, Female, Hemolytic Plaque Technique, Killer Cells, Natural drug effects, Lactation drug effects, Lymphocytes drug effects, Male, Nervous System Diseases pathology, Organ Size drug effects, Rats, Rats, Inbred Strains, Spleen cytology, Spleen drug effects, Spleen immunology, Immune System drug effects, Insecticides toxicity, Methoxychlor toxicity, Nervous System Diseases chemically induced, Reproduction drug effects
- Abstract
In order to address data gaps identified by the NAS report Pesticides in the Diets of Infants and Children, a study was performed using methoxychlor (MXC). Female rats were gavaged with MXC at 0, 5, 50, or 150 mg/kg/day for the week before and the week after birth, whereupon the pups were directly dosed with MXC from postnatal day (pnd) 7. Some dams were killed pnd7 and milk and plasma were assayed for MXC and metabolites. For one cohort of juveniles, treatment stopped at pnd21; a modified functional observational battery was used to assess neurobehavioral changes. Other cohorts of juveniles were dosed until pnd42 and evaluated for changes to the immune system and for reproductive toxicity. Dose-dependent amounts of MXC and metabolites were present in milk and plasma of dams and pups. The high dose of MXC reduced litter size by approximately 17%. Ano-genital distance was unchanged, although vaginal opening was accelerated in all treated groups, and male prepuce separation was delayed at the middle and high doses by 8 and 34 days, respectively. In the neurobehavioral evaluation, high-dose males were more excitable, but other changes were inconsistent and insubstantial. A decrease in the antibody plaque-forming cell response was seen in males only. Adult estrous cyclicity was disrupted at 50 and 150 MXC, doses which also showed reduced rates of pregnancy and delivery. Uterine weights (corrected for pregnancy) were reduced in all treated pregnant females. High-dose males impregnated fewer untreated females; epididymal sperm count and testis weight were reduced at the high, or top two, doses, respectively. All groups of treated females showed uterine dysplasias and less mammary alveolar development; estrous levels of follicle stimulating hormone were lower in all treated groups, and estrus progesterone levels were lower at 50 and 150 MXC, attributed to fewer corpora lutea secondary to ovulation defects. These data collectively show that the primary adult effects of early exposure to MXC are reproductive, show that 5 mg/kg/day is not a NO(A)EL in rats with this exposure paradigm (based on changes in day of vaginal opening, pubertal ovary weights, adult uterine and seminal vesicle weights, and female hormone data) and imply that the sites of action are both central and peripheral.
- Published
- 1997
- Full Text
- View/download PDF
48. Sex-dependent differences in the disposition of 2,4-dichlorophenoxyacetic acid in Sprague-Dawley rats, B6C3F1 mice, and Syrian hamsters.
- Author
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Griffin RJ, Godfrey VB, Kim YC, and Burka LT
- Subjects
- Animals, Area Under Curve, Biological Availability, Cricetinae, Female, Half-Life, Male, Mesocricetus, Mice, Mice, Inbred Strains, Rats, Rats, Sprague-Dawley, Sex Factors, 2,4-Dichlorophenoxyacetic Acid pharmacokinetics, Herbicides pharmacokinetics
- Abstract
2,4-Dichlorophenoxyacetic acid (2,4-D), a widely used broadleaf herbicide, is under investigation in a study of peroxisome proliferators. To supplement that study, male and female rats, mice, and hamsters were dosed with 14C-2,4-D orally at 5 and 200 mg/kg and tissue distributions were determined. Blood, liver, kidney, muscle, skin, fat, brain, testes, and ovaries were examined. At early time points tissues from female rats consistently contained higher amounts of radioactivity than did corresponding tissues from males (up to 9 times). By 72 hr, tissue levels were equivalent and males and females had excreted equal amounts of radioactivity. This sex difference was absent in mice. In hamsters, males had higher tissue levels than females. Taurine, glycine, and glucuronide conjugates of 2,4-D were excreted along with parent. Metabolite profiles differed between species qualitatively and quantitatively; however, differences between sexes were minimal. Plasma elimination curves were generated in male and female rats after iv and oral administration. Kinetic analysis revealed significant differences in elimination and exposure parameters consistent with a greater ability to clear 2,4-D by male rats relative to females. This suggests that at equivalent doses, female rats are exposed to higher concentrations of 2,4-D for a longer time than males and may be more susceptible to 2,4-D-induced toxicity. These sex-dependent variations in the clearance of 2,4-D in rats and hamsters may indicate a need for sex-specific models to accurately assess human health risks.
- Published
- 1997
49. Determination of tamoxifen and metabolites in serum by capillary electrophoresis using a nonaqueous buffer system.
- Author
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Sanders JM, Burka LT, Shelby MD, Newbold RR, and Cunningham ML
- Subjects
- Animals, Buffers, Electrophoresis, Capillary, Female, Rats, Rats, Inbred F344, Sensitivity and Specificity, Spectrophotometry, Ultraviolet, Tamoxifen analogs & derivatives, Anticarcinogenic Agents blood, Tamoxifen blood
- Abstract
Tamoxifen (TAM), an antiestrogen, is widely used to treat hormone-dependent breast cancer in post-menopausal women. TAM may be used as a chemopreventive agent in women of child-bearing age; however, few data exist describing potential TAM-induced fetal toxicity. In support of the National Toxicology Program's characterization of reproductive and developmental effects of TAM, this work describes an analytical technique utilizing capillary electrophoresis (CE) for the detection of circulating levels of TAM, N-desmethyltamoxifen (DMT), and 4-hydroxytamoxifen (4-HT) in maternal rodent serum. Greater than 90% of 3H-labeled TAM was extractable from serum using 98:2 hexane-isoamyl alcohol. Optimum separation of TAM, DMT, and 4-HT was obtained on a 57 cmx50 microm capillary using a nonaqueous buffer system of 1:1 methanol-acetonitrile containing 50 mM ammonium acetate and 1% acetic acid. 4-Dimethylaminopyridine was used as internal standard. Temperature and voltage were optimized at 40 degrees C and 15 kV, respectively. The limit of detection of TAM by UV detection at 214 nm was approximately 800 amol. TAM and DMT were confirmed in serum of female rats 4 h following a single oral dose of 120 mg/kg. Transplacental exposure of TAM to fetal tissue will be evaluated using this technique.
- Published
- 1997
- Full Text
- View/download PDF
50. Biliary elimination of oral 2,4-dichlorophenoxyacetic acid and its metabolites in male and female Sprague-Dawley rats, B6C3F1 mice, and Syrian hamsters.
- Author
-
Griffin RJ, Salemme J, Clark J, Myers P, and Burka LT
- Subjects
- 2,4-Dichlorophenoxyacetic Acid administration & dosage, Administration, Oral, Animals, Chromatography, High Pressure Liquid, Cricetinae, Female, Herbicides administration & dosage, Male, Mesocricetus, Mice, Mice, Inbred Strains, Rats, Rats, Sprague-Dawley, Sex Factors, Species Specificity, 2,4-Dichlorophenoxyacetic Acid metabolism, Bile metabolism, Herbicides metabolism
- Abstract
The role of biliary elimination in the metabolic disposition of 2,4-D was evaluated in male and female Sprague-Dawley rats, B6C3F1 mice, and Syrian hamsters. Following cannulation of the bile duct, an intragastric (ig) dose of 2,4-D (200 mg/kg) was administered and bile was collected at 30- or 60-min intervals for up to 6 h. Bile flow rates were constant in rats, increased in mice, and decreased in hamsters throughout the collection periods. Total recovery of radioactivity was greatest in male mice (about 7% of administered dose over 4 h). Female mice and rats of both sexes excreted about 3% over the same interval and male and female hamsters about 1%. About 71-88% of the activity in bile was parent compound. The glycine conjugate of 2,4-D was found in bile from mice, rats, and hamsters and the taurine conjugate in bile from mice. The only sex-dependent difference in the metabolite profile was in mice. Male mice excreted twice as much glycine conjugate as female mice. An additional minor metabolite (4-7%) was present in rat and mouse bile. This was tentatively identified as 2,4-D-glucuronide based on its hydrolysis by beta-glucuronidase. One more very minor metabolite (3%) was detected in rat bile but was not characterized due to its lability. The results of this study indicate that there are species-dependent differences in the biliary elimination of 2,4-D but not sex-dependent differences.
- Published
- 1997
- Full Text
- View/download PDF
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