Chlorodibromomethane metabolism to bromide and carbon monoxide in rats

Pankow, D; Damme, Britt; Wünscher, Ulrike; Bergmann, Kathrin

doi:10.1007/s002040050377

Cited by 9 publications

(6 citation statements)

References 24 publications

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“…The increase of COHb forma- Table 1. GSSG concentration in the liver of male Wistar rats (mean ± SD; n = 3) after a single oral uptake of CDBM or TBM, 0.8 mmol ~ kg-~ (* p < 0.05 vs. control) tion after TBM administration and the increase of bromide concentration in plasma after CDBM administration observed previously [15] in PB-pretreated rats indicates that CYP2B]12 are involved in the trihalomethane oxidation.…”

Section: Discussionmentioning

confidence: 62%

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Carbon Monoxide Generation from Trihalomethane Metabolism in Rats

Pankow

Damme

1999

Indoor and Built Environment

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Carboxyhaemoglobin (COHb) formation in rats after oral administration of trichloromethane (TCM), bromodichloromethane (BDCM), chlorodibromomethane (CDBM) and tribromomethane (TBM) increased in the order TCM < BDCM < CDBM < TBM. The trihalomethanes are substrates for cytochrome P 450 2E1 (CYP2E1) and cytochromes P 450 2B1/2 (CYP2B1/2) as shown by: (a) the inhibition of COHb formation due to simultaneous administration of CDBM or TBM and diethyldithiocarbamate, an inhibitor of CYP2E1, and (b) the initially higher levels of COHb after gavage of CDBM or TBM in rats pretreated with isoniazid, an inducer of CYP2E1, or pretreated with phenobarbital, an inducer of CYP281/2. There is an enhancement of the COHb level after daily administration of CDBM or TBM for 7 days in comparison to a single gavage, but the COHb levels were not higher due to chronic intake of CDBM with the drinking water (2.4 μmol.l -1 ) in comparison to the basic levels, measured during 26 weeks.

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Section: Discussionmentioning

confidence: 62%

“…The initial COHb levels were higher in rats after seven consecutive applications (once a day) in comparison with a single uptake of the corresponding dose. An increase of the p-nitrophenol hydroxylase activity, a marker of CYP2E] [16], was demonstrated in liver microsomes of rats after repeated CDBM uptake [ 15].…”

Section: Discussionmentioning

confidence: 99%

Carbon Monoxide Generation from Trihalomethane Metabolism in Rats

Pankow

Damme

1999

Indoor and Built Environment

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“…INH is an inducer of CYP2E1 [14]. The increase of COHb forma- Pankow/Damme tion after TBM administration and the increase of bromide concentration in plasma after CDBM administration observed previously [15] in PB-pretreated rats indicates that CYP2B1/2 are involved in the trihalomethane oxidation.…”

Section: Discussionmentioning

confidence: 71%

“…The initial COHb levels were higher in rats after seven consecutive applications (once a day) in comparison with a single uptake of the corresponding dose. An increase of the p-nitrophenol hydroxylase activity, a marker of CYP2E1 [16], was demonstrated in liver microsomes of rats after repeated CDBM uptake [15].…”

Section: Discussionmentioning

confidence: 99%

Carbon Monoxide Generation from Trihalomethane Metabolism in Rats

Pankow¹,

Damme²

1999

Indoor Built Environ

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Carboxyhaemoglobin (COHb) formation in rats after oral administration of trichloromethane (TCM), bromodichloromethane (BDCM), chlorodibromomethane (CDBM) and tribromomethane (TBM) increased in the order TCM < BDCM < CDBM < TBM. The trihalomethanes are substrates for cytochrome P₄₅₀ 2E1 (CYP2E1) and cytochromes P₄₅₀ 2B1/2 (CYP2B1/2) as shown by: (a) the inhibition of COHb formation due to simultaneous administration of CDBM or TBM and diethyldithiocarbamate, an inhibitor of CYP2E1, and (b) the initially higher levels of COHb after gavage of CDBM or TBM in rats pretreated with isoniazid, an inducer of CYP2E1, or pretreated with phenobarbital, an inducer of CYP2B1/2. There is an enhancement of the COHb level after daily administration of CDBM or TBM for 7 days in comparison to a single gavage, but the COHb levels were not higher due to chronic intake of CDBM with the drinking water (2.4 µmol·l^–1) in comparison to the basic levels, measured during 26 weeks.

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“…The main isozyme responsible for the metabolism of chloroform, BDCM and DBCM is CYP2E1 (Nakajima et al, 1995;Lilly et al, 1997;Pankow et al, 1997). THMs are also metabolized into an intermediate metabolite, dihalocarbonyl, which after hydrolysis becomes carbon dioxide (Amhed et al, 1980;Brown et al, 1974;Mathews et al, 1990).…”

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confidence: 99%

Characterization of the Metabolic Interaction between Trihalomethanes and Chloroacetic Acids using Rat Liver Microsomes

St‐Pierre

Krishnan

Tardif

2005

Journal of Toxicology and Environmental Health, Part A

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The aim of this study was to investigate the in vitro metabolism of trihalomethanes (THMs) in the presence of trichloroacetic acid (TCA), dichloracetic acid (DCA), monochloroacetic acid (MCA), and 4-methylpyrazole (4-MP) using liver microsomes from male Sprague-Dawley rats. Using the vial equilibration technique, initial experiments were carried out with starting concentrations of approximately 40 ppm THMs and 12-22 mM chloroacetic acids. The results indicated a mutual metabolic inhibition between THMs present as binary or quaternary mixtures. Although DCA and MCA had no influence on THMs, TCA produced a marked inhibition of the metabolism of all THMs: chloroform (CHCl3) (55%), bromodichloromethane (BDCM) (34%), dibromochloromethane (DBCM) (30%), and bromoform (TBM) (23%). The presence of 4-MP also reduced THM metabolism, the importance of which decreased in the following order: CHCl3 > BDCM > DBCM = TBM. In further vial equilibration experiments, using 9-140 ppm as starting concentrations of THMs, enzyme kinetic parameters (i.e., Michaelis constant, K(m), and maximum velocity, V(max)) were determined both in the absence and in the presence of TCA (12.2 mM). Results are consistent with a competitive inhibition between TCA and CHCl3, whereas the metabolic inhibition of BDCM and TMB by TCA was non-competitive. As for DBCM, results suggest a more complex pattern of inhibition. These results suggest that CYP2E1 is involved in the metabolism of THMs as well as in the metabolic interaction between THMs and TCA.

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Chlorodibromomethane metabolism to bromide and carbon monoxide in rats

Cited by 9 publications

References 24 publications

Carbon Monoxide Generation from Trihalomethane Metabolism in Rats

Carbon Monoxide Generation from Trihalomethane Metabolism in Rats

Carbon Monoxide Generation from Trihalomethane Metabolism in Rats

Characterization of the Metabolic Interaction between Trihalomethanes and Chloroacetic Acids using Rat Liver Microsomes

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