Metabolism of 2-acetamidofluorene in the steppe lemming

Weisburger, John H.; Grantham, Preston H.; Weisburger, Elizabeth K.

doi:10.1038/bjc.1965.72

Cited by 14 publications

(15 citation statements)

References 8 publications

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“…These glucuronides are recovered from cthe cecums of germfree rats but are virtually absent in the cecal contents of conventional rats fed either fl uorenylacetamide (63) or N-hydroxyacetamidobiphenyl (60). The glucuro nides survive also in the cecal contents and feces of germfree but not of conventional rats after administration either of N-hydroxyfl uorenylacetamide (64).or N-hydroxy lacetamidobiphenyl (60). It is unclear, however, whether these metabolic contribu tions by the flora infl uence the carcinogenic action of these compounds.…”

Section: Compounds Containing the Nitro Groupmentioning

confidence: 99%

Biochemical Pharmacology of the Intestinal Flora

Goldman¹

1978

Annu. Rev. Pharmacol. Toxicol.

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Animal and bacteriological techniques have been developed for clarifying the role of the flora in the metabolism of drugs and other exogenous compounds. In general the flora tends to catalyze reductive and hydrolytic reactions, some of which reverse the detoxification reactions normally occurring in the liver. These reactions and others have been implicated in the pharamacological or toxicological action of exogenous compounds. Only in a few instances, however, have practical consequences of these reactions been documented. The major challenge at present is to develop methods capable of further defining the implications of reactions due to the flora.

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Section: Compounds Containing the Nitro Groupmentioning

confidence: 99%

Biochemical Pharmacology of the Intestinal Flora

Goldman¹

1978

Annu. Rev. Pharmacol. Toxicol.

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“…Metabolites excreted in urine from rats fed AAS were fractionated into free compounds and sulphuric acid and glucosiduronic acid conjugates by alumina chromatography of ether: ethanol (3: 1 v/v) extracts of urine using the procedure of Weisburger, Grantham, Morris and Weisburger (1961). The conjugates with sulphuric acid and glucosiduronic acid were then hydrolysed with Taka diastase and f6-glucuronidase respectively and the liberated metabolites characterized by paper and thin layer chromatography.…”

Section: Classification Of Urinary Metabolitesmentioning

confidence: 99%

N-Hydroxylation in Aminostilbene Carcinogenesis

Baldwin¹,

Smith²

1965

Br J Cancer

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FOLLOWING the original observation of Cramer, Miller and Miller (1960) that an N-hydroxylated metabolite of 2-acetamidofluorene (AAF) was formed in the rat, N-hydroxylation of a number of carcinogenic aromatic amines in susceptible species has been reported. Thus an N-hydroxylated metabolite of 4-acetamidobiphenyl was demonstrated in the rat (Miller, Wyatt, Miller and Hartmann, 1961) whilst similar metabolic conversions of 2-naphthylamine have been observed in both rat (Boyland, Manson and Nery, 1960) and man (Troll and Nelson, 1961).N-Hydroxylation of carcinogenic aromatic amines in vitro by tissue homogenates or sub-cellular fractions has also been reported. Hence IJehleke (1963) detected N-oxidation of several carcinogenic arylamines by rat liver microsomes and NADPH2 by estimation of the resulting hydroxyamino and nitroso compounds.The formation of N-hydroxy-AAF following incubation of AAF with rabbit liver microsomes has been demonstrated more directly by identification of the metabolite (Irving, 1964; Booth and Boyland, 1964) whilst Booth and Boyland (1964) also showed N-hydroxylation of 4-acetamidobiphenyl and N-acetylbenzidine.Investigations of the carcinogenicity of these compounds have shown that, in general, the N-hydroxy derivatives are more active than the parent amides. Thus N-hydroxy-2-acetamidofluorene was shown (Miller, Miller and Hartmann, 1961) to be more active than AAF towards rat liver and additionally, induced tumours at other sites including the peritoneum and forestomach. Similarly, N-hydroxy-4-acetamidobiphenyl proved to have an enhanced carcinogenic activity with a greater spectrum of action (Miller, Wyatt, Miller and Hartmann, 1961) and 2-naphthylhydroxylamine was a more potent carcinogen than the parent amide (Boyland, Dukes and Grover, 1963).trans-4-Aminostilbene and its derivatives, initally studied on account of their tumour inhibitory properties (Haddow, Harris, Kon and Roe, 1948), are highly carcinogenic in the rat inducing ear duct carcinomata following oral administration. These compounds thus provide a further class of aromatic amines for investigation of the significance of N-hydroxylation in carcinogepesis. The present paper describes the metabolic transformations of aminostilbene compounds in the rat particularly with reference to the formation of N-hydroxy-derivatives, and their further metabolic reactions.

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“…The standard typical bioassays for the detection of chemical carcinogens as developed by the National Cancer Institute (NCI) requires the use of male and female rats, mice, and occasionally hamsters of strains selected for their sensitivity to carcinogens (1). The standard test involves determination of the maximally tolerated dose (MTD) of a product, after which, groups of 50 male and female animals are given the MTD and half-MTD in a 2-year test and, in some in-SCIENCE, VOL.…”

Section: Difficulties With Current Approaches To Carcinogen Testingmentioning

confidence: 99%

“…The elimination of unnecessary long-term testing for all chemicals by the decision point approach makes more extensive testing of suspected epigenetic agents economically feasible. Methods for conducting long-term bioassays have been reviewed 406 (1,16), and we need only emphasize here that expert judgment is required for design of the test procedures as well as for reliable evaluation and interpretation of the results.…”

Section: Decision Pointmentioning

confidence: 99%

Carcinogen Testing: Current Problems and New Approaches

Weisburger¹,

Williams²

1981

Science

240

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The classic procedures for testing potential carcinogens in animals have basically not changed in the past 50 years. Considerable knowledge of the mechanisms of carcinogenesis has accrued in the last 20 years, particularly concepts on the metabolic activation of chemicals to reactive electrophilic compounds that can interact with nucleophilic including DNA. These developments, in turn, have yielded a framework for integrating into carcinogen testing the determination of genetic effects of chemicals. A systematic decision point approach to carcinogen testing has been developed which entails a sequential decision-making process as specific tests are performed and evaluated prior to initiation of higher order, more complex tests. Compared to conventional bioassays in rodents, this approach provides knowledge based on mechanisms of carcinogenesis, yields a substantial amount of data at minimal cost, and forms a solid base for eventual heath risk assessment.

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Metabolism of 2-acetamidofluorene in the steppe lemming

Cited by 14 publications

References 8 publications

Biochemical Pharmacology of the Intestinal Flora

Biochemical Pharmacology of the Intestinal Flora

N-Hydroxylation in Aminostilbene Carcinogenesis

Carcinogen Testing: Current Problems and New Approaches

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