Yvonne Frater scite author profile

Yvonne Frater

3Publications

38Citation Statements Received

45Citation Statements Given

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MRC Toxicology Unit, Medical Research Council

Publications

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Isolation of two N-monosubstituted protoporphyrins, bearing either the whole drug or a methyl group on the pyrrole nitrogen atom, from liver of mice given griseofulvin

Holley

Frater

Gibbs

et al. 1991

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1. A hepatic green pigment with inhibitory properties towards the enzyme ferrochelatase has been isolated from the liver of mice treated with griseofulvin and identified as N-methylprotoporphyrin. 2. All four structural isomers of N-methylprotoporphyrin have been demonstrated to be present, NA, where ring A of protoporphyrin IX is N-methylated, being the predominant isomer. 3. In addition to N-methylprotoporphyrin, a second green pigment, present in far greater amounts, was also isolated from the liver of griseofulvin-treated mice. This second green pigment is also an N-monosubstituted protoporphyrin, but in this case the substituent on the pyrrole nitrogen atom appears to be intact griseofulvin rather than a methyl group. 4. The fragmentation of this adduct in tandem m.s. studies suggests that griseofulvin is bound to the pyrrole nitrogen through one of its carbon atoms and further suggests that N-methylprotoporphyrin may arise as a secondary product from the major griseofulvin pigment.

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Formation of N-methyl protoporphyrin in chemically-induced protoporphyria

Frater

Brady²,

Lock³

et al. 1993

Arch Toxicol

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1-[4-(3-Acetyl-2,4,6-trimethylphenyl)-2,6-cyclohexanedionyl]-O-eth yl propionaldehyde oxime (for short ATMP) is a novel porphyrogenic agent causing hepatic protoporphyria in the mouse. Mice given a single dose of the drug showed 24 h later a 70% inhibition of liver ferrochelatase and marked accumulation of protoporphyrin. These changes were not seen in similarly treated rats, guinea pigs, hamsters or chick embryos. A green pigment was isolated from the liver of mice treated with ATMP and identified by its electronic absorption spectrum and chromatographic properties on HPLC as N-methyl protoporphyrin. The ATMP pigment markedly inhibited the enzyme ferrochelatase in vitro, thus supporting its identification as N-methyl protoporphyrin. Two inhibitors of liver cytochrome P450, compound SKF 525-A and piperonyl butoxide, when given before ATMP, afforded protection against ATMP-induced porphyria and production of N-methyl protoporphyrin, suggesting a role of cytochrome P450 in the induction of the metabolic disorder. The most likely interpretation for these findings is therefore that ATMP is metabolized in the mouse to a reactive species, which in turn alkylates the haem moiety of liver cytochrome P450, thus producing N-methyl protoporphyrin. This inhibits ferrochelatase and, as a secondary response, protoporphyrin accumulates. This pathway of metabolism to the postulated reactive metabolite presumably does not occur to a significant extent in the other species examined and hence is the likely basis for the species difference in protoporphyria.

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Copper-induced dealkylation studies of biologically N-alkylated porphyrins by fast atom bombardment mass spectrometry

Gibbs

Naylor

Lamb

et al. 1990

Analytica Chimica Acta

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Yvonne Frater

Isolation of two N-monosubstituted protoporphyrins, bearing either the whole drug or a methyl group on the pyrrole nitrogen atom, from liver of mice given griseofulvin

Formation of N-methyl protoporphyrin in chemically-induced protoporphyria

Copper-induced dealkylation studies of biologically N-alkylated porphyrins by fast atom bombardment mass spectrometry

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