M Romkes-Sparks scite author profile

The present study assesses the role of members of the human CYP2C subfamily in the 4'-hydroxylation of (S)-mephenytoin. When recombinant CYP2C proteins were expressed using a yeast cDNA expression system, 2C19 stereospecifically 4'-hydroxylated (S)-mephenytoin with a turnover number at least 10 times higher than that of human liver microsomes. 2C9 (both Ile359 and Leu359 alleles) and 2C18 (Thr385 and Met385 alleles) metabolized this substrate at a rate 100-fold lower than 2C19, and metabolism by these 2C proteins was not stereospecific for the S-enantiomer. 2C8 exhibited very little mephenytoin 4'-hydroxylase activity. In contrast, the Ile359 allele of 2C9 had a high turnover number for the hydroxylation of tolbutamide, while the Leu359 allele was less active toward this substrate. Immunoblot analysis of 16 human liver donor samples indicated that (S)-mephenytoin 4'-hydroxylase activity correlated with the hepatic CYP2C19 content, but it did not correlate with the hepatic content of CYP2C9. Moreover, direct sequencing of the polymerase chain reaction (PCR) products of 2C9 mRNA from six of these human livers through areas of known allelic variations indicated that the identity of the allele of 2C9 (Cys144 vs Arg, Tyr358 vs Cys, Ile359 vs Leu, or Gly417 vs Asp) did not appear to influence (S)-mephenytoin 4'-hydroxylase activity in these samples. These data indicate that 2C19 is the principal determinant of (S)-mephenytoin 4'-hydroxylase activity in human liver.

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Comparison of the enzyme-linked oligonucleotide sorbent assay to the 32P-labeled PCR/Southern blotting technique in quantitative analysis of human and rat mRNA.

Carcillo¹,

Parise²,

Romkes-Sparks³

1994

Genome Research

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Correlation of polymorphic expression of CYP2D6 mRNA in bladder mucosa and tumor tissue to in vivo debrisoquine hydroxylase activity

Romkes-Sparks

Mnuskin²,

Chern

et al. 1994

Carcinogenesis

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Debrisoquine hydroxylase activity has been attributed to CYP2D6 and poor metabolizers of debrisoquine have a reduced relative risk of developing aggressive bladder cancer. Production of a proximate carcinogen could occur in liver or bladder mucosa. However, it is not known if CYP2D6 is expressed in human bladder mucosa. In vivo whole body debrisoquine hydroxylase activity was measured as the debrisoquine recovery ratio (DBRR) following single dose oral administration of debrisoquine (10 mg) in 10 normal subjects and 20 patients with bladder cancer prior to diagnostic cystoscopy. Semi-quantitative PCR was used to measure mRNA for CYP2D6 in bladder tissue obtained at cystoscopy. Of the 30 subjects, three were phenotypically and genotypically poor metabolizers. Among the extensive metabolizers, there were extensive intersubject variations in DBRR. A 10-fold variation in CYP2D6 mRNA levels was observed in bladder tissue. There was a highly significant association between DBRR and CYP2D6 mRNA expression (r2 = 0.702, P < 0.001). These results demonstrate the presence of CYP2D6 mRNA in bladder mucosa. Furthermore, they are consistent with debrisoquine hydroxylation being mediated by CYP2D6 and suggest that differences in mRNA concentration are rate limiting for enzyme activity and that bladder mucosal regulation reflects total body regulation for this enzyme. The expression of CYP2D6 in bladder mucosa suggests that this enzyme could be involved in the local production of a proximate carcinogen in this tissue and contribute to the pathogenesis of bladder cancer in man.

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The procarcinogen hypothesis for bladder cancer: activities of individual drug metabolizing enzymes as risk factors

Hd²,

Adedoyin³

et al. 1995

Pharmacogenetics

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M Romkes-Sparks

Evidence That CYP2C19 is the Major (S)-Mephenytoin 4'-Hydroxylase in Humans

Comparison of the enzyme-linked oligonucleotide sorbent assay to the 32P-labeled PCR/Southern blotting technique in quantitative analysis of human and rat mRNA.

Correlation of polymorphic expression of CYP2D6 mRNA in bladder mucosa and tumor tissue to in vivo debrisoquine hydroxylase activity

The procarcinogen hypothesis for bladder cancer: activities of individual drug metabolizing enzymes as risk factors

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