The effect of acetylator phenotype on the disposition of aminoglutethimide.

Adam, Andi Muhammad; Rogers, H. J.; Amiel, S. A.; Rubens, R. D.

doi:10.1111/j.1365-2125.1984.tb02497.x

Cited by 23 publications

(10 citation statements)

References 18 publications

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“…However, AUC ratios above 1 have been reported previously (Coombes et aI., 1980(Coombes et aI., , 1982Stuart-Harris et aI., 1985). Our finding of a positive correlation between the initial clearance value of aminoglutethimide and the AUC ratio contrasts with the findings of Adam et al (1984) who reported a significant negative correlation coefficient. During phase I, these 2 patients had the smallest AUC ratios observed.…”

Section: Discussioncontrasting

confidence: 99%

“…The elimination of this metabolite showed the same elimination rate constant as for aminoglutethimide, suggesting that production is the rate-limiting step in the elimination of this metabolite (Rowland and Tozer, 1980). The AUC ratios between N-acetylaminoglutethimide and aminoglutethimide obtained in the present study (table III) were in accordance with results obtained by Adam et al (1984), but our values showed a larger spread with some especially high values in phase 1. However, AUC ratios above 1 have been reported previously (Coombes et aI., 1980(Coombes et aI., , 1982Stuart-Harris et aI., 1985).…”

Section: Discussionsupporting

confidence: 92%

“…Similar data have been obtained by Murray et al (1979) and Thompson et al (1981) using a spectrophotometric assay, and more recently by Adam et al (1984) using a HPLC technique. Similar data have been obtained by Murray et al (1979) and Thompson et al (1981) using a spectrophotometric assay, and more recently by Adam et al (1984) using a HPLC technique.…”

Section: Discussionsupporting

confidence: 84%

“…Since no information is available regarding the clearance of N-acetylaminoglutethimide, it is not possible to calculate from our data the fraction of aminoglutethimide metabolised to the N-acetyl metabolite (Rowland and Tozer, 1980). Renal clearance of N-acetyJaminoglutethimide has been found to be identical to the renal clearance of aminoglutethimide (Adam et at, 1984). Values of N-acetylaminoglutethimide reported in the same investigations were 6.4% and 2.9%, respectively.…”

Section: Discussionsupporting

confidence: 56%

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Single-Dose and Steady-State Pharmacokinetics of Aminoglutethimide

Lønning

Schanche

Kvinnsland

et al. 1985

Clinical Pharmacokinetics

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The oral pharmacokinetics of aminoglutethimide were determined in 17 patients receiving the drug therapeutically. The absorption of aminoglutethimide after oral intake was almost complete as judged by recovery of radio-labelled drug in the urine. The plasma half-life of the drug was markedly reduced (mean 43%) during multiple-dose administration as compared with a single dose, but only a moderate increase in total clearance (mean 26.9%) was observed. This finding was consistent with a significant reduction (mean 29.2%) in apparent volume of distribution (Vd) occurring during prolonged treatment. These alterations in drug distribution could also be demonstrated after a drug-free interval of 96 hours during treatment. The reduction in apparent volume of distribution could not be explained by altered plasma protein binding of aminoglutethimide, as evaluated by equilibrium dialysis experiments.

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Section: Discussioncontrasting

confidence: 99%

Section: Discussionsupporting

confidence: 92%

Section: Discussionsupporting

confidence: 84%

Section: Discussionsupporting

confidence: 56%

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Single-Dose and Steady-State Pharmacokinetics of Aminoglutethimide

Lønning

Schanche

Kvinnsland

et al. 1985

Clinical Pharmacokinetics

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“…hydroxylamine is also toxic to human monoDapsone administered at 100 mg acutely has nucleocytes in vitro (Coleman et al, 1989) and often been used as a probe drug for the assessin granulopoiesis in vitro (Weetman et al, 1980). ment of acetylator phenotype (Adam et al, 1984;Horai et al, 1985;Hutchings et al, 1984). Swain et al (1983) noted that after a single dose of 150 mg no patients or volunteers suffered adverse effects.…”

Section: Discussionmentioning

confidence: 99%

The use of cimetidine as a selective inhibitor of dapsone N‐ hydroxylation in man.

Coleman¹,

Scott²,

Breckenridge³

et al. 1990

Brit J Clinical Pharma

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1 The N-hydroxylation of dapsone is thought to be responsible for the methaemoglobinaemia and haemolysis associated with this drug. We wished to investigate the effect of concurrent administration of cimetidine (400 mg three times per day) on the disposition of a single dose (100 mg) of dapsone in seven healthy volunteers in order to inhibit selectively N-hydroxylation.2 The AUC of dapsone (31.0 ± 7.2 ,ug ml-' h) was significantly increased (P < 0.001) in the presence of cimetidine (43.3 ± 8.8 ,ug ml-' h).3 Peak methaemoglobin levels observed after dapsone administration (2.5 ± 0.6%) were significantly (P < 0.05) reduced in the presence of cimetidine (0.98 ± 0.35%). 4 The percentage of the dose excreted in urine as the glucuronide of dapsone hydroxylamine was significantly (P < 0.05) reduced in the presence of cimetidine (34.2 ± 9.3 vs 23.1 ± 4.2%). 5 Concurrent cimetidine therapy might reduce some of the haematological side-effects of dapsone.

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ArylamineN‐Acetyltransferases

Grant

2016

Encyclopedia of Drug Metabolism and Interactions

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Arylamine N ‐acetyltransferases (NATs) are phase II xenobiotic‐conjugating enzymes that have a restricted substrate preference for the N ‐ or O ‐acetylation of aromatic amine and their N ‐oxidized metabolites. Although the number of clinically useful drugs whose disposition depends on acetylation is relatively small, the risk for toxicity from these agents is significant. In addition, a much larger number of potentially hazardous environmental aromatic amines may be acetylated, and this process may contribute to either the detoxication or the metabolic activation of such chemicals into reactive electrophiles with the potential to damage cellular macromolecules. The structures of the two human NAT enzymes NAT1 and NAT2 have been determined; the structural features allow for the detailed description of a two‐step catalytic mechanism and for a rationalization of their distinct substrate preferences. Although the human isoniazid acetylation polymorphism is controlled by allelic variation at the NAT2 gene locus, a considerable variation exists in the NAT1 gene. Numerous associations have been reported between variable NAT function and risk for cancers associated with exposure to aromatic amines. In addition, possible novel roles for NAT1 and its mammalian orthologs in folate homeostasis and in cellular proliferation are being actively explored.

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The effect of acetylator phenotype on the disposition of aminoglutethimide.

Cited by 23 publications

References 18 publications

Single-Dose and Steady-State Pharmacokinetics of Aminoglutethimide

Single-Dose and Steady-State Pharmacokinetics of Aminoglutethimide

The use of cimetidine as a selective inhibitor of dapsone N‐ hydroxylation in man.

ArylamineN‐Acetyltransferases

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