INHIBITION OF ALPRAZOLAM AND DESIPRAMINE HYDROXYLATION IN-VITRO BY PAROXETINE AND FLUVOXAMINE - COMPARISON WITH OTHER SELECTIVE SEROTONIN REUPTAKE INHIBITOR ANTIDEPRESSANTS

被引：184

作者：

VONMOLTKE, LL ^{[1
]}

GREENBLATT, DJ ^{[1
]}

COURT, MH ^{[1
]}

DUAN, SX ^{[1
]}

HARMATZ, JS ^{[1
]}

SHADER, RI ^{[1
]}

机构：

[1] TUFTS UNIV NEW ENGLAND MED CTR,DIV CLIN PHARMACOL,BOSTON,MA

来源：

JOURNAL OF CLINICAL PSYCHOPHARMACOLOGY | 1995年 / 15卷 / 02期

关键词：

D O I：

10.1097/00004714-199504000-00008

中图分类号：

R9 [药学];

学科分类号：

1007 ;

摘要：

In vitro preparations of human liver microsomes were used to study the inhibiting effects of two selective serotonin reuptake inhibitor (SSRI) antidepressants, paroxetine and fluvoxamine, on metabolism via hydroxylation of alprazolam and of desipramine. These reactions are mediated by Cytochromes P450-3A4 and P450-2D6, respectively. Paroxetine was a highly potent inhibitor of desipramine hydroxylation; the inhibition constant (K-i) value of 2.0 mu M indicated greater inhibiting potency than fluoxetine or norfluoxetine. The in vitro data predicted in vivo impairment of desipramine clearance by coadministration of paroxetine which was in the same range as observed in a clinical study. Fluvoxamine, by contrast, was a much weaker inhibitor of desipramine hydroxylation, having a K-i value (16.6 mu M) similar to those of sertraline and desmethylsertraline. For hydroxylation of alprazolam, paroxetine was a relatively weak inhibitor, approximately comparable to fluoxetine, whereas fluvoxamine showed inhibiting capacity similar to that of norfluoxetine. The in vitro data predicted the degree of impairment of alprazolam clearance observed in vivo during fluvoxamine coadministration. The in vitro model can therefore provide clinically relevant data on prediction of potential drug interactions with SSRIs.

引用

页码：125 / 131

页数：7

共 44 条

[1]

ALDERMAN J, 1994, NEUROPSYCHOPHARMACOL, V10, pS263

[2] INTERPRETATION OF BLOOD AND TISSUE CONCENTRATIONS IN FATAL SELF-INGESTED OVERDOSE INVOLVING AMITRIPTYLINE - AN UPDATE (1978-1979) [J].

BAILEY, DN ;

SHAW, RF .

JOURNAL OF ANALYTICAL TOXICOLOGY, 1980, 4 (05) :232-236

[3] THE DEBRISOQUINE HYDROXYLATION TEST PREDICTS STEADY-STATE PLASMA-LEVELS OF DESIPRAMINE [J].

BERTILSSON, L ;

ABERGWISTEDT, A .

BRITISH JOURNAL OF CLINICAL PHARMACOLOGY, 1983, 15 (03) :388-390

[4] THE ROLE OF CYTOCHROME-P4502D6 IN THE METABOLISM OF PAROXETINE BY HUMAN LIVER-MICROSOMES [J].

BLOOMER, JC ;

WOODS, FR ;

HADDOCK, RE ;

LENNARD, MS ;

TUCKER, GT .

BRITISH JOURNAL OF CLINICAL PHARMACOLOGY, 1992, 33 (05) :521-523

[5] PHYSICAL PARTITIONING AS THE MAJOR SOURCE OF METOPROLOL UPTAKE BY HEPATIC MICROSOMES [J].

BOGEYEVITCH, MA ;

GILLAM, EMJ ;

REILLY, PEB ;

WINZOR, DJ .

BIOCHEMICAL PHARMACOLOGY, 1987, 36 (23) :4167-4168

[6] EXTREMELY SLOW METABOLISM OF AMITRIPTYLINE BUT NORMAL METABOLISM OF IMIPRAMINE AND DESIPRAMINE IN AN EXTENSIVE METABOLIZER OF SPARTEINE, DEBRISOQUINE, AND MEPHENYTOIN [J].

BROSEN, K ;

GRAM, LF ;

KRAGHSORENSEN, P .

THERAPEUTIC DRUG MONITORING, 1991, 13 (02) :177-182

[7] INHIBITION BY PAROXETINE OF DESIPRAMINE METABOLISM IN EXTENSIVE BUT NOT IN POOR METABOLIZERS OF SPARTEINE [J].

BROSEN, K ;

HANSEN, JG ;

NIELSEN, KK ;

SINDRUP, SH ;

GRAM, LF .

EUROPEAN JOURNAL OF CLINICAL PHARMACOLOGY, 1993, 44 (04) :349-355

[8] FLUVOXAMINE IS A POTENT INHIBITOR OF CYTOCHROME-P4501A2 [J].

BROSEN, K ;

SKJELBO, E ;

RASMUSSEN, BB ;

POULSEN, HE ;

LOFT, S .

BIOCHEMICAL PHARMACOLOGY, 1993, 45 (06) :1211-1214

[9]

CHOU CH, 1993, DRUG METAB DISPOS, V21, P933

[10]

CIRAULO DA, 1990, J CLIN PSYCHOPHARM, V10, P213

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