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Selective serotonin reuptake inhibitors and theophylline metabolism in human liver microsomes: potent inhibition by fluvoxamine.
Author(s) -
Rasmussen BB,
Maenpaa J,
Pelkonen O,
Loft S,
Poulsen HE,
Lykkesfeldt J,
Brosen K
Publication year - 1995
Publication title -
british journal of clinical pharmacology
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.216
H-Index - 146
eISSN - 1365-2125
pISSN - 0306-5251
DOI - 10.1111/j.1365-2125.1995.tb04422.x
Subject(s) - fluvoxamine , chemistry , chlorzoxazone , cyp1a2 , pharmacology , theophylline , sertraline , microsome , enzyme inhibitor , unspecific monooxygenase , cyp2e1 , biochemistry , endocrinology , serotonin , fluoxetine , enzyme , biology , antidepressant , receptor , hippocampus
1. Fluvoxamine and seven other selective serotonin reuptake inhibitors (SRRI) were tested for their ability to inhibit a number of human cytochrome P450 isoforms (CYPs). 2. None of the drugs showed potent inhibition of CYP2A6 (coumarin 7‐hydroxylase) or CYP2E1 (chlorzoxazone 6‐hydroxylase), while norfluoxetine was the only potent inhibitor of CYP3A having IC50 values of 11 microM and 19 microM for testosterone 6 beta‐hydroxylase and cortisol 6 beta‐hydroxylase, respectively. 3. Norfluoxetine, sertraline and fluvoxamine inhibited CYP1A1 (7‐ ethoxyresorufin O‐deethylase) in microsomes from human placenta (IC50 values 29 microM, 35 microM and 80 microM, respectively). Fluvoxamine was a potent inhibitor of CYP1A2‐mediated 7‐ethoxyresorufin O‐ deethylase activity (IC50 = 0.3 microM) in human liver. 4. In microsomes from three human livers fluvoxamine potently inhibited all pathways of theophylline biotransformation, the apparent inhibitor constant, Ki, was 0.07‐0.13 microM, 0.05‐0.10 microM and 0.16‐0.29 microM for inhibition of 1‐methylxanthine, 3‐methylxanthine and 1,3‐ dimethyluric acid formation, respectively. Seven other SSRIs showed either weak or no inhibition of theophylline metabolism. 5. Ethanol inhibited the formation of 1,3‐dimethyluric acid with K(i) value of 300 microM, a value which is consistent with inhibition of CYP2E1. Ethanol and fluvoxamine both inhibited 8‐hydroxylation by about 45% and, in combination, the compounds decreased the formation of 1,3‐dimethyluric acid by 90%, indicating that CYP1A2 and CYP2E1 are equally important isoforms for the 8‐hydroxylation of theophylline. 6. It is concluded that pharmacokinetic interaction between fluvoxamine and theophylline is due to potent inhibition of CYP1A2.