Table 3

Inhibition of fluvastatin metabolism

Inhibitor/Substrate	Inhibition of 6-OH + N-deisopropyl IC₅₀	Inhibition of 5-OH IC₅₀	Inhibitor/Substrate	Inhibition of 6-OH + N-deisopropyl IC₅₀	Inhibition of 5-OH IC₅₀
	μM	μM		μM	μM
Analgesic/antipyretic:			Steroids:
Diclofenac	∼3	20	Ethinyl estradiol	∼3	∼5
Phenacetin	>100	>100	Antitussive:
Sulfinpyrazone	∼100	>100	Dextromethorphan	>100	∼100
Antihypertensive:			Antiarrhythmic:
Nifedipine	2.5	7	Quinidine	>100	>100
Mibefradil^a	60	1	Sparteine	>100	>100
Isradipine^b	4	4	Antihypercholesterolemic:
Valsartan	>100	>100	Lovastatin	∼7	∼5
Immunosuppressant:			Pravastatin^b	>100	>100
Cyclosporine A	∼20	∼20	Clofibrate	10	9
Antibiotic:			Anticoagulant:
Erythromycin	∼90	∼70	Warfarin	8	9
Antidiabetic:			Skeletal muscle relaxant:
Chlorpropamide	>100	>100	Chlorzoxazone	∼100	>100
Glyburide	∼5	∼9	Anti Asthmatic:
Tolbutamide	>1000	>1000	Furafylline	>100	>100
Antifungal:			Antibacterial:
Ketoconazole	90	8	Sulfaphenazole	∼0.25	>100
Itraconazole^a	>100	>100	Troleandomycin	>100	∼100
Terbinafine^b	>100	>100
Antineoplastic:
Paclitaxel	8	10

[¹⁴C]Fluvastatin (0.6 μM) metabolism by human liver microsomes (M8) was determined in the presence of various concentrations of characteristic inhibitors/substrates and potentially coadministered compounds. Inhibitory concentrations (IC₅₀) were determined as described in Materials and Methods.

Additional human livers used were: ^a M8 + HL44 + HL46, ^b M8 + HL44