In vivo Pharmacokinetic Interactions of Finasteride and Identification of Novel Metabolites

• The general aim of this thesis was to improve the understanding of the in vivo pharmacokinetics and, in particular, the metabolism of finasteride, a 5α-reductase inhibitor used in the treatment of enlarged prostate glands and male pattern baldness. CYP3A4 has been identified as the major enzyme involved in the sequential metabolism of finasteride to ω-OH finasteride (M1) and ω-COOH finasteride (M3). The consequences of induced and inhibited metabolism on the pharmacokinetics of finasteride and its metabolites were investigated in humans and pigs. Both studies included bile collection. The collected human and pig samples were used for the metabolite identification. As expected, induced metabolism led to reduced plasma exposure of finasteride and inhibited metabolism had the opposite effect. The interactions were investigated in detail and included examination of the biliary pharmacokinetics of finasteride and its metabolites. In pigs, the study included monitoring of the hepatic extraction over time, deconvolution and the development of a semi-physiological model for comparison of the effects on the gut wall and liver metabolism. For M3, the concentration ratios of bile to plasma and the renal clearance indicated that carrier-mediated processes are involved in the biliary and urinary excretion. This was not, however, the case for finasteride. The metabolite, M1, could not be quantified either in humans or pigs. Instead, two other OH metabolites, M1 isomers, were identified in humans. These metabolites were found to undergo glucuronide conjugation. In humans, one glucuronide was identified intact and in pigs, both glucuronides were identified intact in bile and in urine. In addition, a glucuronide of M3 was identified in human bile. In conclusion, advances have been made in the understanding of the pharmacokinetics of finasteride, in particular in relation to the metabolism. Hopefully, the findings of this comprehensive investigation can be applied to other drugs and novel chemical entities.

Subject headings

MEDICIN OCH HÄLSOVETENSKAP  -- Medicinska och farmaceutiska grundvetenskaper -- Farmaceutiska vetenskaper (hsv//swe)

MEDICAL AND HEALTH SCIENCES  -- Basic Medicine -- Pharmaceutical Sciences (hsv//eng)

Keyword

drug-drug interactions

herb-drug interactions

pharmacokinetics

metabolism

CYP3A4

hydroxylation

glucuronidation

UGT enzymes

mass spectrometry

biliary excretion

urinary excretion

finasteride

PHARMACY

FARMACI

Publication and Content Type

vet (subject category)

dok (subject category)