Pharmacokinetics of latanoprost in the cynomolgus monkey. 2nd communication: repeated topical administration on the eye

Latanoprost (13,14-dihydro-15(R)-17-phenyl-18,19,20-trinor-PGF2a isopropyl ester, CAS 130209-82-4 PhXA41, Xalatan) is an antiglaucoma prodrug which enhances the bioavailability of the drug into the eye compared to the corresponding acid. The pharmacokinetics and metabolism of this drug was studied in the cynomolgus monkey after daily topical administration on the eye of [13,14-(3) H] labelled latanoprost (6 micrograms per eye) during 21 days. Plasma, urine and homogenised faeces samples were purified by separation on a Sep-Pak C18 cartridge before analysis by reversed phase liquid chromatography (RP-HPLC) with one-line radioactivity detection. The maximum plasma concentration of radioactivity obtained within 10 min post dose was as a mean 7.87 +/- 3.18 ng eq./ml on day 1 and 9.31 +/- 4.21 ng eq./ml on day 21. The plasma concentration of radioactivity declined rapidly up to 3 h post-dose both on day 1 and day 21, but a small amount of tritiated water accumulated with time. The majority of the radioactivity was recovered in urine but substantial amounts were also eliminated in the faces. No latanoprost was found in plasma after repeated topical administration on the eye. The plasma profiles from HPLC separation of samples showed a rapid and complete hydrolysis of the ester. The elimination half-life of the acid of latanoprost was estimated to be 13.8 +/- 1.7 min for day 1 and 12.4 +/- 4.8 min for day 21. No induction or inhibition of the metabolism occurred after the repeated administration. By comparison with reference substances the 15-keto acid of latanoprost was found to be present in plasma and the major metabolites in urine and faeces collected during day 2 and day 20 were identified as 1,2-dinor acid of latanoprost, 1,2,3,4-tetranor acid and 1,2,3,4-tetranor lactone of latanoprost. Tritiated water was excreted in the urine and a small amount of the acid of latanoprost was excreted in the faeces. In conclusion, latanoprost was rapidly absorbed and hydrolysed to the corresponding acid after repeated topical administration to the monkey eye. The acid of latanoprost had a short half-life in plasma and it was partly converted to the 15-keto acid of latanoprost. beta-Oxidation of the acid of latanoprost was the major metabolic pathway. No induction or inhibition of the metabolism occurred upon repeated administration and no indications of accumulation of the drug or drug metabolites were observed. The pharmacokinetics of latanoprost was similar after a single and repeated topical administration.