Pharmacokinetics and Ex Vivo Activity of 7-Methylxanthine, an Inhibitor of Monosodium Urate Crystallization
Miguel D. Ferrer, Jaume Dietrich, Bernat Isern, Maria del Mar Pérez-Ferrer, Joan Albertí, Félix Grases, Antònia Costa-Bauzà

TL;DR
This study shows that 7-methylxanthine, a caffeine metabolite, can safely reduce urate crystal formation in rats, suggesting it may be a promising treatment for gout.
Contribution
The study provides new pharmacokinetic data and confirms the ex vivo anti-crystallization activity of 7-methylxanthine in rats.
Findings
Oral 7-MX in rats achieved plasma concentrations sufficient to inhibit monosodium urate crystallization.
Ex vivo inhibition of crystallization was 41.4% and 52.6% at 30 and 60 mg/kg doses, respectively.
7-MX showed no toxicities and its effects were proportional to dose with no accumulation.
Abstract
Background/Objectives: 7-Methylxanthine (7-MX) is a naturally occurring metabolite of caffeine and theobromine that can inhibit the crystallization of monosodium urate (MSU) and may be useful for the prevention or treatment of gout. However, the pharmacokinetics and ex vivo activity of 7-MX remain poorly characterized. Methods: The present study assessed the pharmacokinetics of 7-MX in Sprague Dawley rats following a single oral dose (30 mg/kg), and the ex vivo inhibition of MSU crystallization by 7-MX in rat plasma after the repeated administration of oral 7-MX. Results: The pharmacokinetic analysis showed that 7-MX reached peak plasma concentration (Cmax ≈ 30 µM) at 30 min after administration (tmax), the terminal half-life was approximately 1.4 h, and there was no evidence of accumulation after repeated daily dosing. After repeated administration, the relationship between dose (30 or…
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Taxonomy
TopicsGout, Hyperuricemia, Uric Acid · Toxin Mechanisms and Immunotoxins · Alcohol Consumption and Health Effects
