Pharmacokinetics of S-Allyl-L-cysteine in Rats Is Characterized by High Oral Absorption and Extensive Renal Reabsorption

Background: S-Allylcysteine (SAC) is a key component of aged garlic extract, one of many garlic products. However, information on its pharmacokinetics has been scant except for data from a few animal studies. Objective: We designed this study to determine the overall pharmacokinetics of SAC in rats. Methods: After oral or intravenous administration of SAC to rats at a dose of 5 mg/kg, the plasma concentration-time profile of SAC and its metabolites, as well as the amounts excreted in bile and urine, were analyzed by using liquid chromatography tandem mass spectrometry. Results: After oral administration, SAC was well absorbed with a bioavailability of 98%. Two major metabolites of SAC, N-acetyl-S-allylcysteine (NAc-SAC) and N-acetyl-S-allylcysteine sulfoxide (NAc-SACS), were detected in plasma, but their concentrations were markedly lower than those of SAC. SAC was metabolized to a limited extent, but most of the orally absorbed SAC was excreted into urine in the form of its N-acetylated metabolites. The amounts of SAC, NAc-SAC, and NAc-SACS excreted in urine over 24 h were 2.9%, 80%, and 11 % of the orally administered SAC, respectively. The very low renal clearance (0.016 L " h(-1) " kg(-1)) of SAC indicated that it undergoes extensive renal reabsorption. These results collectively suggested that SAC was ultimately metabolized to NAc-SAC and NAc-SACS through the cycles of urinary excretion, renal reabsorption, and systemic recirculation. Conclusion: The pharmacokinetics of SAC in rats were characterized by high oral absorption, limited metabolism, and extensive renal reabsorption, all of which potentially contribute to its high and relatively long-lasting plasma concentrations.