1. Nicotine and its main metabolite, cotinine, were reported to have distinct behavioral activities in mammals. 2. In this study, cotinine was synthesized without detectable nicotine contamination to compare the ability of nicotine and cotinine to pass the blood-brain barrier (BBB) in rats. 3. The alkaloids were extracted from plasma and brain tissues by methanol, identified by thin-layer chromatography, and quantified by high-pressure liquid chromatography and radioimmunoassays. 4. Consistently, the three methods showed that the passage of cotinine was time, route of administration, and dose dependent and that nicotine was more efficient than cotinine to pass the BBB. 5. The results suggest that these alkaloids may have central activities that probably result from their actions at distinct molecular levels.
A simple and sensitive high-performance liquid chromatographic method has been developed to measure megazol in human plasma. The method was optimized and validated according to the Washington Concensus Conference on the Validation of Analytical Methods (V.P. Shah et al., Eur. J. Drug Metab. Pharmacokinet., 15 (1991) 249). The criteria of complete validation were specificity, linearity, precision, analytical recovery, dilution and stability. It involved extraction of the plasma with dichloromethane, followed by reversed-phase high-performance liquid chromatography using a Kromasil R C 8 column and UV detection at 360 nm. The retention times of the internal standard (tinidazol) and megazol were 6.10 and 9.60 min, respectively. The standard curve was linear from 2 ng ml-~ (limit of quantification) to 2000 ng ml-~. The coefficients of variation for all the criteria of validation were less than 6%; 85 to 92% extraction efficiencies were obtained. Megazol was stable during the storage period (one month at-20°C) in plasma and for two months at 25°C in standard solution. The method was tested by measuring the plasma concentration following oral administration to rat and was shown to be suitable for pharmacokinetic studies.
The pharmacokinetics of megazol (CAS 19622-55-0) was investigated after intraperitoneal and oral administration of the drug (80 mg/kg) to mice. The plasma levels were significantly higher after oral administration of drug than after intraperitoneal route (33.8 micrograms/ml compared with 19.0 micrograms/ml for Cmax, 158714 micrograms.h/l compared with 96057 micrograms.h/l for AUC). When suramin (CAS 145-63-1) was administered 24 h before oral administration of megazol, megazol absorption was accelerated (2 h compared with 4 h for Tmax) but the amount absorbed was lower (19.9 micrograms/ml compared with 33.8 micrograms/ml for Cmax and 95547 micrograms.h/l vs 158714 micrograms.h/l for AUC). In the infected mice previously treated with suramin, all estimated pharmacokinetic parameters of plasma megazol were significantly modified, in particularly an increase in the apparent volume of distribution (5.6 l/kg compared with 0.9 l/kg) with a prolongation of the elimination half-life (3 h compared with 0.7 h) of megazol. Excretion of the total radioactivity of megazol was also evaluated after oral administration of 3H-megazol to rats. Total radioactivity was eliminated predominantly via the urinary route (80%) vs. 10.5% in the faeces, 9.5% remaining in the body 8 days after dosing. When unlabelled megazol was orally administered to rats with absence or presence of suramin, megazol recovered in urine and faeces 72 h dosing was: 55.7%/2% vs 20.6%/1.6%, respectively. In the urine, unchanged megazol was present as characterized by LC-MS/MS as well as 4 unknown metabolites. This study indicates that suramin significantly affects the pharmacokinetics of megazol and its elimination.
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