The influences of aconitine, an active/toxic alkaloid from aconitum, on the oral pharmacokinetics of CYP3A probe drug buspirone in rats.

Aconitine (AC), an active/toxic alkaloid from Aconitum species, is commonly present in Traditional Chinese Medicine (TCM) prescriptions because of the great effectiveness of Aconitum for the treatment of rheumatoid arthritis, cardiovascular diseases, and tumors in clinic. Buspirone (BP) is a sensitive CYP3A probe drug that is administered through oral/intravenous routes as recommended by the U.S. Food and Drug Administration. This study aims to investigate the influences of AC (0.125 mg/kg, oral) on first-pass (intestinal and hepatic) CYP3A activity by using oral BP as the probe in rats. The pharmacokinetics of oral buspirone hydrochloride at different doses (12.5, 25, and 50 mg/kg) were conducted. The pharmacokinetics of oral BP in rats pretreated with single dose or multiple doses (7-day) of AC were investigated. The plasma concentrations of BP and its major metabolites [1-(2-pyrimidinyl)piperazine (1-PP) and 6'-hydroxybuspirone (6'-OH-BP)] were determined. The formation ratios of 1-PP and 6'-OH-BP from BP (AUC0-∞ of 1-PP/AUC0-∞ of BP and AUC0-∞ of 6'-OH-BP/AUC0-∞ of BP values) showed no alternation when the dose of BP changed. Single dose of AC decreased the AUC0-∞ of BP by 53% but increased the formation ratio of 6'-OH-BP by 74% (P<0.05). Multiple AC exposure increased the AUC0-∞ of BP by 110%, and the formation ratios of 1-PP and 6'-OH-BP from BP were increased by 229% and decreased by 95%, respectively (P<0.05). Conclusively, single/multiple AC exposure did not alter the first-pass CYP3A activity when using oral BP as probe in rats. Nevertheless, multiple AC exposure had markedly changed the production of BP metabolites.

The exposure of highly toxic aconitine does not significantly impact the activity and expression of cytochrome P450 3A in rats determined by a novel ultra performance liquid chromatography-tandem mass spectrometric method of a specific probe buspirone.

Aconitum species are widely used to treat rheumatism, cardiovascular diseases, and tumors in China and other Asian countries. The herbs are always used with drugs such as paclitaxel. Aconitine (AC) is one of the main bioactive/high-toxic alkaloids of Aconitum roots. AC is metabolized by cytochrome P450 (CYP) 3A. However, whether AC inhibits/induces CYP3A, which causes drug-drug interaction (DDI) is unclear. Our study aims to explore the potent effects of AC, as a marker component of Aconitum, on CYP3A using the probe buspirone in rats. The effects of oral AC on pharmacokinetics of buspirone were evaluated. CYP3A activity and protein levels in rat liver microsomes pretreated with oral AC were also measured using in vitro buspirone metabolism and Western blot. Buspirone and its major metabolites 1-(2-pyrimidinyl)piperazine and 6'-hydroxybuspirone were determined using a newly validated UPLC-MS/MS method. Single dose and 7-day AC administration at 0.125mg/kg had no effect on CYP3A activity since no change in the formation of 1-(2-pyrimidinyl)piperazine and 6'-hydroxybuspirone. CYP3A activity and protein levels in liver microsomes were also not affected by 7-day AC pretreatment at 0.125mg/kg. Therefore, AC neither inhibits nor induces CYP3A in rats, indicating AC does not cause CYP3A-related DDI in the liver.

Abuse potential of buspirone and related drugs.

Scientific evidence regarding the drug abuse potential of buspirone and gepirone is reviewed. In animal studies, the pharmacologic profile of buspirone differs from that of other classes of abused drugs. Buspirone does not share discriminative stimulus effects with abused depressants, and it is not self-administered. New data are presented showing a lack of reinforcing effects for gepirone in rhesus monkeys when the drug was evaluated in an intravenous drug self-administration procedure. Studies of the acute effects of buspirone conducted in human subjects provide no evidence of abuse potential, and there is no indication that the drug has been abused to any extent since being marketed in December 1986. Available evidence suggests that the azapirones buspirone and gepirone have little, if any, potential for abuse.

[The pharmacology of 1-(2-pyrimidinyl)piperazine, a metabolite of buspirone]. / Farmakologiia 1-(2-pirimidinil)-piperazina, metabolita buspirona.

In experiments on rats the anxiolytic activity of 1-(2-pyrimidinyl)-piperazine (PP) was revealed only in some models of anxiety states, although diazepam was effective in all used models. In contrast to diazepam, PP exerts the anesthetic-potentiating and myorelaxant effects only when administered in subtoxic doses and possesses no anticorazole activity. The facts testifying to the serotoninergic mechanisms of the anxiolytic action of 1-(2-pyrimidinyl)-piperazine are presented.