RESUMEN
Fufang Niuhuang Xiaoyan capsule was a classical compound prescription with the efficacy of heat-clearing, detoxification, sedation and anti-inflammation, with cinnabaris as one of its active ingredients. The study focuses on the pharmacokinetics of mercury in rats after oral administration of cinnabaris and Fufang Niuhuang Xiaoyan capsule, in order to explore the effect of combined traditional Chinese medicines on mercury metabolism. In this study, the method of nitric-perchloric acid digestion system coupled with cold atomic-atomic fluorescence spectroscopy (CV-AFS) was adopted to accurately determine mercury in whole blood of rats. Fufang Niuhueng Xiaoyan capsule had three dose schemes of oral administration, namely equivalent clinical dose, 3 times of equivalent clinical dose and 10 times of equivalent clinical dose; And the doses of oral administration of cinnabaris was calculated according to that of Fufang Niuhuang Xiaoyan capsule. SPF grade healthy SD rats were fasted overnight before the oral administration with cinnabaris suspension (or Fufang Niuhuang Xiaoyan capsule suspension). After oral administration of different doses of cinnabaris, no obvious changes in tmax and MRT were observed, while Cmax/dose, AUC0-48 h/dose and AUC0-∞/dose decreased with the increase in dose, indicating that total mercury absorption in body was declining. As the dose increased, Ke, CL/F decreased, and t1/2 increased, indicating that the elimination slowed down, and mercury metabolism showed non-linear dynamic characteristics within a certain range of dose (22-220 mg•kg⁻¹). The total mercury metabolism in the whole blood of rats after oral administration with different doses of Fufang Niuhuang Xiaoyan capsule also showed non-linear dynamic characteristics. The results were correlated with the low solubility of cinnabaris in the body. Compared with cinnabaris, Fufang Niuhuang Xiaoyan capsule showed no obvious changes in V/F and MRT, while Ke, CL/F, tmax decreased, and t1/2, Cmax/dose, AUC0-48 h/dose, AUC0-∞/dose increased significantly. The results showed that Fufang Niuhuang Xiaoyan capsule accelerated absorption, slowed down elimination and improved the total absorption of mercury in the whole blood, indicating that Fufang Niuhuang Xiaoyan capsule may contain components for promoting absorption and alleviating elimination of mercury. Fufang Niuhuang Xiaoyan capsule had an impact on the pharmacokinetics of cinnabaris, and long-term administration of cinnabaris (Fufang Niuhuang Xiaoyan capsule) was possible to cause accumulation of mercury in the body. This study could explain changes in efficacy of Fufang Niuhuang Xiaoyan capsule, evaluate the rationality of compound medicines containing toxic elements and provide scientific basis for the rational and safe use of Fufang Niuhuang Xiaoyan capsule.
RESUMEN
Objective To optimize the preparation of nanoparticles (NP) encapsulating antisense oligodeoxynucleotides (ASODN) and investigate the effects on inhibition of C6 glioma cells. Methods ASODN coated in NT were prepared by interfacial polymerization of butyleyanoacrylate (BCA). Inverted microscope was used to observe the viability of C6 cells transfected by free ASODN, ASODN in NP, ASODN-NP (ASODN sticking to NP) and BCA-NP, respectively. Cell cycle of C6 cells was studied by flow cytometry (FCM), and CCK-8 assay was performed to examine the cytotoxicity and proliferation of C6 cells. Results Compared with the control group, all groups, except BCA-NP group, after transfection with NPs appeared cell morphological changes; C6 cells were detached from the matrix, the cell density was reduced and the cell viability was poor; ASODN in NP group was most significant in a time-dependent manner. The cell cycle in ASODN-in-NP group varied obviously compared with the BCA-NP group, and the number of the cells in the GO/GI phase was increased and the cell number in S phase was decreased significantly (P<0.05). The results of CCK-8 assay showed that all groups, but BCA-NP group, produced the inhibition of the cell proliferation to different degrees, and the inhibitory effect was increased with the final concentration increment, especially remarkably in ASODN-in-NP group (P<0.05). Conclusion ASODN in NP can inhibit the proliferation and cause cell cycle changes of C6 cells effectively after transfected with ASODN in NP, exerting significantly growth inhibitory effect on C6 glioma cells.