Comparative study on serum transitional components of Huatan Jiangqi Capsules in rats under pathological and physiological status / 中国中药杂志

The differences of transitional components and metabolic processes of Huatan Jiangqi Capsules(HTJQ) in rats under normal physiological and pathological conditions of COPD were analyzed by UPLC-Q-TOF-MS. The rat COPD model was established by passive smoking and intratracheal instillation of lipopolysaccharide. After the normal and COPD model rats were douched with HTJQ, the blood was collected from hepatic portal vein and the drug-containing serum samples were prepared by methanol precipitation of protein. Then, 10 batches of drug-containing serum samples of HTJQ were prepared and analyzed by UPLC serum fingerprint to evaluate the quality and stability of drug-containing serum samples. UPLC-Q-TOF-MS was used to collect the mass spectrometric information of the transitional components. Twenty-eight transitional components of HTJQ in normal rats and 25 transitional components of HTJQ in COPD model rats were identified by UPLC-Q-TOF-MS. Under pathological and physiological conditions, there were not only the same transitional components in rat serum, but also corresponding differences. Further studies showed that there were also differences in the metabolic process of transitional components between the two conditions. In normal rats, most of the metabolic types of transitional components were phase I reactions. In COPD model rats, phase Ⅰ reactions decreased and phase Ⅱ reactions increased correspondingly. With UPLC-Q-TOF-MS technology, the differences of transitional components and the metabolism process of HTJQ in rats under normal physiological and pathological conditions were analyzed. The results showed that types of transitional components and the activity of some metabolic enzymes would be changed in COPD pathological state, which would affect the metabolic process of bioactive components in vivo. It laid a foundation for further elucidating the metabolic process and pharmacodynamic substance basis of HTJQ.

UPLC-Q-TOF/MS analysis on transitional constituents of before and after combination Psoralea corylifolia-Myristica fragrans absorbed into plasma / 中草药

Objective To analyze and identify the transitional constituents of combination Psoralea corylifolia-Myristica fragrans in vivo and in vitro, and further study the effect of this combination on transitional components. Methods A rapid ultra-performance liquid chromatography/orthogonal acceleration time-of-flight mass spectrometry (UPLC-Q-TOF/MS) method was established to rapidly analyze constituents of before and after combination P. corylifolia-M. fragrans after oral administration in rats, and combined with Peakview software analysis. Results Compared with in vitro extract of P. corylifolia, there are 15 prototypes absorbed into the blood. Compared with in vitro combination P. corylifolia-M. fragrans extract, 26 prototype components were absorbed into the blood. Compared with M. fragrans extract, six prototype components were absorbed into the blood. Conclusion By using UPLC-Q-TOF/MS method, the main chemical constituents from the combination can be rapidly and accurately identified, and the results would facilitate the quality control of combination P. corylifolia-M. fragrans for safe and efficient use.

Studies on plasma fingerprint of Danggui Shaoyao Powder by UPLC-UV / 中草药

Objective To establish the plasma fingerprint of Danggui Shaoyao Powder (DSP) for the analysis of the transitional components in rat plasma after administration of DSP extracts Methods Eleven batches of rat plasma were prepared after oral administration and the plasma fingerprint was established by UPLC-UV. The transitional components in rat plasma after administration of DSP extracts was analyzed by UPLC-Q/TOF-MS. Results The plasma fingerprints of common peaks for 11 batches of DSP were established to ascertain the optimized blood collection time, and the method was used to process the plasma. Fifteen common peaks were detected in plasma fingerprint, and the similarity were both higher than 0.933. The methodology of plasma pharmacochemistry was adopted to analyze the common peaks, and 15 transitional components, including 10 prototype components and five metabolites were identified. Conclusion The established plasma fingerprint of DSP provide the basis for the further study of transitional components.