الملخص
OBJECTIVE To analyze the chemical components that were the absorbed in blood and liver tissue of rats after intragastric administration of aqueous extract from Abrus cantoniensis, and to speculate its possible metabolic pathways, providing reference for basic analysis of pharmacological substance in A. cantoniensis. METHODS Male SD rats were randomly divided into A. cantoniensis group (0.63 g/kg, calculated by crude drug) and blank group; they were given relevant drug solution/ultrapure water intragastrically. After a single dose, plasma and liver samples of rats in each group were collected. UPLC-Q-TOF/MS technology was used to identify chemical components that were absorbed in the blood and liver tissue of rats. RESULTS Totally, 30 chemical constituents were identified from the water extracts of A. cantoniensis, including alkaloids, flavonoids, organic acids, iridoids (such as L-abrine, schaftoside, isoshaftoside). Ten prototype components and nine metabolites (such as decarboxylation and sulfation metabolites of protocatechuic acid, reduced sulfated metabolites of p-hydroxybenzoic acid) were identified from plasma samples; six prototype components and five metabolites (such as sulfated metabolites of p-hydroxybenzoic acid, decarboxylation and sulfation metabolites of p-hydroxybenzoic acid) were identified from liver samples. The main metabolic pathways included hydroxylation, demethylation, methylation, sulfation, glucuronidation, etc. CONCLUSIONS Alkaloids, flavonoids and organic acids are the main components of the aqueous extract from A. cantoniensis that are absorbed into the blood and liver, their metabolism mainly involves hydroxylation,demethylation, and sulfation.
الملخص
OBJECTI VE To optimize the extraction technology of the leaves of Dimocarpus longan according to flavonoids and phenolic acids. METHODS The contents of gallic acid ,protocatechuic acid ,ethyl gallate ,quercetin,luteolin and kaempferol in the leaves of D. longan were determined by HPLC. Based on single factor test ,with the ethanol volume fraction ,solid-liquid ratio and extraction time as factors ,using comprehensive scores of the contents of above six components as indexes ,the extraction technology of the leaves of D. longan was optimized by Box-Behnken response surface methodology. RESULTS The optimal extraction technology included ethanol volume fraction of 100%,solid-liquid ratio of l ∶ 7(g/mL),extraction time of 90 min, extraction temperature of 80 ℃. After 3 times of validation tests ,the average comprehensive score was 97.54(RSD=0.33%,n= 3),relative error of which with predicted score (99.05)was 1.55%. CONCLUSIONS Box-Behnken response surface methodology combined with multi-index comprehensive score can be used for the extraction technology of the leaves of D. longan ,and the optimized extraction technology is stable and feasible.