The aim of the study was to identify main metabolites of benzylisoquinoline alkaloids from Nelumbinis Plumula after biotransformation by Caco-2 cells.Caco-2 cells were seeded to a 6-well plate and cultured for a perio...The aim of the study was to identify main metabolites of benzylisoquinoline alkaloids from Nelumbinis Plumula after biotransformation by Caco-2 cells.Caco-2 cells were seeded to a 6-well plate and cultured for a period of time until 80%of each well was filled with cells.Then,cell medium was replaced and the norcoclaurine,liensinine,isoliensinine and neferine were respectively added to展开更多
The performance of adsorption and separation for liensinine, isoliensinine and neferine was studied by double-column adsorption chromatography using macroporous adsorption and cation exchange resins. The alkaloid extr...The performance of adsorption and separation for liensinine, isoliensinine and neferine was studied by double-column adsorption chromatography using macroporous adsorption and cation exchange resins. The alkaloid extract with 49.2% total contents by mass representing 10.6% liensinine, 10.6% isoliensinine and 28.0% neferine respectively was prepared by D72 cation exchange resins, in which most of the impurities were water-soluble alkaloids. Furthermore,the alkaloid extract with 82.6% total contents by mass containing 33.1%, 15.0% and 34.5% of the three adsorbates respectively was prepared by double-column adsorption chromatography using AKS-W macroporous adsorption and D72 cation exchange resins. As a result, the content of single and total alkaloids has been greatly increased by the double-column adsorption chromatography.展开更多
文摘The aim of the study was to identify main metabolites of benzylisoquinoline alkaloids from Nelumbinis Plumula after biotransformation by Caco-2 cells.Caco-2 cells were seeded to a 6-well plate and cultured for a period of time until 80%of each well was filled with cells.Then,cell medium was replaced and the norcoclaurine,liensinine,isoliensinine and neferine were respectively added to
基金The Educational Bureau of Hebei Province (Grant No.2007317)Scientific Foundation of Langfang Normal College (Grant No.LS200513)Nankai University Innovation Fund
文摘The performance of adsorption and separation for liensinine, isoliensinine and neferine was studied by double-column adsorption chromatography using macroporous adsorption and cation exchange resins. The alkaloid extract with 49.2% total contents by mass representing 10.6% liensinine, 10.6% isoliensinine and 28.0% neferine respectively was prepared by D72 cation exchange resins, in which most of the impurities were water-soluble alkaloids. Furthermore,the alkaloid extract with 82.6% total contents by mass containing 33.1%, 15.0% and 34.5% of the three adsorbates respectively was prepared by double-column adsorption chromatography using AKS-W macroporous adsorption and D72 cation exchange resins. As a result, the content of single and total alkaloids has been greatly increased by the double-column adsorption chromatography.
