OBJECTIVETo study the distribution and dynamic change of coumarins in the leaf and root of Dendrobium thyrsiflorum at different developmental stages, and provide an experimental evidence for utilizing the medicinal plant.

METHODThe leaf and root materials were collected at vegetative and reproductive stage. By applying laser scanning confocal microscopy, relative quantity of coumarins of each sample was observed and analyzed.

RESULTCoumarins located in D. thyrsiflorum leaf except fibers in vascular bundles which were close to the upper or lower epidermis. Coumarins were found in D. thyrsiflorum root structure at different developmental stages and walls of cells within cortex were especial appropriate places for the components distribution. Relative quantity of coumarins was changed obviously when plant was growing. The components reached the highest level during profuse flowering period whereas there were less coumarins at vegetative period and little during initial fruit period.

CONCLUSIONIn order to utilize D. thyrsiflorum reasonably and thoroughly, coumarins should be extracted from the plant leaf and root.

Coumarins ; metabolism ; Dendrobium ; growth & development ; metabolism ; Microscopy, Confocal ; Plant Leaves ; metabolism ; Plant Roots ; metabolism ; Time Factors

Natural coumarins have strong pharmacological activities. In this paper, the absorption and metabolism of natural coumarins were introduced by analyzing and summarizing the related literature in recent years. The research of absorption and metabolism will be propitious to further understand their pharmacological mechanism and provide basis for developing new drugs of coumarins.
Absorption ; Animals ; Coumarins ; metabolism ; pharmacokinetics ; Drugs, Chinese Herbal ; metabolism ; pharmacokinetics ; Humans

AIMTo investigate the effects of fungal elicitors on inophyllums production in suspension cultured cell of Calophyllum inophyllum Linn.

METHODSThe pathogen of leaf spot disease of C. inophyllum L. was isolated and prepared as fungal elicitor. The fungal elicitor was added to the medium with different concentrations and culture period. Their effects on biomass and inophyllums content of the suspension of cultured cells were studied.

RESULTSThe optimum effects of S-I fungal elicitor concentrations on inophyllums content was 60 mg GE x L(-1). Adding the fungi elicitor into the cell suspension culture system at stationary phase (being cultured for 18 days) resulted in a highest inophyllum content of 59.174 mg x L(-1) at the 3rd day with 27% higher than control. Fungal elicitor treatment promoted the inophyllums accumulation in medium.

CONCLUSIONAdding the Stagonospora curtisii (Berk.) Sacc. to the medium was effective approaches to enhance inophyllums yield in the suspension of C. inophyllum L culture cell.

Calophyllum ; cytology ; metabolism ; Cell Division ; Cells, Cultured ; Coumarins ; metabolism ; Culture Media ; Mitosporic Fungi ; physiology

OBJECTIVETo investigate the influence of 2,3-dihydrocyclopenta coumarins to the growth of transgenic hairy root of Polygonum multiflorum and the accumulation of active ingredient stilbene glucoside in the culture.

METHODIn different culture time, 2,3-dihydrocyclopenta coumarin compounds were administrated to the hairy roots. The yield of stilbene glucoside and the growth of the hairy roots were determined after some period of co-culture. Through the investigation of the different concentrations of the 2,3-dihydrocyclopentacoumarin, and sub-culture times, the optimal experimental conditions were established.

RESULTThe optimal administration time of the 2,3-dihydrocyclopentacoumarin was on the fourth day, the optimal concentration of 2,3-dihydrocyclopentacoumarin was 0.025 g x L(-1). Under this condition, the growth of the hairy root greatly increased. Comparing with control group, the accumulation of stilbene glucoside was increased about four times.

CONCLUSION2, 3-dihydrocyclopentacoumarins could promote the hairy hair root growth and stimulate the stilbene glucoside accumulation.

Coumarins ; pharmacology ; Glucosides ; metabolism ; Plant Roots ; drug effects ; growth & development ; metabolism ; Polygonum ; drug effects ; growth & development ; metabolism ; Stilbenes ; metabolism

This study aims to investigate metabolic activities of psoralidin in human liver microsomes( HLM) and intestinal microsomes( HIM),and to identify cytochrome P450 enzymes( CYPs) and UDP-glucuronosyl transferases( UGTs) involved in psoralidin metabolism as well as species differences in the in vitro metabolism of psoralen. First,after incubation serial of psoralidin solutions with nicotinamide adenine dinucleotide phosphate( NADPH) or uridine 5'-diphosphate-glucuronic acid( UDPGA)-supplemented HLM or HIM,two oxidic products( M1 and M2) and two conjugated glucuronides( G1 and G2) were produced in HLM-mediated incubation system,while only M1 and G1 were detected in HIM-supplemented system. The CLintfor M1 in HLM and HIM were 104. 3,and57. 6 μL·min~(-1)·mg~(-1),respectively,while those for G1 were 543. 3,and 75. 9 μL·min~(-1)·mg~(-1),respectively. Furthermore,reaction phenotyping was performed to identify the main contributors to psoralidin metabolism after incubation of psoralidin with NADPH-supplemented twelve CYP isozymes( or UDPGA-supplemented twelve UGT enzymes),respectively. The results showed that CYP1 A1( 39. 5 μL·min~(-1)·mg~(-1)),CYP2 C8( 88. 0 μL·min~(-1)·mg~(-1)),CYP2 C19( 166. 7 μL·min~(-1)·mg~(-1)),and CYP2 D6( 9. 1 μL·min~(-1)·mg~(-1)) were identified as the main CYP isoforms for M1,whereas CYP2 C19( 42. 0 μL·min~(-1)·mg~(-1)) participated more in producing M2. In addition,UGT1 A1( 1 184. 4 μL·min~(-1)·mg~(-1)),UGT1 A7( 922. 8 μL·min~(-1)·mg~(-1)),UGT1 A8( 133. 0 μL·min~(-1)·mg~(-1)),UGT1 A9( 348. 6 μL·min~(-1)·mg~(-1)) and UGT2 B7( 118. 7 μL·min~(-1)·mg~(-1)) played important roles in the generation of G1,while UGT1 A9( 111. 3 μL·min~(-1)·mg~(-1)) was regarded as the key UGT isozyme for G2. Moreover,different concentrations of psoralidin were incubated with monkey liver microsomes( MkLM),rat liver microsomes( RLM),mice liver microsomes( MLM),dog liver microsomes( DLM) and mini-pig liver microsomes( MpLM),respectively. The obtained CLintwere used to evaluate the species differences.Phase Ⅰ metabolism and glucuronidation of psoralidinby liver microsomes showed significant species differences. In general,psoralidin underwent efficient hepatic and intestinal metabolisms. CYP1 A1,CYP2 C8,CYP2 C19,CYP2 D6 and UGT1 A1,UGT1 A7,UGT1 A8,UGT1 A9,UGT2 B7 were identified as the main contributors responsible for phase Ⅰ metabolism and glucuronidation,respectively. Rat and mini-pig were considered as the appropriate model animals to investigate phase Ⅰ metabolism and glucuronidation,respectively.
Animals ; Benzofurans ; Coumarins ; Dogs ; Glucuronides ; Glucuronosyltransferase/metabolism* ; Kinetics ; Mice ; Microsomes, Liver/metabolism* ; Phenotype ; Rats ; Species Specificity ; Swine ; Swine, Miniature/metabolism*

Scopolin (SC-1), scopoletin (SC-2) and isofraxidin (IS-1) are the main active constituents in Chimonanthi Radix. However, the in vivo metabolism of SC-1, SC-2 and IS-1 have not been comprehensively clarified. In this study, the in vivo metabolic profiles of these three coumarins in the rat plasma, urine and feces were analyzed. Ultra-high performance liquid chromatography-quadrupole time of flight mass spectrometry (UHPLC-QTOF-MS/MS) method was applied to characterize the prototypes and metabolites of SC-1, SC-2 and IS-1 in rat feces, urine, and plasma after intravenous administration. A total of 11 metabolites of the three parent compounds were tentatively identified. The main metabolic pathways were analyzed by identification of metabolites, and it was found that these three coumarins underwent multiple in vivo metabolic reactions including glucuronidation, sulfonation, isomerism and reduction. In this study, the analysis of metabolites of three coumarins basically demonstrated their in vivo metabolic process, providing basis for the further pharmacokinetics and pharmacological evaluations of SC-1, SC-2 and IS-1.
Animals ; Calycanthaceae ; chemistry ; Chromatography, High Pressure Liquid ; Coumarins ; metabolism ; pharmacokinetics ; Drugs, Chinese Herbal ; metabolism ; pharmacokinetics ; Rats ; Tandem Mass Spectrometry

By a orthogonal experiment, the influence of different ratio of phosphorus and potassium fertilizers on imperatorin, isoimperatorin and psoralen contents and yield of Glehnia littoralis were studied. The results showed that root dry weight and the yield of G. littoralis increased when reasonably applied phosphorus fertilizer combined with potassium fertilizer within a certain range. And the influence of phosphorus fertilizer was greater than that of potassium fertilizer. The optimal value of root dry weight and yield achieved at both P2O5 360 kg x hm(-2), K2O 270 kg x hm(-2) and P2O5 360 kg x hm(-2), K2O 180 kg x hm(-2). The effects of different phosphorus and potassium treatments on the content of imperatorin, isoimperatorin and psoralen in G. littoralis were determined, which shows that the content increased with the moderate increase of phosphorus and potassium. And the effects of phosphorus fertilizer were more significantly. The isoimperatorin content achieved the largest value at P2O5 360 kg x hm(-2), K2O 270 kg x hm(-2), also a larger content of imperatorin and psoralen. The imperatorin content is the largest when applied P2O5 360 kg x hm(-2), K2O 180 kg x hm(-2), and the isoimperatorin content was higher as well. So that the treatment of P2O5 360 kg x hm(-2), K2O 180 kg x hm(-2) are suitable for promote to the agricultural production, which could improve the quality and yield of G. littoralis.
Agriculture ; Apiaceae ; chemistry ; growth & development ; metabolism ; Coumarins ; analysis ; metabolism ; Drugs, Chinese Herbal ; analysis ; metabolism ; Fertilizers ; analysis ; Phosphorus ; analysis ; metabolism ; Potassium ; analysis ; metabolism

OBJECTIVETo study the dynamic accumulation regulation of dry substance and four coumarin constituents in root of Peucedanum praeruptorum, so to provide the basis for optimal harvest time.

METHODRoots of P. praeruptorum were collected periodically. The dry weight of the roots was measured and the content of four coumarins was determined by HPLC method.

RESULTThe dry substance accumulation of the root reached the maximum amount and the coumarin contents maintain stability at the end of the vegetative growth period. The coumarins of roots decline significantly in the reproductive growth period.

CONCLUSIONThe most optimum collecting time of root of P. praeruptorum cultivated in Ningguo county in Anhui province should be from December to next February.

Apiaceae ; chemistry ; growth & development ; metabolism ; Chromatography, High Pressure Liquid ; Coumarins ; analysis ; metabolism ; Plant Extracts ; analysis ; metabolism ; Plant Roots ; chemistry ; growth & development ; metabolism

OBJECTIVETo modify the structure of psoralidin using in vitro enzymatic glycosylation to improve its water solubility and stability.

METHODSA new psoralidin glucoside (1) was obtained by enzymatic glycosylation using a UDP- glycosyltransferase. The chemical structure of compound 1 was elucidated by HR-ESI-MS and nuclear magnetic resonance (NMR) analysis. The high-performance liquid chromatography (HPLC) peaks were integrated and sample solution concentrations were calculated. MTT assay was used to detect the cytotoxicity of the compounds against 3 cancer cell lines in vitro. Results Based on the spectroscopic data, the new psoralidin glucoside was identified as psoralidin-6',7-di-O-β-D- glucopyranoside (1), whose water solubility was 32.6-fold higher than that of the substrate. Analyses of pH and temperature stability demonstrated that compound 1 was more stable than psoralidin at pH 8.8 and at high temperatures. Only psoralidin exhibited a moderate cytotoxicity against 3 human cancer cell lines. Conclusion In vitro enzymatic glycosylation is a powerful approach for structural modification and improving water solubility and stability of compounds.

Antineoplastic Agents ; metabolism ; Benzofurans ; metabolism ; Cell Line, Tumor ; Chromatography, High Pressure Liquid ; Coumarins ; metabolism ; Glucosides ; biosynthesis ; Glycosylation ; Glycosyltransferases ; metabolism ; Humans ; Magnetic Resonance Spectroscopy ; Solubility

OBJECTIVE: To investigate the effect of osthole on epidermal growth factor receptor tyrosine kinase (EGFR-TPK), matrix-metalloproteinase-2 (MMP-2), aminopeptidase N (APN) in bladder cancer cell and the underlying mechanism.
 METHODS: The T24 cell lines were cultured. The inhibitory effects of osthole on EGFR-TPK, APN and MMP-2 were evaluated by spectrophotometric and MTT assay. The caspase-3 activity and the expression COX-2 and VEGF in T24 were examined. The activity of NF-κB was determined by electrophoretic mobility shift assay.
 RESULTS: The half inhibition concentrations (IC50) of osthole on EGFR-TPK, APN and MMP-2 were (45.33±3.98), (28.21±3.23) and (8.11±0.54) µmol/L, respectively. The growth inhibitory rates for T24 cells were increased in a dose-dependent manner (P<0.05). The caspase-3 activities were significantly increased in T24 cells in the osthole group compared with control group, while the expression of angiogenesis related-protein COX-2, VEGF, and NF-κB in T24 cells were decreased.
 CONCLUSION Through the inhibitory effect on EGFR-TPK, APN and MMP-2, osthole can decrease COX-2, VEGF and NF-κB expression while increase the activity of caspase-3, eventually blocking the growth and invasion of bladder cancer cell.
CD13 Antigens ; metabolism ; Caspase 3 ; metabolism ; Cell Line, Tumor ; drug effects ; Coumarins ; pharmacology ; Cyclooxygenase 2 ; metabolism ; ErbB Receptors ; metabolism ; Humans ; Matrix Metalloproteinase 2 ; metabolism ; NF-kappa B ; metabolism ; Urinary Bladder Neoplasms ; metabolism ; pathology ; Vascular Endothelial Growth Factor A ; metabolism