In the present study, a risperidone loaded microsphere/sucrose acetate isobutyrate (SAIB) in situ forming complex depot was designed to reduce the burst release of SAIB in situ forming depot and to continuously release risperidone for a long-term period without lagime. The model drug risperidone (Ris) was first encapsulated into microspheres and then the Ris-microspheres were embedded into SAIB depot to reduce the amount of dissolved drug in the depot. The effects of different types of microsphere matrix, including chitosan and poly(lactide-coglycolide) (PLGA), matrix/Ris ratios in microspheres and morphology of microspheres on the drug release behavior of complex depot were investigated. In comparison with the Ris-loaded SAIB depot (Ris-SAIB), the complex depot containing chitosan microspheres (in which chitosan/Ris = 1 : 1, w/w) (Ris-Cm-SAIB) decreased the burst release from 12.16% to 5.80%. However, increased drug release rate after 4 days was observed in Ris-Cm-SAIB, which was caused by the high penetration of the medium to Ris-Cm-SAIB due to the hydrophilie of chitosan. By encapsulation of risperidone in PLGA microspheres, most drugs can be prevented from dissolving in the depot and meanwhile the hydrophobic PLGA can reduce the media penetration effect on the depot. The complex depot containing PLGA microspheres (in which PLGA/ drug=4 : 2, w/w) (Ris-Pm-SAIB) showed a significant effectiveness on reducing the burst release both in vitro and in vivo whereby only 0.64% drug was released on the first day in vitro and a low AUC0-4d value [(105.2± 24.4) ng.mL-1.d] was detected over the first 4 days in vivo. In addition, drug release from Ris-Pm-SAIB can be modified by varying the morphology of microspheres. The porous PLGA microspheres could be prepared by adding medium chain triglyceride (MCT) in the organic phase which served as pore agents during the preparation of PLGA microspheres. The complex depot containing porous PLGA microspheres (which were prepared by co-encapsulation of 20% MCT) (Ris-PPm-SAIB) exhibited a slightly increased AUC0-4d of (194.6±15.8) ng.mL-1d and high plasma concentration levels from 4 to 78 days [Cs(4-78d)=(7.8±1.2) ng.mL-1]. The plasma concentration on 78 day C78d was (9.0 2.5) ng.mL-1 which was higher than that of Ris-Pm-SAIB [C78d= (1.6 ± 0.6) ng.mL-1]. In comparison with Ris-Pm-SAIB, the AUC4-78d of Ris-PPm-SAIB increased from (379.0±114.3) ng.mL-1.d to (465.0 ±149.2) ng.mL-1.d, indicating sufficient drug release from the Ris-PPm-SAIB. These results demonstrate that the risperidone loaded porous PLGA microsphere/SAIB in situ forming complex depot could not only efficiently reduce the burst release of SAIB depot both in vitro and in vivo, but also release the drug sufficiently in vivo, and be capable to continuously release the drug for 78 days.
Chitosan ; Drug Carriers ; Lactic Acid ; Microspheres ; Polyglycolic Acid ; Risperidone ; chemistry ; Sucrose ; analogs & derivatives ; Technology, Pharmaceutical

OBJECTIVETo study the chemical constituents of Polygala tenuifolia.

METHODIsolations were performed on various chromatography columns and structure elucidations were aided by spectral data and chemical property analyses.

RESULTFour compounds were isolated from the roots of P. tenuifolia. Their structures were identified as sibiricose A5 (1), sibiricose A6 (2), tenuifoliside A (3) and 3',6-disinapoyl sucrose (4).

CONCLUSIONCompounds 1 and 2 were isolated from this plant for the first time.

Plant Roots ; chemistry ; Plants, Medicinal ; chemistry ; Polygala ; chemistry ; Sucrose ; analogs & derivatives ; chemistry ; isolation & purification

AIMTo study the constituents of the root of Gypsophila oldhamiana Miq.

METHODSSilica gel column chromatographic technique was used for the isolation and purification of compounds. The structures were elucidated on the basis of spectral data and chemical evidences.

RESULTSFive compounds were obtained and identified as the beta-D-glucoside of alpha-spinasterol (I), tetracosyl caffeate (II), sucrose (III), beta-sitosterol (IV) and daucosterol (V).

CONCLUSIONCompound II is a new compound. Compound I was isolated from this plant for the first time.

Caffeic Acids ; chemistry ; isolation & purification ; Caryophyllaceae ; chemistry ; Molecular Conformation ; Molecular Structure ; Plant Roots ; chemistry ; Plants, Medicinal ; chemistry ; Stigmasterol ; analogs & derivatives ; chemistry ; isolation & purification ; Sucrose ; chemistry ; isolation & purification

The effects of the variables, including the concentrations of glucose, sucrose, corn steep liquor (CSL) and peptone, and the conditions of fed-batch culture, on CoQ10 fermentation by Rhizobium radiobacter WSH2601 were assessed. The results showed that the optimum concentrations of glucose, sucrose, CSL and peptone were 30 g/L, 40 g/L, 11 g/L and 16 g/L respectively. Addition of CSL and tomato juice stimulated the cell growth. CSL, L-methionine and isopentyl alcohol efficiently increased the biosynthesis of CoQ10. In a 7L fermentor, the fed-batch culture improved both cell growth and CoQ10 production compared to a batch culture; and suitable mixed feeding of CSL and sucrose enhanced CoQ10 yield to 52.4 mg/L. The DCW reached 26.4 g/L, an increase of 53% in comparison to that without feeding, and an increase of 24% to that feeding with sucrose only. The C/B value reached 2.38 mg/g(DCW), representing an increase of 33% to that of without feeding, and an increase of 26% to that of feeding with sucrose only.
Agrobacterium tumefaciens ; growth & development ; metabolism ; Culture Media ; metabolism ; Fermentation ; physiology ; Glucose ; metabolism ; Industrial Microbiology ; methods ; Sucrose ; metabolism ; Ubiquinone ; analogs & derivatives ; biosynthesis

Polygala hongkongensis Polycalaceae is mostly distributed in southern China, such as Guangdong, Jiangxi, Fujian and Sichuan provinces. And its herbs is used as a remedy of heat-clearing and detoxicating, removing food retention, promoting blood flow and expelling phlegm to arrest coughing in the folk medicine. Previous phytochemical investigations on Polygala plants have reported that the main chemical constituents are sapaonins, xanthones and oligosaccharide esters. To the best of our knowledge, there is no chemical report on the Polygala hongkongensis Hemsl. yet. In order to search and make use of natural resources from Polygala and to find the bioactive compounds and new compounds, we carried out studies on chemical constituents of this plant. The herbs of P. hongkongensis were extracted with 70% MeOH. The extract was combined and evaporated in vacuum to residue, which was suspended in water and successively partitioned with EtOAc and n-BuOH. Part of the n-BuOH extract was isolated and purified by various column chromatographs such as a macroporous resin, silica gel, Sephadex LH-20 column and semipreparative HPLC. The structures of isolated and purified compounds were determined by spectral analysis such as UV, IR, HRESI-MS, ESI-MS, 1H NMR, 13C NMR, HMQC, HMBC, H-H COSY, NOESY and physico-chemical property. Six compounds were identified as polyhongkonggaline (1), 3, 6'-di-O-sinapoyl-sucrose (2), tenuifoliside A (3), glomeratose D (4), cis-syringin (5), syringaresinol-4'-O-beta-D-monoglucoside (6). Compounds 1 is new compound, and 2-6 were isolated from this plant for the first time. Farther studies on the chemical constituents and pharmacological activities of P. hongkongensis will be carried out.
Chromatography, High Pressure Liquid ; Glucosides ; chemistry ; isolation & purification ; Molecular Structure ; Phenylpropionates ; chemistry ; isolation & purification ; Plants, Medicinal ; chemistry ; Polygala ; chemistry ; Pyrrolidines ; chemistry ; isolation & purification ; Sucrose ; analogs & derivatives ; chemistry ; isolation & purification

To study the rheological properties of sucrose acetate isobutyrate (SAIB) in situ gel and the influencing factors. Measurements of shear stress and viscosity were carried out at different shear rate. The rheological properties of SAIB solution were similar to those of Newtonian fluid. The factors such as the type of solvent, concentration, additive, drug and temperature had effect on the rheological properties. Ethanol was a suitable solvent compared with ethyl lactate and N-methylpyrrolidone (NMP). The solution viscosity of SAIB was reduced from 1.29 to 0.11 Pa x s with only increasing the content of ethanol from 10% to 20%. Polylactic acid (PLA) and risperidone could increase the intermolecular force and viscosity. However, adding 10% (w/w) PLA, the initial release of risperidone was reduced from 20.2% to 3.5%. The solution viscosity reduced significantly by stepping up the temperature. The results obtained support the using of SAIB is satisfactorily injectable in situ gel formulation.
Antipsychotic Agents ; administration & dosage ; Delayed-Action Preparations ; Drug Carriers ; Ethanol ; Lactates ; Lactic Acid ; Polyesters ; Polymers ; Pyrrolidinones ; Rheology ; Risperidone ; administration & dosage ; Solvents ; Sucrose ; administration & dosage ; analogs & derivatives ; chemistry ; Temperature ; Viscosity

OBJECTIVETo study the active constituents of Dendrobium aphyllum.

METHODVarious chromatographic techniques were used to isolate and purify the constituents, their physico-chemical properties and spectral data are determinated to elucidate the structure.

RESULTEight compounds were isolated and identified as: 4'-methoxyl-tricin (1), tricin (2), 7, 3', 5'-tri-O-methyl-tricetin (3), syringic acid (4), ( + )-syring-aresinol (5), D-allitol (6), sucrose (7), icariside D2 (8).

CONCLUSIONCompounds 1-3, 6-8 were isolated from genus Dendrobium for the first time, additionally, the others were obtained firstly from the plant.

Dendrobium ; chemistry ; Drugs, Chinese Herbal ; chemistry ; Flavonoids ; chemistry ; Furans ; chemistry ; Gallic Acid ; analogs & derivatives ; chemistry ; Glucosides ; chemistry ; Lignans ; chemistry ; Magnetic Resonance Spectroscopy ; Plant Stems ; chemistry ; Sucrose ; chemistry ; Sugar Alcohols ; chemistry

BACKGROUND/AIMS: This animal study aimed to define the underlying cellular mechanisms of intestinal barrier dysfunction. METHODS: Rats were fed 4% with dextran sodium sulfate (DSS) to induce experimental colitis. We analyzed the sugars in 24-hour urine output by high pressure liquid chromatography. The expression of claudins, mannan-binding lectin (MBL), and MBL-associated serine proteases 2 (MASP-2) were detected in the colonic mucosa by immunohistochemistry; and apoptotic cells in the colonic epithelium were detected by the terminal deoxynucleotidyl transferase-mediated deoxyuridine triphosphate nick-end labeling method assay. RESULTS: The lactulose and sucralose excretion levels in the urine of rats with DSS-induced colitis were significantly higher than those in the control rats. Mannitol excretion was lower and lactulose/mannitol ratios and sucralose/mannitol ratios were significantly increased compared with those in the control group (p<0.05). Compared with the controls, the expression of sealing claudins (claudin 3, claudin 5, and claudin 8) was significantly decreased, but that of claudin 1 was increased. The expression of pore-forming claudin 2 was upregulated and claudin 7 was downregulated in DSS-induced colitis. The epithelial apoptotic ratio was 2.8%+/-1.2% in controls and was significantly increased to 7.2%+/-1.2% in DSS-induced colitis. The expression of MBL and MASP-2 in the intestinal mucosa showed intense staining in controls, whereas there was weak staining in the rats with colitis. CONCLUSIONS: There was increased intestinal permeability in DSS-induced colitis. Changes in the expression and distribution of claudins, increased epithelial apoptosis, and the MASP-2-induced immune response impaired the intestinal epithelium and contributed to high intestinal permeability.
Animals ; Apoptosis/*physiology ; Claudins/*metabolism ; Colitis/chemically induced/immunology/*physiopathology ; Colon/immunology/physiopathology ; Dextran Sulfate ; Intestinal Mucosa/*physiopathology ; Lactulose/metabolism ; Mannitol/metabolism ; Mannose-Binding Lectin/*immunology ; Permeability ; Rats ; Rats, Sprague-Dawley ; Sucrose/analogs & derivatives/metabolism ; Up-Regulation