[Contributions of flavonoids from citri reticulatae pericarpium to gastric hormones, CD3~+ and TFF3 mRNA expression in rats with spleen deficiency intervened by Liujunzi Decoction].

The present study established the spectrum-effect relationship model of flavonoids in Citri Reticulatae Pericarpium(CRP) from 15 batches of Liujunzi Decoction and statistically analyzed the correlation between chemical peaks and efficacy to identify the main effective components. HPLC fingerprints of flavonoids in CRP from 15 batches of Liujunzi Decoction were established. HPLC analysis was carried out on the Venusil XBP C_(18)(L) column(4.6 mm×250 mm, 5 µm) at 30 ℃ with acetonitrile-water(containing 0.1% formic acid) as mobile phase for gradient elution, a flow rate of 1.0 mL·min~(-1), and detection wavelength of 300 nm to obtain chemical fingerprints. Additionally, the effects of flavonoids from CRP in 15 batches of Liujunzi Decoction on the content of GAS, MTL, and VIP, TFF3 mRNA expression, and percentage of CD3~+ T-cells of model rats with spleen deficiency were determined. The spectrum-effect relationship model was established by gray correlation analysis. The results showed that the main characteristic peaks with great contribution to the regulation of gastrointestinal tract were peak 16(vicenin-2), peak 63(sinensetin), peak 64(isosinensetin), peak 65(nobiletin), peak 67(3,5,6,7,8,3',4'-heptemthoxyflavone), peak 68(tangeretin), and peak 69(5-desmethylnobiletin). Therefore, there was a linear correlation between flavonoids from CRP in Liujunzi Decoction and the efficacy, and the medicinal effect was achieved by multi-component action. This study is expected to provide a new idea for exploring the material basis of the effect, i.e., regulating qi prior to replenishing qi, of CRP in Liujunzi Decoction.

Tumor-targeted hyaluronic acid-mPEG modified nanostructured lipid carriers for cantharidin delivery: An in vivo and in vitro study.

AIM: Cantharidin (CTD), the major component of the anti-cancer medicine obtained from Mylabris cichorii, exerts good inhibitory effects on several cancers, such as liver and breast cancer. However, owing to its toxicity, its oral administration can cause various adverse effects, limiting its clinical applications. Therefore, the development of a novel nano-drug delivery system for CTD would be highly beneficial. METHODS: A nanostructured lipid carrier (NLC) was designed to actively target CTD to tumor cells using a hyaluronic acid (HA)-decorated copolymer (mPEG-NH2); the NLCs were called HA-mPEG-CTD-NLC. HA-mPEG was synthesized using amidation, and HA-mPEG-CTD-NLC was generated through ultrasonic emulsification in water. The mean hydrodynamic diameter of the particles was approximately 119.3 nm. RESULTS: Pharmacokinetic studies revealed that the half-life of HA-mPEG-CTD-NLC and its area under the curve were higher than those of a CTD solution. Further, the plasma clearance rate of HA-mPEG-CTD-NLC was 0.41 times that of the CTD solution, implying a significantly prolonged drug retention time in vivo. Fluorescence in vivo endo-microscopy and optical in vivo imaging revealed that HA-mPEG-CTD-NLC had superior cytotoxicity and targeting efficacy against SMMC-7721 cells. An evaluation of the in vivo anti-tumor activity showed that HA-mPEG-CTD-NLC significantly inhibited tumor growth and prolonged survival in tumor-bearing mice, with a tumor inhibition rate of 65.96%. CONCLUSIONS: Our results indicate that HA-mPEG-CTD-NLC may have great potential in liver cancer-targeted therapy.

Hyaluronic acid-coated nanostructured lipid carriers for loading multiple traditional Chinese medicine components for liver cancer treatment.

This study aimed to develop hyaluronic acid (HA)-coated nanostructured lipid carriers (NLC) loaded simultaneously with oleanolic acid (OA), ursolic acid (UA) and Ginsenoside Rg3 (Rg3), prepared by electrostatic attraction for delivering OA, UA and Rg3 (OUR), termed HA-OUR-NLC, to tumors over expressing cluster determinant 44(CD44). The dialysis method was used to assess the in vitro release of OUR. Parameters such as pharmacokinetics, biodistribution, fluorescence in vivo endo-microscopy (FIVE), optical in vivo imaging (OIVI) data, and in vivo antitumor effects were evaluated. The results showed a total drug loading rate of 8.76±0.95% for the optimized HA-OUR-NLC; total encapsulation efficiency was 45.67±1.14%; particle size was 165.15±3.84%; polydispersity index was 0.227±0.01; zeta potential was -22.87±0.97 mV. Drug release followed the Higuchi kinetics. Pharmacokinetics and tissue distribution, as well as antitumor effects were evaluated in nude mice in vivo. HA-OUR-NLC were better tolerated, with increased antitumor activity compared with 5-Fu. In in vivo optical imaging, we use 1,1'-dioctadecyl-3,3,3',3'-tetramethy(DiR) as a fluorescent dye to label the NLC. The DiR-OUR-NLC group showed bright systemic signals, while the tumor site was weak. The present findings indicated that HA-OUR-NLC accumulated in the tumor site, prolonging OUR duration in the circulation and enhancing tumoral concentrations. Therefore, NLC prepared by electrostatic attraction constitute a good system for delivering OUR to tumors.