[Application of traditional Chinese medicine theory in modern traditional Chinese medicine nano-preparation: taking tumor treatment as an example].

With Zang-Fu organs, meridians, Qi and blood, and body fluid as the physiological and pathological basis, traditional Chinese medicine(TCM) theory is guided by the holistic concept and characterized by syndrome differentiation. It has made significant contributions to human health maintenance and disease prevention. Modern TCM preparation is developed on the basis of inheriting and developing TCM preparations using modern science and technology under the guidance of TCM theory. At present, the incidence and mortality of common tumors are increasing. TCM has rich clinical experience in the treatment of tumors. However, in the current stage, some TCM preparations have a tendency to deviate from the guidance of TCM theory. With the modernization of TCM, it is worth considering how TCM theory guides modern TCM preparations. Taking tumor treatment as an example, this paper introduced the development of TCM nano-preparation under the influence of modern nanotechnology, summarized the research on the development of modern TCM nano-preparation from the aspects of TCM holistic concept, TCM treatment principles, and TCM theory application, and discussed the application prospect of TCM nano-preparation in overall therapy, drug pairing, carrier selection, and targeted substance selection under the guidance of TCM theory. This paper provides new references for further developing the combination of tradition and modernization of TCM nano-preparation.

[Puerarin-Chuanxiong oil submicron emulsion combining medicine and adjuvant].

This study was mainly based on the compatibility of Puerariae Lobatae Radix and Chuanxiong Rhizoma to prepare submicron emulsion and evaluated its physical and pharmaceutical properties. Firstly, pseudo-ternary phase diagrams were drawn by dripping method which took Chuanxiong oil as the oil phase and the area of microemulsion region as the index. On this basis, suitable emulsifier and co-emulsifier were screened for the preparation of Chuanxiong oil submicron emulsion. Then, the formula realizing the largest oil loading was selected. Finally, puerarin substituted part of emulsifier and co-emulsifier to lower their content, so as to form puerarin-Chuanxiong oil submicron emulsion featuring the combination of medicine and adjuvant. Its particle size, zeta potential, centrifugal stability and storage stability were determined, and the in vitro drug release behavior was investigated by dialysis bag method, based on which the quality of the as-prepared submicron emulsion was evaluated comprehensively. The proposed method was proved feasible for the preparation of Chuanxiong oil submicron emulsion, which adopted polyoxyethylene castor oil(EL-40) as the emulsifier and was free from co-emulsifier. The formula of the maximum oil loading was found as Chuanxiong oil∶EL-40∶water 3∶7∶90. Further, puera-rin successfully replaced up to 10% of the emulsifier in submicron emulsion. Eventually, the optimal drug-loading formula was determined as puerarin∶Chuanxiong oil∶EL-40∶water 7∶30∶63∶900. The quality evaluation results of the as-prepared submicron emulsion demonstrated that the average emulsion droplet size was 333.9 nm, the PDI 0.26, and the zeta potential-10.12 mV. The submicron emulsion had a good centrifugal stability and did not present any instable phenomena such as delamination and precipitation during its standing still for 50 days. The evaluation of in vitro drug release behavior indicated that the submicron emulsion was capable of releasing the drug completely. The puerarin-chuanxiong oil submicron emulsion prepared in this study possessed a stable quality and to some extent increased the solubility of puerarin along with a sustained-release effect. This study provided ideas for the clinical application of puerarin.

[Effect of paeoniflorin and menthol on membrane fluidity, Na⁺-K⁺-ATPase activity and Ca²âº-ATPase activity during transport of puerarin in Calu-3 cell].

The aim of this research is to investigate the effects of paeoniflorin and menthol on the physiological function of Calu-3 cell membrane during the transport of puerarin. Calu-3 cell was used as the in vitro cell model to simulate nasal mucosa tissues, and the cell membrane fluidity, Na⁺-K⁺-ATPase activity and Ca²âº-ATPase activity were detected by fluorescence recovery after photobleaching(FRAP) and ultramicro enzyme activity testing, in order to explore the mechanism of compatible drugs on promoting puerarin transport. The results showed that when puerarin associated with low, middle and high concentration of menthol or both paeoniflorin and menthol, the fluorescence recovery rate was increased significantly, while Na⁺-K⁺-ATPase activity had no significant change and Ca²âº-ATPase activity was enhanced significantly as compared with puerarin alone. Therefore, it was concluded that menthol had the abilit of promoting the transport and the mechanism might be related to increasing membrane fluidity and activating Ca²âº-ATPase.

Puerarin transport across rat nasal epithelial cells and the influence of compatibility with peoniflorin and menthol.

Nose-to-brain transport can provide an excellent pathway for drugs of the central nervous system. Consequently, how to make full use of this pathway in practical applications has become a focus of drug design. However, many aspects affecting drug delivery from the nose to the brain remain unclear. This study aimed to more deeply investigate the transport of puerarin and to explore the mechanism underlying the influence of compatible drugs on puerarin permeability in a primary cell model simulating the nasal mucosa. In this research, based on rat nasal epithelial cells (RNECs) cultured in vitro and cytotoxicity assays, the bidirectional transport of puerarin across RNEC monolayers and the effect of its compatibility with peoniflorin and menthol were analyzed. The apparent permeability coefficient was <1.5×10-6 cm/s, and the efflux ratio of puerarin was <2, indicating that puerarin had poor absorption and that menthol but not peoniflorin significantly improved puerarin transport. Simultaneously, through experiments, such as immunofluorescence staining, transepithelial electrical resistance measurement, rhodamine 123 efflux evaluation, the cell membrane fluorescence recovery after photobleaching test, and ATPase activity determination, the permeability promoting mechanism of menthol was confirmed to be closely related to disruption of the tight junction protein structure, to the P-glycoprotein inhibitory effect, to increased membrane fluidity, and to the promotion of enzyme activity. These results provide reliable data on nasal administration of the studied drugs and lay the foundation for a deeper investigation of the nose-brain pathway and nasal administration.

Inhibitory effect of Shenqi Fuzheng injection combined with docetaxel on lung cancer cells.

This study investigated the anticancer effect of Shenqi Fuzheng (SQFZ) injection combined with docetaxel on lung cancer cell lines of A549 and Lewis lung cancer (LLC). SQFZ injection alone cannot inhibit the vitality of lung cancer cells, but the antitumor activity of SQFZ combined with docetaxel was significantly higher than that using docetaxel alone.

[Mechanism research of aromatics borneol and muscone].

OBJECTIVE: To study the effects of borneol and muscone on membrane fluidity, membrane potential, Na+, K(+)-ATPase activity and calcium ions of blood brain barrier (BBB) model cells (MDCK and MDCK-MDR1) for exploring the mechanism of aromatics. METHODS: MDCK and MDCK-MDR1 cells were incubated and the experiment was performed as following. Cells were incubated with aromatic herbs for 3 h. The membrane fluidity were detected by FRAP. The changes of membrane potentials and the concentration of calcium ions were detected by flow cytometer. RESULTS: Borneol (55.6, 111.2 microg/mL) and muscone (8.34, 16.68 microg/mL) significantly enhanced the cell membrane fluidity. Borneol (27.8, 55.6, 111.2 microg/mL) and muscone (4.17, 8.34, 16.68 microg/mL) made the MDCK and MDCK-MDR1 membrane potentials less negative or depolarized. Borneol increased the concentration of intracellular free calcium in MDCK while decreased the concentration of intracellular free calcium in MDCK-MDR1 cells. Muscone increased the concentration of calcium in MDCK and MDCK-MDR1 cells. Na+, K(+)-ATPase activity was significantly increased in borneol and muscone group. CONCLUSION: The regulating effect of membrane fluidity, membrane potential, Na+, K(+)-ATPase activity and calcium ions in MDCK and MDCK-MDR1 cells might be one of the mechanisms of borneol and muscone's BBB opening function.

Effect of Danggui Buxue Tang on immune-mediated aplastic anemia bone marrow proliferation mice.

To investigate the pharmacological effects of Danggui Buxue Tang (DBT) on immune-mediated aplasia anemia mice. The model of immune-mediated aplasia anemia mice was induced by means of (60)Co γ-ray irradiation and mixed cells of thymus and lymphnode of DBA/2 mice infusion through tail vein, the parameters tested indices were as following: blood picture, bone marrow nucleated cell count (BMNC), murine colony-forming unit-megakaryocytes (CFU-GM) of bone marrow cells, murine colony-forming unit-erthroid (CFU-E) and burst forming unit-erythroid (BFU-E). The results showed that DBT could not only withstand significantly decreation of blood cells by immune-mediated, but also stimulate on the growth of bone marrow colony cell and increase the weight of hemopoietic progenitor of bone marrow. Therefore, DBT had an obvious treat effect on immune-mediated aplasia anemia models mice.

Adenovirus-mediated and tumor-specific transgene expression of the sodium-iodide symporter from the human telomerase reverse transcriptase promoter enhances killing of lung cancer cell line in vitro.

BACKGROUND: The sodium-iodide symporter (NIS) protein can mediate the active radioiodine uptake. The human telomerase reverse transcriptase (hTERT) promoter is known to be selectively reactivated in majority of tumors and hence could be used for tumor targeting. We constructed a recombinant adenovirus containing the human sodium iodide symporter (hNIS) gene directed by the hTERT promoter, characterized the ability of infected cells in uptaking iodide, and explored the therapeutic efficacy of (131)I in a lung cancer cell line in vitro. METHODS: The hTERT promoter was amplified by PCR from DNA isolated from log-phase HepG2 cells, subcloned into lineralized FL*-hNIS/pcDNA3, and then the hTERT-hNIS sequence was subcloned into the shuttle plasmid pAdTrack. The recombinant adenovirus Ad-hTERT-hNIS was constructed by AdEasy system. A positive control adenovirus Ad-CMV-hNIS and a negative control adenovirus Ad-CMV were created similarly. A549 cells were transduced with recombinant adenoviruses. (125)I uptake studies and sodium perchlorate suppression studies were used to confirm hNIS expression and function. Toxic effects of (131)I on tumor cells were studied by in vitro clonogenic assay. RESULTS: We first successfully constructed an adenovirus mediated transgene expression system of the hNIS under the control of hTERT promoter. When infected with recombinant adenovirus constructs expressing hNIS directed by hTERT- and CMV-promoters (Ad-hTERT-hNIS and Ad-CMV-hNIS, respectively), the lung cancer cell line A549 had increased ability to uptake radioiodide up to 23- and 30-fold compared to the control parental cells, respectively. The radioiodide uptake ability of both the Ad-CMV-hNIS and Ad-hTERT-hNIS transduced cell lines were repressed 11-fold by sodium perchlorate (NaClO4). The subsequent in vitro clonogenic assay of the infected A549 cell line was further repressed to 23% (Ad-CMV-hNIS) and 30% (Ad-hTERT-hNIS) of the control group after receiving radioiodide for 7 hours (P < 0.001). CONCLUSION: Our preliminary study indicates that an adenovirus mediated transgene expression system of the hNIS under the control of hTERT promoter has the potential to become an effective wide-spectrum yet highly specific anti-cancer strategy.