[Preparation and pharmacodynamics in vivo of nano graphene oxide-based matrine in situ gel].

With matrine(MAT) as the model drug, to prepare nano graphene oxide(NGO)-based MAT in situ gel(MAT-NGO-gel), a kind of drug for tumor treatment in combination with phototheraphy, and investigate the physicochemical properties and anti-tumor effects in vivo of MAT-NGO-gel. First, HPLC method was established to measure the content of MAT in the gel. The ultrasonic method was used to load MAT onto the surface of NGO, and then poloxamer 188 and poloxamer 407 were chosen as the main materials to prepare MAT-NGO-gel. The optimum prescription was selected with the gelation temperature as the index. Finally, the drug loading rate, micromorphology, phototherrmal conversion characteristics and drug release in vitro of MAT-NGO-gel were characterized. In the optimized prescription, the concentration of poloxamer 188 and poloxamer 407 was 2% and 20% respectively, and the mass ratio of NGO and MAT was 1∶1. The gelation temperature and drug loading rate of MAT-NGO-gel prepared by the optimal prescription process was 37.5 ℃ and 16.7%. Under 808 nm laser irradiation, MAT-NGO-gel showed obvious concentration-and time-dependent photothermal conversion characteristics. In vitro release experiments showed that MAT-NGO-gel had temperature-dependent release characteristics. The pharmacodynamics of MAT solution, NGO-gel and MAT-NGO-gel were studied by using S180 tumor-bearing mice and 808 nm laser. The relative tumor volume and body weight of the tumor-bearing mice were plotted over time. After the experiment, the tumor tissues of each group were taken and the histopathological changes were observed by HE staining. The results of pharmacodynamic studies demonstrated that when compared with NS group and NGO-gel group, the body weights of mice in MAT-NGO-gel group and MAT-NGO-gel + laser group were higher, and the relative tumor volume growth was slower. The results of HE stained pathological sections showed that the tumor cells count for the mice in MAT-NGO-gel group and MAT-NGO-gel + laser group was significantly reduced, with obvious nuclear fragmentation and nucleolysis in these two groups. These results suggested that MAT-NGO-gel, especially combined with 808 nm laser, had stronger anti-tumor activity in vivo. The prescription process of MAT-NGO-gel in this experiment was stable and feasible. As compared with MAT solution, MAT-NGO-gel showed obvious sustained and temperature-dependent drug release characteristics. MAT-NGO-gel had much more obvious anti-tumor activity in vivo when combined with 808 nm laser irradiation. This study could provide certain theoretical basis for the therapy of malignant tumor with multiple mechanisms.

Advances in immunotherapy of Alzheimer's disease with traditional Chinese medicine / 药学学报

Alzheimer's disease (AD) is a type of common neurodegenerative disease. The main clinical symptom of the disease is progressive cognitive dysfunction, which has no effective therapy yet. With the in-depth immunology study in the central nervous system, studies in different fields such as preclinical phase, genetics and bioinformatics have shown that immune dysfunction contribute to the pathogenesis of AD, including the beginning, maintenance and deterioration stage in AD. China has a wealth of natural medicine resources and clinical experiences. A large number of natural drugs and effective components both can regulate the immune function and ameliorate the symptoms in AD. This review summarizes the researches of ameliorating the symptoms in AD through immunization regulation in recent years with an aim to provide new ideas and clues in the study of new anti-AD drugs using natural medicines.

Development and evaluation of a rapid PCR detection kit for Ophiocordyceps sinensis / 中国中药杂志

Ophiocordyceps sinensis is a valuable traditional Chinese medicine. Due to resource shortage, expensive price and huge market demand, there are many adulterants of O. sinensis in markets. Therefore, it is necessary to establish a rapid and effective method for distinguishing O. sinensis. Based on the species-specific PCR of O. sinensis, this study developed a detection kit by optimizing the components and evaluated the specificity, detection limit, repeatability and shelf life of the kit. The results showed that when the quality of O. sinensis accounted for more than 1/200 of that mixture, it could be detected successfully. Moreover, only O. sinensis could be amplified and glowed bright green fluorescence under ultraviolet light. The kit was still in effect when it was placed at 37 ℃ for three days, which indicated that it was stable and effective for one year stored in 4 ℃. The kit in the same batch under different operation conditions, and in different batch under the same operation conditions gave the same result and accuracy, which showed good repeatability of the kit. It is simple, rapid and accurate to distinguish O. sinensis from its adulterants using the kit, and lays the foundation for commercialization of traditional Chinese medicine fast detection kit.