Screening and identification of multiple components in Tanreqing injection using RP-HPLC combined with DAD and ESI-TOF/MS

A liquid chromatography coupled with diode array detector(DAD) and electrospray ionization time-of-flight mass spectrometry(ESI-TOF/MS) method was developed for the screening and identification of the multiple components in Tanreqing injection, a well-known Chinese medicine injection in China. By combining the DAD spectrum and the accurate mass measurement of ESI-TOF/MS, twelve components in Tanreqing injection were identified. This study contributes to clarifying the nature of Tanreqing injection, and provides an effective and reliable process for the comprehensive and systematic characterization of complex traditional Chinese medicine preparations.

Neoantigen vaccine:An emerging immunotherapy for hepatocellular carcinoma

Tumor-specific neoantigens,which are expressed on tumor cells,can induce an effective antitumor cytotoxic T-cell response and mediate tumor regression.Among tumor immunotherapies,neoantigen vaccines are in early human clinical trials and have demonstrated substantial efficiency.Compared with more neoantigens in melanoma,the paucity and inefficient identification of effective neoantigens in hepatocellular carcinoma(HCC)remain enormous challenges in effectively treating this malignancy.In this review,we highlight the current development of HCC neoantigens in its generation,screening,and identification.We also discuss the possibility that there are more effective neoantigens in hepatitis B virus(HBV)-related HCC than in non-HBV-related HCC.In addition,since HCC is an immunosuppressive tumor,strategies that reverse immunosuppression and enhance the immune response should be considered for the practical exploitation of HCC neoantigens.In summary,this review offers some strategies to solve existing problems in HCC neoantigen research and provide further insights for immunotherapy.

Identification and Preliminary Characterization of a New Chemical Affecting Glucosyltransferase Activities Involved in Plant Cell Wall Biosynthesis

Chemical genetics as a part of chemical genomics is a powerful and fast developing approach to dissect biological processes that may be difficult to characterize using conventional genetics because of gene redundancy or lethality and, in the case of polysaccharide biosynthesis, plant flexibility. Polysaccharide synthetic enzymes are located in two main compartments--the Golgi apparatus and plasma membrane-and can be studied in vitro using membrane fractions. Here, we first developed a high-throughput assay that allowed the screening of a library of chemicals with a potential effect on glycosyltransferase activities. Out of the 4800 chemicals screened for their effect on Golgi glucosyltransferases, 66 compounds from the primary screen had an effect on carbohydrate biosynthesis. Ten of these compounds were confirmed to inhibit glucose incorporation after a second screen. One compound exhibiting a strong inhibition effect （ID 6240780 named chemical A） was selected and further studied. It reversibly inhibits the transfer of glucose from UDP-glucose by Golgi membranes, but activates the plasma membrane-bound callose synthase. The inhibition effect is dependent on the chemical structure of the compound, which does not affect endomembrane morphology of the plant cells, but causes changes in cell wall composition. Chemical A represents a novel drug with a great potential for the study of the mechanisms of Golgi and plasma membrane-bound glucosyltransferases.