Advances in research and utilization of botanical pesticides for agricultural pest management in Inner Mongolia, China

Traditional Chinese herbal medicines not only cure human diseases,but also play an important role as insecticides.Compared with conventional chemical agents,traditional Chinese herbal medicines are characterized by low toxicity,low residues,and being eco-friendly,and they have become a research hotspot.Traditional Chinese herbal medicines have tremendous flexibility and indefinite potential.Therefore,this paper reviewed the types of insecticides belonging to traditional Chinese herbal medicines in Inner Mongolia,China,including their traditional uses,secondary metabolites,biological activities,action mechanisms,application methods,and development status.In addition,the most relevant issues involved in the development of traditional Chinese herbal medicines was discussed.We believe that traditional Chinese herbal medicines can be better implemented and developed;such that its other advantages,such as an insect repellent,can be promoted.Moreover,this study lays a solid foundation for further research on traditional Chinese herbal medicines in Inner Mongolia,China.

Myeloid-derived suppressor cells promote B-cell production of IgA in a TNFR2-dependent manner

Myeloid-derived suppressor cells(MDSCs)are well known for their capacity to suppress antitumor T-cell responses,but their effects on B-cell function and antibody production remain unclear.Here,we found that MDSCs that accumulated around the germinal center in the spleen of tumor-bearing mice co-located with B cells.In the presence of MDSCs,the antibody reaction to a surrogate antigen was significantly enhanced in mice,especially the immunoglobulin(Ig)A subtype.Co-culture with MDSCs promoted both proliferation and differentiation of B cells into IgA-producing plasma cells in vitro.Interestingly,the cross talk between MDSCs and B cells required cell-cell contact.MDSCs from tumor necrosis factor receptor(TNFR)2^(−/−)mice,but not from TNFR1^(−/−)mice,failed to promote B-cell responses.Further investigation suggested that interleukin-10 and transforming growth factor-β1 were crucial for the MDSC-mediated promotion of IgA responses.These results demonstrate a novel mechanism of MDSC-mediated immune regulation during tumor growth.

Affinity maturation of anti-TNF-alpha scFv with somatic hypermutation in non-B cells

Activation-induced cytidine deaminase(AID)is required for the generation of antibody diversity through initiat-ing both somatic hypermutation(SHM)and class switch recombination.A few research groups have success-fully used the feature of AID for generating mutant li-braries in directed evolution of target proteins in B cells in vitro.B cells,cultured in suspension,are not con-venient for transfection and cloning.In this study,we established an AID-based mutant accumulation and sorting system in adherent human cells.Mouse AID gene was first transfected into the human non-small cell lung carcinoma H1299 cells,and a stable cell clone(H1299-AID)was selected.Afterwards,anti-hTNF-αscFv(ATscFv)was transfected into H1299-AID cells and ATscFv was displayed on the surface of H1299-AID cells.By 4-round amplification/flow cytometric sorting for cells with the highest affinities to hTNF-alpha,two ATscFv mutant gene clones were isolated.Compared with the wild type ATscFv,the two mutants were much more efficient in neutralizing cytotoxicity of hTNF-alpha.The results indicate that directed evolution by somatic hypermutation can be carried out in adherent non-B cells,which makes directed evolution in mammalian cells easier and more efficient.