OBJECTlVE To investigate the effect of α-glycan isolated from Isatis indigotica on humoral immunity and cellular immunity functions in mice immunized with H1N1 influenza vaccine. METHODS BALB/c mice were immunized intramuscularly once with H1N1 influenza vaccine ( 3 μg) plusα-glycan ( 100μg) each mouse. The serum total antibody titer and its isotype antibody titer of immu-nized mice were analyzed by ELlSA at 5, 8, 10, 12 and 14 d after injection at vaccine. The proliferation activities of spleen T and B lymphocytes were determined with MTT method. The levels of cytokines interferon-γ( lFN-γ) , tumor necrosis factorα( TNF-α) , interleukin-4( lL-4) and lL-12 were measured by ELlSA kits. The populations of CD4+, CD8+, CD3+ and CD19+ lymphocytes were determined by flow cytometry. Furthermore, the proliferation rate of macrophages was studied with MTT method in vitro. RESULTS The α-glycan from I.indigotica could gradually induce high specific-antibody production 5-14 d after immunization with H1N1 influenza antigen plus theα-glycan in mice compared to immunization with antigen alone ( P<0.01) . After injection of antigen withα-glycan for 5 d, the main lgG isotype was lgM, and the titer levels of total lgG, lgG1 , lgG2a and lgG2b were also significantly raised following 5-14 d after immunization. The α-glycan significantly promoted the spleen T and B lymphocytes proliferation ( growth rate 44.2%and 37.8%) , stimulated the secretion of lFN-γand lL-12 of splenocytes ( P<0.01, P<0.05) , and also promoted lL-4 secretion of thymocytes (P<0.01). The polysaccharide significantly raised the percent age of CD3+T cells ( P<0.01) , CD3+/CD19+ T lymphocytes ( P<0.01) , and CD8+ T cells ( P<0.01) but decreased the percentage of CD4+/CD8+ T lymphocytes compared with antigen alone group ( P<0.01) . Furthermore, the α-glycan exhibited significant effects on the proliferation and TNF-α secre-tion of MH-S macrophages. CONCLUSlON Theα-glycan isolated from I.indigotica can improve humoral and cellular immunity response in mice immunized with H1N1 influenza vaccine.

OBJECTIVE To investigate chemical properties of a fructooligosaccharide (ABP-50-FOS)separated from Achyranthes bidentata and immune response in mice immunized H1N1 influenza vaccine. METHODS The methods of GPC,CE,IR and NMR were used to study chemical properties of ABP-50-FOS. BALB/c mice were immunized intramuscularly twice with H1N1 influenza vaccine (3 μg)plus ABP-50-FOS(200 μg)each mouse. The serum total antibody titer and its isotypes titers were analyzed by ELISA. The populations of CD4+,CD8+,CD3+and CD19+lymphocytes were deter?mined by flow cytometry. The proliferation activities of spleen T and B lymphocytes were determined with MTT method. The levels of cytokines interferon-γ(IFN-γ),tumor necrosis factor-α(TNF-α),inter?leukin-4(IL-4),IL-12 and NO were measured by ELISA kits. RESULTS ABP-50-FOS was a fructooli?gosaccharide with moleculer mass 1885 u. Its bone linkages contained 1,2-and 1,6-fructose residues. ABP-50-FOS could induce high specific-IgG,IgG1,IgG2a,IgG2b and IgM titers after immunization with H1N1 influenza antigen twice(P<0.01). ABP-50-FOS significantly elevated the percentage of CD3+,CD4+ and CD8+ spleen lymphocytes and IFN-γ secretions(P<0.01)in vitro. It also stimulated peritoneal macrophage of mice and DC2.4 dendritic cells to produce TNF-αand IL-12p70 respectively (P<0.01). However,ABP-50-FOS inhibited secretions of NO in macrophage. CONCLUSION The fruc?tooligosaccharide ABP-50-FOS separated from A. bidentata can exhibit strong adjuvant activity for H1N1 influenza vaccine.

Objective To study the effect of black granule capsules(BGCs) on growth of transplanted mouse hepatocarcinoma cells, cell proliferation cycle and apoptosis.Methods KM mouse were subcutaneously inoculated with Hepatocarcinoma cells (H22) and randomly divided into the model control group, the positive control group, the low, medium and high does of BGC group after 24h. The positive control group received intraperitoneal injection with 30 mg/kg cyclophosphamide. Mice of BGC groups were intragastricaly with different dosage of BGC (400, 800, 1 600 mg/kg). The model control group received intragastricaly with normal saline. The drugs were administrated once a day for seven days. The tumor inhibition rate was calculated at 24 h after the last administration. Flow cytometry was used to detect changes of cell cycle and apoptosis in harvested H22 tumor cells.Results The group of high does showed significant inhibitory effect on the growth of transplanted H22 tumor cells withthe inhibitory rate 38.78% (male) and 43.57% (female). Compared with model control group, groups of different dosages decreased time of G0-G1 phase (58.06% ± 9.65%, 55.10% ± 5.89%, 61.36% ± 15.95%vs. 74.47% ± 2.63%), increased tiem of Sphase (33.96% ± 11.90%, 32.67% ± 4.04%, 33.89% ± 9.82%vs. 14.37% ± 4.92%), and increased the apoptosis rate (31.12% ± 1.85%, 31.89% ± 2.16%, 40.64% ± 0.55%vs.21.75% ± 2.64%).Conclusion BGC has antitumor effect on mouse hepatocarcinoma H22 tumor cells, and its mechanism was to regulate cell proliferation cycle and induce the apoptosis.