ABSTRACT
Aim To explore the possibility of the multiple epitope DNA vaccines of hepatitis C virus (HCV). Methods A synthetic multiple epitope antigen gene PCX of HCV was cloned into vector pREP9(RSV promoter) and pcDNA3 (CMV promoter) to construct eukaryotic expression vectors pREP9/PCX and pcDNA3/PCX, then they were used to immunize mice and rabbits, the titer of specific humoral and cellular responses were detected and their safety were observed. Results In mice, specific anti-GZ-PCX antibody(IgG) was lower than 1∶ 1 000 and did not persist well. In rabbits, the highest titer of anti-GZ-PCX IgG reached at 1∶ 3 200 and remained for about one month. Delayed type hypersensitivity reactions (DTH)and proliferation response of peripheral lymphocytes were induced by GZ-PCX antigen. Body weights of immunized mice were normal and no obvious toxic reaction was observed. Conclusion The multiple epitope antigen gene of HCV could induce specific immune responses without obvious toxicity and it might be able to serve as an effective HCV vaccine candidate.
ABSTRACT
AIM:To estimate the toxicological characterization of Jiutong Capsule(Radix Puerariae lobatae,Fructus seu Semen Hoveniae,etc.).METHODS:The acute toxicity test,micronucleus test of bone marrow cell,sperm shape abnormality test in mice,the Ames test,and 30 days feeding test in rat were performed.RESULTS:(1) The acute toxicity test showed that LD_ 50 of Jiutong Capsule was more than 10.0 g/kg.(2) The result of Ames test,micronucleus test of bone marrow cell,and sperm shape abnormality test were negative.(3) The 30 days feeding test showed that Jiutong Capsule had no cumulate toxicity in mice.CONCLUSION:The results show that Jiutong Capsule does not have toxicity,and it can't cause mutation and heredity toxicity.
ABSTRACT
Cartilage antuumor component (CATC) was isolated from a 1 mol/L guanidine hydrochloride extract of bovine cartilage by acetone fractioned precipitation and superfiltration. Using human skin fibroblasts as a normal control, it was demonstrated that CATC inhibited the DNA synthesis of Hela, QGY7703 tumor cell lines and bovine artery endothelial cells, but accelerated the normal cells, when the concentration was below 1250 ?g/ml. At the concentration of 5 000 ?g/ml, CATC inhibited the two cell lines. With human tumor stem cell assay, CATC inhibited the stem cell growth of Hela and QGY7703 cell lines. These suggest that CATC has the effects of inhibiting angiogenesis and tumor cells.