Effects of DDA, CpG-ODN, and plasmid-encoded chicken IFN-gamma on protective immunity by a DNA vaccine against IBDV in chickens

This study examined the adjuvant effects of dimethyl dioctadecyl ammonium bromide (DDA), CpG oligodeoxynucleotides (CpG-ODN), and chicken interferon-gamma (ChIFN-gamma) on a DNA vaccine (pcDNA-VP243) against the infectious bursal disease virus (IBDV). A plasmid encoding chicken IFN-atilde was constructed. Twice at 2-week intervals, twoweek-old chickens were injected intramuscularly and intraperitoneally with either a DNA vaccine alone or a DNA vaccine together with the respective adjuvants. On week 2 after the second immunization, the chickens were orally challenged with the highly virulent IBDV. The groups that received the DNA vaccines plus either DDA or CpG-ODN showed significantly lower survival rates than the group that received the DNA vaccine alone. However, the survival rates for the DNA vaccine alone and for the DNA vaccine plus ChIFN-gamma were similar. The chickens had no detectable antibodies to the IBDV before the challenge but all the surviving chickens in all groups except for the normal control group showed the induction of antibodies to the IBDV at day 10 after the challenge. As judged by the lymphocyte proliferation assays using the a WST-8 solution performed on the peripheral blood and splenic lymphocytes, the stimulation indices (SI) of the peripheral blood lymphocytes in all groups except for the normal control group were similar immediately before the challenge. At 10 days post-challenge, the SI for DNA vaccine plus either CpG-ODN or ChIFN-gamma was similar to that of the DNA vaccine control group. For splenic lymphocytes, the SI in the DNA vaccine plus CpG-ODN and DNA vaccine plus ChIFN-gamma groups were higher than for the DNA vaccine control. These results suggest that DDA actually compromises the protection against the IBDV by DNA vaccine, and CpG-ODN and IFN-gamma had no significant effect.

Development of monoclonal oligobodies and chemically synthesized oligobodies

Oligonucleotide aptamers obtained using the SELEX procedure can recognize different molecules with high affinity. However, for proteins, this recognition is limited to native conformations and the specificity has not been clearly demonstrated by methods such as Western blotting, immunohistochemistry or immunoprecipitations. Using a library of oligonucleotides and a selection strategy based on high specificity instead of high affinity, we have reported previously the preparation of polyclonal oligobodies, reagents that recognize the protein PP2A in a very specific way. Here we report a method to obtain monoclonal oligobodies. The oligobody developed specifically recognized both native and denatured states of the protein CPD1 used as a model system. We further demonstrate the specificity of the monoclonal oligobody using Western blots, immunohistochemistry, and immunoprecipitation, procedures previously limited only to antibody-based detection. In addition, a confocal microscopy is shown that was obtained using an oligobody made by chemical synthesis using an oligonucleotide synthesizer, being this the first [quot ]synthetic antibody[quot ] reported.