Type of Document Dissertation Author Baloglu, Simge Author's Email Address firstname.lastname@example.org URN etd-08022001-040420 Title Applicability of vaccinia virus as cloning and expression vector for bacterial genes: mice immune responses to vaccinia virus expressing Brucella abortus and Listeria monocytogenes antigens Degree PhD Department Veterinary Medical Sciences Advisory Committee
Advisor Name Title Boyle, Stephen M. Committee Co-Chair Toth, Thomas E. Committee Co-Chair Claus, G. William Committee Member Schurig, Gerhardt G. Committee Member Sriranganathan, Nammalwar Committee Member Keywords
- heterologous expression
- intracellular pathogens
- immune response protection
Date of Defense 2001-07-27 Availability unrestricted AbstractPrevious studies by our group showed that vaccinia virus recombinants expressing Brucella abortus (BA) antigens heat shock protein GroEL, 18 kDa protein and Cu/Zn SOD, were unable to induce protective immune responses against Brucella challenge. This dissertation analyzes the possible reasons for this phenomenon, by using other genes/proteins from BA and Listeria monocytogenes (LM), various shuttle plasmids (pSC65, pSC11) and immune response modulators (CpG, IL-12, B7-1).
As the first objective, a vaccinia virus recombinant (WRL7/L12), expressing the BA L7/L12 gene was generated. L7/L12 ribosomal protein was used as a T-cell reactive antigen, with protective potential to Brucella challenge. The WRL7/L12 was able to express the gene of interest and induce IgG2A type antibody response, but not a protective immune response against Brucella challenge. As a control, an antigen from LM proven to induce CTL and protective immune responses, was used to test the efficacy of vaccinia virus to induce protection. A portion of hly gene, encoding partial listeriolysin (pLLO), was inserted into the same vaccinia virus stain. This recombinant (WRpLLO) was able to induce protection against a Listeria challenge.
Next another vaccinia virus recombinant expressing Brucella abortus Cu/Zn SOD was analyzed. Although a variety of approaches, including the enhancement of the protein expression by the pMCO2 synthetic promoter, booster immunization, addition of the oligomer CpG adjuvant (WRSODCpG) to enhance Th1 type response, were used, the SOD recombinant failed to protect mice against Brucella challenge.
Lastly, vaccinia virus produces a family of proteins that bind cytokines, chemokines and interferons to evade the host defensive systems. Therefore, a vaccinia virus strain co-expressing murine IL-12, and cofactor B7-1, were used to generate the recombinant WRIL12L7/L12. In order to further boost the induction of Th 1 type response, the adjuvant CpG was used. A similar recombinant, WRIL12pLLO, was generated with partial hly gene to serve as a positive control for protection. Mice immune responses to these recombinants, with and without adjuvant CpG, were analyzed, and compared with the recombinants generated with vaccinia strain WR. Co-expression of IL12 and B7 abrogated the protective efficacy of the vaccinia/ pLLO recombinant.
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