McConnell Michael J, Hanna Philip C, Imperiale Michael J
Department of Microbiology and Immunology and Comprehensive Cancer Center, University of Michigan Medical School, Ann Arbor, Michigan, USA.
Mol Ther. 2007 Jan;15(1):203-10. doi: 10.1038/sj.mt.6300034.
Prime-boost vaccination using plasmid DNA and replication-defective adenovirus vectors has emerged as a highly effective strategy for vaccinating against viral pathogens. However, its ability to provide protection against bacterial disease has never been assessed. Here we evaluate prime-boost vaccination approaches for immunizing against anthrax. We show that mice primed with DNA and boosted with an adenovirus vector, both expressing domain four of Bacillus anthracis protective antigen (PA), have higher antibody and toxin-neutralizing titers than mice immunized with either single modality alone. DNA-primed/adenovirus-boosted mice also had significantly higher antibody and toxin-neutralizing titers than mice immunized with Anthrax Vaccine Adsorbed. High levels of antigen-specific interferon-gamma-secreting cells were present in vaccinated mice indicating that a cell-mediated immune response had also been stimulated. Both DNA-primed/adenovirus-boosted and adenovirus-primed/adenovirus-boosted mice were fully protected from Sterne strain spore challenge. We also show that a single injection with an adenovirus vector-expressing domain four of PA can provide partial protection from spore challenge 2 weeks after immunization and full protection 3 weeks after immunization. These results demonstrate that adenovirus-based prime-boost vaccination can provide rapid protection from anthrax and that this approach may be an effective strategy for immunizing against bacterial as well as viral pathogens.
使用质粒 DNA 和复制缺陷型腺病毒载体进行的初免 - 加强免疫接种已成为一种针对病毒病原体的高效疫苗接种策略。然而,其预防细菌性疾病的能力从未得到评估。在此,我们评估了针对炭疽的初免 - 加强免疫接种方法。我们发现,用表达炭疽芽孢杆菌保护性抗原(PA)第四结构域的 DNA 进行初免并用腺病毒载体进行加强免疫的小鼠,其抗体和毒素中和滴度高于单独使用任何一种单一方式免疫的小鼠。DNA 初免/腺病毒加强免疫的小鼠的抗体和毒素中和滴度也显著高于接种吸附型炭疽疫苗的小鼠。接种疫苗的小鼠体内存在高水平的抗原特异性分泌干扰素 -γ 的细胞,表明细胞介导的免疫反应也受到了刺激。DNA 初免/腺病毒加强免疫和腺病毒初免/腺病毒加强免疫的小鼠均完全受到保护,免受斯特恩菌株孢子攻击。我们还表明,单次注射表达 PA 第四结构域的腺病毒载体可在免疫后 2 周提供部分免受孢子攻击的保护,并在免疫后 3 周提供完全保护。这些结果表明,基于腺病毒的初免 - 加强免疫接种可提供针对炭疽的快速保护,并且这种方法可能是一种针对细菌性和病毒性病原体免疫的有效策略。
