Abstract
Francisella tularensis (FT) is a highly virulent pathogen for humans and other mammals. Severe morbidity and mortality is associated with respiratory FT infection and there are concerns about intentional dissemination of this organism. Therefore, FT has been designated a category A biothreat agent and there is a growing interest in the development of a protective vaccine. In the present study, we determine the protective potential of a subunit vaccine comprised of the FT heat shock protein DnaK and surface lipoprotein Tul4 against respiratory infection with the live vaccine strain (LVS) of FT in mice. First, we establish an optimal intranasal immunization regimen in C57BL/6 mice using recombinant DnaK or Tul4 together with the adjuvant GPI-0100. The individual immunization regimens induced robust salivary IgA, and vaginal and bronchoalveolar IgA and IgG antigen-specific antibodies. Serum IgG1 and IgG2c antibody responses were also induced, indicative of a mixed type 2 and type 1 response, respectively. Next, we show that immunization with DnaK and Tul4 induces mucosal and systemic antibody responses that are comparable to that seen following immunization with each antigen alone. This immunization regimen also induced IFN-γ, IL-10 and IL-17A production by splenic CD4+ T cells in an antigen-specific manner. Importantly, over 80% of the mice immunized with DnaK and Tul4, but not with each antigen alone, were protected against a lethal respiratory challenge with FT LVS. Protection correlated with reduced bacterial burden in the lung, liver and spleen of mice. This study demonstrates the potential of DnaK and Tul4 as protective antigens and lends support to the notion of combining distinct, immunodominant antigens into an effective multivalent tularemia vaccine.
Highlights
Francisella tularensis (FT) is a facultative, intracellular, Gramnegative coccobacillus and the causative agent of tularemia, a zoonotic disease
In our first series of studies, we determined whether DnaK and Tul4 are recognized by the host adaptive immune system during FT live vaccine strain (LVS) infection
Immunization with either DnaK or Tul4 alone did not protect mice against FT LVS infection, yet their combination afforded significant protection, indicating that immune responses to each antigen contributed towards protection
Summary
Francisella tularensis (FT) is a facultative, intracellular, Gramnegative coccobacillus and the causative agent of tularemia, a zoonotic disease. Considering the extreme virulence, the ability to persist for weeks in nature, and the probability of being intentionally disseminated, the Centers for Disease Control and Prevention has categorized FT subspecies tularensis (type A, Schu S4) as a category A biological agent [1]. The type B strain (FT subspecies holarctica) causes moderate disease in humans and was used for the development of an attenuated live vaccine strain (LVS). FT LVS is attenuated in humans, it is highly virulent in mice, causing a disease that closely resembles human tularemia [3]. FT LVS infection in mice has been extensively used as an initial experimental approach to test potential vaccine candidates and suggest possible vaccination strategies against the more virulent type A strain
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