Human Vaccines & Immunotherapeutics (Dec 2023)

The rLVS ΔcapB/iglABC vaccine provides potent protection in Fischer rats against inhalational tularemia caused by various virulent Francisella tularensis strains

  • Kevin D. Mlynek,
  • Curtis R. Cline,
  • Sergei S. Biryukov,
  • Ronald G. Toothman,
  • Beth A. Bachert,
  • Christopher P. Klimko,
  • Jennifer L. Shoe,
  • Melissa Hunter,
  • Zander M. Hedrick,
  • Jennifer L. Dankmeyer,
  • Sherry Mou,
  • David P. Fetterer,
  • Ju Qiu,
  • Eric D. Lee,
  • Christopher K. Cote,
  • Qingmei Jia,
  • Marcus A. Horwitz,
  • Joel A. Bozue

DOI
https://doi.org/10.1080/21645515.2023.2277083
Journal volume & issue
Vol. 19, no. 3

Abstract

Read online

ABSTRACTFrancisella tularensis is one of the several biothreat agents for which a licensed vaccine is needed. To ensure vaccine protection is achieved across a range of virulent F. tularensis strains, we assembled and characterized a panel of F. tularensis isolates to be utilized as challenge strains. A promising tularemia vaccine candidate is rLVS ΔcapB/iglABC (rLVS), in which the vector is the LVS strain with a deletion in the capB gene and which additionally expresses a fusion protein comprising immunodominant epitopes of proteins IglA, IglB, and IglC. Fischer rats were immunized subcutaneously 1–3 times at 3-week intervals with rLVS at various doses. The rats were exposed to a high dose of aerosolized Type A strain Schu S4 (FRAN244), a Type B strain (FRAN255), or a tick derived Type A strain (FRAN254) and monitored for survival. All rLVS vaccination regimens including a single dose of 107 CFU rLVS provided 100% protection against both Type A strains. Against the Type B strain, two doses of 107 CFU rLVS provided 100% protection, and a single dose of 107 CFU provided 87.5% protection. In contrast, all unvaccinated rats succumbed to aerosol challenge with all of the F. tularensis strains. A robust Th1-biased antibody response was induced in all vaccinated rats against all F. tularensis strains. These results demonstrate that rLVS ΔcapB/iglABC provides potent protection against inhalational challenge with either Type A or Type B F. tularensis strains and should be considered for further analysis as a future tularemia vaccine.

Keywords