Abstract
Francisella tularensis subsp. tularensis is a highly virulent pathogen for humans especially if inhaled. Consequently, it is considered to be a potential biothreat agent. An experimental vaccine, F. tularensis live vaccine strain, derived from the less virulent subsp. holarctica, was developed more than 50 years ago, but remains unlicensed. Previously, we developed a novel live vaccine strain, by deleting the chaperonin clpB gene from F. tularensis subsp. tularensis strain, SCHU S4. SCHU S4ΔclpB was less virulent for mice than LVS and a more effective vaccine against respiratory challenge with wild type SCHU S4. In the current study, we were interested to determine whether a similar mutant on the less virulent subsp. holarctica background would also outperform LVS in terms of safety and efficacy. To this end, clpB was deleted from clinical holarctica strain, FSC200. FSC200ΔclpB had a significantly higher intranasal LD50 than LVS for BALB/c mice, but replicated to higher numbers at foci of infection after dermal inoculation. Moreover, FSC200ΔclpB killed SCID mice more rapidly than LVS. However, dermal vaccination of BALB/c mice with the former versus the latter induced greater protection against respiratory challenge with SCHU S4. This increased efficacy was associated with enhanced production of pulmonary IL-17 after SCHU S4 challenge.
Highlights
Francisella tularensis is a facultative intracellular bacterial pathogen of mammals
A single vaccination by scarification with F. tularensis live vaccine strain (LVS) elicits essentially life-long cell-mediated immunity in humans, whereas humoral immunity disappears within ten years [22,23]
Human volunteer studies conducted during the 1960s indicated that the protective immunity provided by LVS against aerosol challenge with subsp. tularensis strain SCHU S4, waned within 6–12 months [5,6,24]
Summary
Francisella tularensis is a facultative intracellular bacterial pathogen of mammals. Two subspecies, subsp. holarctica and subsp. tularensis are highly infectious for humans, and the latter can cause high mortality when inhaled [1]. Tularensis are highly infectious for humans, and the latter can cause high mortality when inhaled [1]. Holarctica was endemic in the USSR during the early 20th century. To counter this threat, Soviet scientists developed an attenuated holarctica strain, strain 15, as a live vaccine. Soviet scientists developed an attenuated holarctica strain, strain 15, as a live vaccine This vaccine was highly effective at preventing tularemia caused by subsp. LVS has never been licensed for public use [7] It is currently being reassessed for safety and immunogenicity, but not efficacy, in several clinical trials (http://www.clinicaltrials.gov/ct2/show/ NCT01150695?term = tularemia&rank = 1)
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