Mucosal Immunopathogenesis of Francisella tularensis

doi:10.1196/annals.1409.007

Respiratory infection with Francisella tularensis is the deadliestform of disease and represents the most likely route to be usedby bioterrorists. Although mucosal surfaces represent the firstline of defense against respiratory tularemia, and in fact,against the great majority of human pathogens, little is knownabout protective immunity at these sites. The objective of thischapter is to review recent data examining the importance ofvarious pulmonary immune mechanisms in defense against F. tularensisinfection and to evaluate potential strategies for inductionof protective lung immunity. Aerosol and intranasal mouse infectionmodels have yielded essentially equivalent results and haveimplicated an important role for Th1-type immune responses inprotection, including IFN- ${gamma}$ , TNF- ${alpha}$ , and IL-12. The cells responsiblefor protection in the lung are not well-characterized but NKcells are an early target for activation after infection althoughit appears that CD8 T cells might be most critical for hostresistance. In addition, it is becoming increasingly clear thatantibodies can provide prophylactic and therapeutic protectionagainst pulmonary infection but only in the presence of activecell-mediated immunity. In fact, in vitro exposure of restingmacrophages to antibody-coated bacteria in the absence of IFN- ${gamma}$ can actually enhance infection. Although various immune mechanismscan be shown to be important for protection against attenuatedstrains such as LVS, the real challenge for the future is todesign efficacious approaches to prevent disease by highly virulentstrains such as SchuS4.

				A. Qin, D. W. Scott, and B. J. Mann Francisella tularensis subsp. tularensis Schu S4 Disulfide Bond Formation Protein B, but Not an RND-Type Efflux Pump, Is Required for Virulence Infect. Immun., July 1, 2008; 76(7): 3086 - 3092. [Abstract] [Full Text] [PDF]

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