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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

Mvin mediates Francisella Tularensis virulence through evasion of AIM2 inflammasome activation

Ulland, Tyler Kent 01 July 2010 (has links)
The mechanisms by which the facultative intracellular pathogen Francisella tularensis is recognized by the innate immune system and the strategies that F. tularensis uses to avoid this recognition are not well understood. We have identified the basic components of the inflammasome that assemble in response to F. tularensis Live Vaccine Strain (LVS) challenge as containing the cysteine protease caspase-1, the adaptor protein ASC and the PYHIN molecule AIM2. We have also shown here that the nucleotide-binding domain leucine-rich repeat containing receptors (NLRs), NLRC4, NLRP3, NLRP6, NLRP10, and NLRP12 were not necessary for activation of caspase-1 and subsequent IL-1β secretion in response to challenge with F. tularensis LVS in vitro. In vivo, NLRC4, NLRP3, NLRP6, NLRP10, and NLRP12 did not appear to enhance survival. However, caspase-1- and ASC-deficient mice succumbed more rapidly to infection, indicating that the inflammasome played a role in defense against F. tularensis LVS. Additionally, we identified a gene with homology to Escherichia coli mviN, a putative lipid II flippase, that functions as a F. tularensis virulence factor. In vivo infection of mice with a F. tularensis LVS mviN transposon mutant (mviN::Tn5) resulted in improved host survival and decreased bacterial burdens compared to infection with wild-type F. tularensis LVS. Wild-type F. tularensis LVS and the mviN::Tn5 mutant replicated at a similar rate in both macrophages and liquid broth culture. Additionally, the ability to induce the production of TNF-α or IL-6 was also similar between WT F. tularensis and the mviN::Tn5 mutant. In contrast to the similar levels of production of IL-6 and TNF-α, the mviN mutant induced increased AIM2 inflammasome-dependent IL-1β secretion and cytotoxicity in macrophages compared to wild-type F. tularensis. The compromised in vivo virulence associated with the mutation of mviN was dependent upon inflammasome activation, as caspase-1- and ASC-deficient mice did not exhibit preferential survival following infection. These data show that F. tularensis LVS activation of the inflammasome is caspase-1-, ASC-, and AIM2-dependent. These data also identify mviN as a novel F. tularensis virulence factor that enables F. tularensis LVS to evade some AIM2 inflammasome activation.

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