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dc.contributor.advisor Aballay, Alejandro en_US
dc.contributor.author Styer, Katie Letitia en_US
dc.date.accessioned 2008-08-01T12:53:16Z
dc.date.available 2008-08-01T12:53:16Z
dc.date.issued 2008-04-25 en_US
dc.identifier.uri http://hdl.handle.net/10161/658
dc.description Dissertation en_US
dc.description.abstract <p>An estimated twenty-five percent of the fifty-seven million annual deaths worldwide can be directly attributed to infectious disease. Mammals contain both adaptive and innate immune systems to deal with invading pathogens. The genetic model organism <em>Caenorhabditis elegans</em> lacks an adaptive immune system, which makes it a powerful model organism to study the innate immune system without the added complexity of an adaptive immune system. Multiple human pathogens can cause lethal infections in <em>C. elegans</em> and several <em>C. elegans</em> innate immune pathways have been identified that are conserved with mammals and protect the nematode from infection. The goal of this work was to identify novel bacterial virulence factors and innate immune defenses against pathogens by using the genetic model organism <em>C. elegans</em>. We established <em>C. elegans</em> as a model for <em>Yersinia pestis</em> infection and used this model to identify novel bacterial virulence factors that were also important for virulence in a mammalian model of infection. Previous studies demonstrated that <em>C. elegans</em> can identify bacterial pathogens using sensory neurons and activate an avoidance response that requires components of G-protein signaling pathways. We screened forty <em>C. elegans</em> strains containing mutations in chemosensory G-protein coupled receptors for altered survival on pathogen and identified <em>npr-1</em> to be required for full <em>C. elegans</em> defense against pathogens. We found that activation of the NPR-1 nervous circuit enhances host susceptibility to microbial infection while inhibition of the circuit boosts innate immunity. This data provides the first evidence that innate immunity in <em>C. elegans</em> is directly linked to the nervous system and establishes the nematode as a novel system to study neuroimmunology. From this work, we have identified <em>Y. pestis</em> virulence-related genes and <em>C. elegans</em> innate immune effector genes required for innate immunity to human bacterial pathogens.</p> en_US
dc.format.extent 3211715 bytes
dc.format.mimetype application/pdf
dc.language.iso en_US
dc.subject Biology, Molecular en_US
dc.subject Biology, Genetics en_US
dc.subject Biology, Microbiology en_US
dc.subject C. elegans en_US
dc.subject innate immunity en_US
dc.subject pathogenesis en_US
dc.subject Y. pestis en_US
dc.subject neuroimmunology en_US
dc.title Using Genetic Analysis and the Model Organism <em>Caenorhabditis Elegans</Em> to Identify Bacterial Virulence Factors and Innate Immune Defenses against Pathogens en_US
dc.type Dissertation en_US
dc.department Molecular Genetics and Microbiology en_US
duke.embargo.months 12 en_US
dc.date.accessible 2009-08-02T05:00:05Z

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