Dissertation
Identifying intracellular roles of the Salmonella invasion-associated injectisome
Doctor of Philosophy (PhD), Washington State University
01/2018
Handle:
https://hdl.handle.net/2376/16408
Abstract
Intracellular pathogens either reside within host-derived vacuoles or escape this compartment to inhabit the cytosol. Why some bacteria lyse their internalization vacuole and others cannot remains enigmatic in Gram-negative bacteria. One prevalent virulence factor Gram-negative pathogens possess is the type III injectisome, a molecular syringe that translocates bacterial proteins into target host cells. Several pathogens, including Salmonella, require this injectisome to invade epithelial cells. Though classically regarded as a vacuolar pathogen, a subset of Salmonella escape the vacuole in epithelial cells and proliferate in the cytosol. We hypothesized that the invasion-associated injectisome also influences intracellular residence of Salmonella. To overcome the dependency of bacterial internalization on the invasion-associated injectisome, we used two genetic approaches. First, we genetically replaced the injectisome proteins that directly interface with host cell membranes with those from related bacteria that have diverse intracellular lifestyles. This led to the identification of orthologs that restore Salmonella invasion, but alter the efficiency of nascent vacuole escape. We also genetically engineered a chemically inducible injectisome that complements Salmonella invasion, but is non-functional once bacteria have entered host cells. This strain implicated the invasion-associated injectisome in cytosolic proliferation of Salmonella, specifically through the actions of two type III effectors. Altogether, these genetic tools have identified that the invasion-associated injectisome is required for multiple intracellular steps in the Salmonella infectious cycle - escape from the internalization vacuole, cytosolic proliferation and cellular egress.
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Details
- Title
- Identifying intracellular roles of the Salmonella invasion-associated injectisome
- Creators
- Jessica Abbey Klein
- Contributors
- Leigh Knodler (Advisor)Hector Aguilar-Carreno (Committee Member)Douglas Call (Committee Member)Michael Konkel (Committee Member)Meijun Zhu (Committee Member)
- Awarding Institution
- Washington State University
- Academic Unit
- College of Veterinary Medicine
- Theses and Dissertations
- Doctor of Philosophy (PhD), Washington State University
- Number of pages
- 197
- Identifiers
- 99900581622501842
- Language
- English
- Resource Type
- Dissertation