Grants and Contracts Details
Description
Yersinia pestis causes a zoonotic disease, plague, with well established reservoirs on every
inhabited continent except Australia. Although humans are an accidental, dead-end host,
bubonic and pneumonic plague has caused widespread loss of human life during recurrent
pandemics. Nearly 2,000 human plague cases occur yearly and outbreaks in Africa, South
America and Southeast Asia are common. In addition, Y. pestis is a category A select agent
with potential use for bioterrorism. The ability of pathogens to acquire iron from their hosts is a
critical requirement for the development of nearly all infectious disease processes. V. pestis
encodes a large number of proven or putative iron transport systems but the siderophore-
dependent yersiniabactin (Ybt) and Yfe systems are the most important for causing bubonic
plague. In a mouse model of bubonic plague, the Ybt system is essential in the early phases of
disease while the Yfe system plays an important role in the later stages of plague. Mutations in
ybt but not yfe affect the pathogenesis of pneumonic plague. Our studies indicate that Yfe and
Feo (a ferrous iron transporter) play somewhat redundant roles in iron uptake - mutants lacking
both systems show more severe phenotypes for in vitro growth, intracellular growth, and
pathogenesis in bubonic and pneumonic plague. All these genes are regulated by Fur and iron
availability. In addition, the Ybt system is activated by the AraC-type regulator YbtA and the Ybt
siderophore. The ultimate goals of my laboratory are to 1) genetically and biochemically
characterize the iron transport systems of V. pestis; 2) determine the mechanisms regulating
expression of these systems; 3) assess the relative importance of these systems in bubonic and
pneumonic plague; and 4) explore the potential for new antimicrobial therapies and vaccine
components based on these transport systems. In this proposal we will focus on the Ybt system.
The specific aims of this proposal are to 1) characterize Ybt regulation, 2) investigate Ybt
transport and iron utilization, and 3) examine Ybt roles in bubonic and pneumonic plague
pathogenesis.
Status | Finished |
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Effective start/end date | 7/1/93 → 11/30/15 |
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