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Campylobacter jejuni cyclic-di-GMP signaling and pathogenesis

Investigators
Thompson, Stuart A
Institutions
Augusta University
Start date
2020
End date
2022
Objective
ABSTRACTCampylobacter jejuni is a primary bacterial cause of gastroenteritis in the United States and throughout theworld, with 140 million cases worldwide and 1.3 million cases of C. jejuni gastroenteritis in the U.S. each year.This infection leads to >30,000 deaths annually, primarily in children <5 years old in underdeveloped countries.Most cases of C. jejuni disease are sporadic and result from contaminated food (especially poultry) andexposure to environmental waters. Some C. jejuni infections (~1/1,000) lead to the development of Guillain-Barré Syndrome, the leading cause of acute paralysis in the world. Despite the high prevalence ofCampylobacter disease and nearly 40 years of research, the mechanisms by which C. jejuni causes diseaseremain incompletely understood and severely understudied. Numerous bacteria, including human pathogens, use the second messenger cyclic-di-GMP (c-di-GMP) toregulate metabolic and virulence-related characteristics. Typically, c-di-GMP is synthesized by diguanylatecyclases (DGCs) containing GGDEF domains, and degraded by phosphodiesterases (PDEs) with EAL or HD-GYP domains. Accumulated c-di-GMP binds to diverse receptors that mediate the downstream regulatoryeffects of c-di-GMP. Bacterial c-di-GMP signaling networks can be quite complex; some bacteria have dozensof DGCs and PDEs that are thought to integrate numerous upstream signals and adjust protein expression oractivity accordingly. In contrast, the predicted C. jejuni c-di-GMP network consists of a single DGC, the bile-resistance response regulator CbrR. This is the first study of c-di-GMP signaling in C. jejuni.Overall Hypothesis: C. jejuni uses c-di-GMP signaling to modulate bile resistance, motility/chemotaxis,and biofilm formation, by means of the divergent diguanylate cyclase response regulator CbrR. We propose a detailed study of c-di-GMP-mediated gene regulation in C. jejuni, focusing on themechanism by which the diguanylate cyclase CbrR controls the expression of bile resistance,motility/chemotaxis, and biofilm formation. We will use a combination of genetic, biochemical, and RNA-Seqapproaches to achieve the goals outlined in these two specific aims: Aim 1) Define the role of CbrR-producedc-di-GMP in C. jejuni bile resistance, motility/chemotaxis, and biofilm formation; and Aim 2) Determine thegenes that are regulated by CbrR. Together, these will lay the groundwork for our long-term goal of interruptingthis novel signaling network and interrupting inter-host transmission and pathogenesis in humans.
Funding Source
Nat'l. Inst. of Allergy and Infectious Diseases
Project source
View this project
Project number
1R21AI154078-01
Accession number
154078
Categories
Bacterial Pathogens
Campylobacter