Abstract

The anaerobic organism, Bacteroides fragilis is exceptionally resistant to the toxic effects of oxygen and other oxidative stress. This resistance can be attributed to induction of an oxidative stress response (OSR) and this response will be studied to document its role in the pathogenesis of Bacteroides fragilis infection. It is expected that new mechanisms of free radical protection and novel antioxidant defense strategies will be uncovered. This idea is supported by the fact that B. fragilis diverged very early from other eubacteria and has independently evolved the ability to survive extended exposure to oxygen. Further, since this is an anaerobe, it is likely to have stringent requirements for oxygen protection that have resulted in the development of unique highly protective antioxidants. The long term goals of this research are to understand the basic physiological and genetic processes responsible for tolerance of B. fragilis to oxidative stress and to determine how these contribute to virulence. The objectives for this proposal are: 1) Define and characterize the OSR at the protein and genetic levels. Initially, attention will focus on a subset of the OSR, resistance to H2O2 and peroxides (HPR). A set of HPR genes will be cloned and analyzed, and these data will be used to establish a catalog of HPR proteins expressed during the course of oxidative stress. 2) Regulation of the HPR regulon will be studied initially using a model system employing the catalase gene, katB. This will focus on transcriptional regulation and the identification of oxidative stress regulatory molecules. The system will be expanded to include the HPR genes as they become available. 3) Determine the effect of specific mutations in HPR-controlled genes on survival to oxidative stress. Mutants in one or more of these genes will be constructed by allelic exchange and tested for their ability to survive various forms of oxidative stress. Mutants will be subjected to a variety of biochemical tests to determine their mechanism of protection e.g. DNA repair or macromolecule protection. 4) The regulator responsible for control of the HPR regulon will be cloned and its role in the overall OSR will be determined.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Institute of Allergy and Infectious Diseases (NIAID)
Type
Research Project (R01)
Project #
5R01AI040588-03
Application #
6328746
Study Section
Bacteriology and Mycology Subcommittee 2 (BM)
Program Officer
Anderson, James J
Project Start
1998-12-01
Project End
2002-11-30
Budget Start
2000-12-01
Budget End
2001-11-30
Support Year
3
Fiscal Year
2001
Total Cost
$183,866
Indirect Cost

  Institution

Name
East Carolina University
Department
Microbiology/Immun/Virology
Type
Schools of Medicine
DUNS #
City
Greenville
State
NC
Country
United States
Zip Code
27858

  Publications

Betteken, Michael I; Rocha, Edson R; Smith, C Jeffrey (2015) Dps and DpsL Mediate Survival In Vitro and In Vivo during the Prolonged Oxidative Stress Response in Bacteroides fragilis. J Bacteriol 197:3329-38
Cao, Yanlu; Rocha, Edson R; Smith, C Jeffrey (2014) Efficient utilization of complex N-linked glycans is a selective advantage for Bacteroides fragilis in extraintestinal infections. Proc Natl Acad Sci U S A 111:12901-6
Veeranagouda, Yaligara; Husain, Fasahath; Boente, Renata et al. (2014) Deficiency of the ferrous iron transporter FeoAB is linked with metronidazole resistance in Bacteroides fragilis. J Antimicrob Chemother 69:2634-43
Nicholson, Samantha A; Smalley, Darren; Smith, C Jeffrey et al. (2014) The recA operon: A novel stress response gene cluster in Bacteroides fragilis. Res Microbiol 165:290-9
Ndamukong, Ivan C; Gee, Jason; Smith, C Jeffrey (2013) The extracytoplasmic function sigma factor EcfO protects Bacteroides fragilis against oxidative stress. J Bacteriol 195:145-55
Rocha, Edson R; Smith, C Jeffrey (2013) Ferritin-like family proteins in the anaerobe Bacteroides fragilis: when an oxygen storm is coming, take your iron to the shelter. Biometals 26:577-91
Lobo, Leandro A; Jenkins, Audrey L; Jeffrey Smith, C et al. (2013) Expression of Bacteroides fragilis hemolysins in vivo and role of HlyBA in an intra-abdominal infection model. Microbiologyopen 2:326-37
Parker, Anita C; Jeffrey Smith, C (2012) Development of an IPTG inducible expression vector adapted for Bacteroides fragilis. Plasmid 68:86-92
Gauss, George H; Reott, Michael A; Rocha, Edson R et al. (2012) Characterization of the Bacteroides fragilis bfr gene product identifies a bacterial DPS-like protein and suggests evolutionary links in the ferritin superfamily. J Bacteriol 194:15-27
Lobo, Leandro A; Smith, Charles J; Rocha, Edson R (2011) Flavin mononucleotide (FMN)-based fluorescent protein (FbFP) as reporter for gene expression in the anaerobe Bacteroides fragilis. FEMS Microbiol Lett 317:67-74

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