Abstract

Shigella spp. continue to be a leading cause of dysentery and diarrhea annually worldwide. Shigella is unique among Gram-negative enteric pathogens in that it accesses the cytoplasm of host cells and assembles actin into long tails, which propel bacterial spread through tissues. The investigators have previously shown that the Shigella outer membrane protein IcsA is sufficient for actin assembly and that IcsA is localized to a single pole of the bacillus. The molecular mechanisms involved in the unipolar localization of IcsA are unknown. Their data demonstrate that IcsA is directly targeted to the bacterial pole. In conjunction with this, they have developed constructs that provide the tools necessary to directly address the molecular mechanisms of unipolar targeting of IcsA, a major goal of this proposal. In contrast, IcsA that is uniformly distributed over the surface of certain E. coli strains is able to mediate actin tail assembly without capping of the IcsA. This proposal also specifically addresses the function of unipolar localization of IcsA in Shigella pathogenesis, which they are now in a position to test critically.
The Specific Aims of this proposal are: (1) the identification and characterization of residues and domains of IcsA required for its unipolar localization; (2) the identification of Shigella proteins that directly interact with IcsA and analysis of their potential role in IcsA unipolar localization; and (3) an assessment of the role of IcsA unipolarity in Shigella pathogenesis. This application proposes to obtain information that will provide insight into the molecular mechanisms of unipolar targeting of the S. flexneri virulence factor IcsA. Further, their studies will elucidate the role of IcsA unipolarity in the pathogenesis and virulence of Shigella. Finally, their studies will likely provide insight into the fundamental mechanisms that mediate three-dimensional targeting of proteins in bacteria and the molecular characteristics of the bacterial old pole that distinguish it from the new pole and the sides of the bacillus.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Institute of Allergy and Infectious Diseases (NIAID)
Type
Research Project (R01)
Project #
5R01AI035817-08
Application #
6475699
Study Section
Bacteriology and Mycology Subcommittee 2 (BM)
Program Officer
Schmitt, Clare K
Project Start
1994-08-01
Project End
2002-01-02
Budget Start
2001-12-01
Budget End
2002-01-02
Support Year
8
Fiscal Year
2002
Total Cost
$340,063
Indirect Cost

  Institution

Name
Massachusetts General Hospital
Department
Type
DUNS #
City
Boston
State
MA
Country
United States
Zip Code
02199

  Publications

Li, Zaoping; Boyd, Dana; Reindl, Martin et al. (2014) Identification of YidC residues that define interactions with the Sec Apparatus. J Bacteriol 196:367-77
Gray, Andrew N; Li, Zaoping; Henderson-Frost, Josephine et al. (2014) Biogenesis of YidC cytoplasmic membrane substrates is required for positioning of autotransporter IcsA at future poles. J Bacteriol 196:624-32
Fixen, Kathryn R; Janakiraman, Anuradha; Garrity, Sean et al. (2012) Genetic reporter system for positioning of proteins at the bacterial pole. MBio 3:
Gray, Andrew N; Henderson-Frost, Josephine M; Boyd, Dana et al. (2011) Unbalanced charge distribution as a determinant for dependence of a subset of Escherichia coli membrane proteins on the membrane insertase YidC. MBio 2:
Wagner, Jennifer K; Heindl, Jason E; Gray, Andrew N et al. (2009) Contribution of the periplasmic chaperone Skp to efficient presentation of the autotransporter IcsA on the surface of Shigella flexneri. J Bacteriol 191:815-21
Janakiraman, Anuradha; Fixen, Kathryn R; Gray, Andrew N et al. (2009) A genome-scale proteomic screen identifies a role for DnaK in chaperoning of polar autotransporters in Shigella. J Bacteriol 191:6300-11
Edgar, Rotem; Rokney, Assaf; Feeney, Morgan et al. (2008) Bacteriophage infection is targeted to cellular poles. Mol Microbiol 68:1107-16
Jain, Sumita; Goldberg, Marcia B (2007) Requirement for YaeT in the outer membrane assembly of autotransporter proteins. J Bacteriol 189:5393-8
Jain, Sumita; van Ulsen, Peter; Benz, Inga et al. (2006) Polar localization of the autotransporter family of large bacterial virulence proteins. J Bacteriol 188:4841-50
Wing, Helen J; Goldman, Seth R; Ally, Shabeen et al. (2005) Modulation of an outer membrane protease contributes to the virulence defect of Shigella flexneri strains carrying a mutation in the virK locus. Infect Immun 73:1217-20

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