MxiM and MxiJ, Base Elements of the Mxi-Spa Type III Secretion System of Shigella, Interact with and Stabilize the MxiD Secretin in the Cell Envelope

doi:10.1128/JB.183.24.6991-6998.2001

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Journal of Bacteriology, December 2001, p. 6991-6998, Vol. 183, No. 24
0021-9193/01/$04.00+0 DOI: 10.1128/JB.183.24.6991-6998.2001
Copyright © 2001, American Society for Microbiology. All rights reserved.

MxiM and MxiJ, Base Elements of the Mxi-Spa Type III Secretion System of Shigella, Interact with and Stabilize the MxiD Secretin in the Cell Envelope

Raymond Schuch and Anthony T. Maurelli^*

Department of Microbiology and Immunology, F. Edward Hébert School of Medicine, Uniformed Services University of the Health Sciences, Bethesda, Maryland 20814-4799

Received 30 May 2001/Accepted 19 September 2001

The type III secretion pathway is broadly distributed across many parasitic bacterial genera and serves as a mechanism fordelivering effector proteins to eukaryotic cell surface and cytosolictargets. While the effectors, as well as the host responses elicited,differ among type III systems, they all utilize a conserved setof 9 to 11 proteins that together form a bacterial envelope-associatedsecretory organelle or needle complex. The general structure ofthe needle complex consists of a transenvelope base containingat least three ring-forming proteins (MxiD, MxiJ, and MxiG inShigella) that is connected to a hollow needle-like extensionthat projects away from the cell surface. Several studies haveshown that the initial steps in needle complex assembly requireinteractions among the base proteins, although specific detailsof this process remain unknown. Here we identify a role for anotherbase element in Shigella, MxiM, in interactions with the majorouter-membrane-associated ring-forming protein, MxiD. MxiM affectsseveral features of MxiD, including its stability, envelope association,and assembly into homomultimeric structures. Interestingly, manyof the effects were also elicited by the inner-membrane-associatedbase element, MxiJ. We confirmed that MxiM-MxiD and MxiJ-MxiDinteractions occur in vivo in the cell envelope, and we presentevidence that together these base elements can form a transmembranestructure which is likely an important intermediary in the processof needle complexassembly.

^* Corresponding author. Mailing address: Department of Microbiology and Immunology, F. Edward Hébert School of Medicine, UniformedServices University of the Health Sciences, 4301 Jones BridgeRoad, Bethesda, MD 20814-4799. Phone: (301) 295-3415. Fax: (301)295-1545. E-mail: amaurelli{at}usuhs.mil.

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