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Journal of Bacteriology, June 2003, p. 3499-3507, Vol. 185, No. 12
0021-9193/03/$08.00+0     DOI: 10.1128/JB.185.12.3499-3507.2003
Copyright © 2003, American Society for Microbiology. All Rights Reserved.

The ttsA Gene Is Required for Low-Calcium-Induced Type III Secretion of Yop Proteins and Virulence of Yersinia enterocolitica W22703

Committee on Microbiology, University of Chicago, Chicago, Illinois 60637

Received 3 January 2003/ Accepted 26 March 2003

Pathogenic Yersinia species use a virulence-plasmid encoded type III secretion pathway to escape the innate immune response and to establish infections in lymphoid tissues. At least 22 secretion machinery components are required for type III transport of 14 different Yop proteins, and 10 regulatory factors are responsible for activating this pathway in response to environmental signals. Although the genes for these products are located on the 70-kb virulence plasmid of Yersinia, this extrachromosomal element does not appear to harbor genes that provide for the sensing of environmental signals, such as calcium-, glutamate-, or serum-sensing proteins. To identify such genes, we screened transposon insertion mutants of Y. enterocolitica W22703 for defects in type III secretion and identified ttsA, a chromosomal gene encoding a polytopic membrane protein. ttsA mutant yersiniae synthesize reduced amounts of Yops and display a defect in low-calcium-induced type III secretion of Yop proteins. ttsA mutants are also severely impaired in bacterial motility, a phenotype which is likely due to the reduced expression of flagellar genes. All of these defects were restored by complementation with plasmid-encoded wild-type ttsA. LcrG is a repressor of the Yersinia type III pathway that is activated by an environmental calcium signal. Mutation of the lcrG gene in a ttsA mutant strain restored the type III secretion of Yop proteins, although the double mutant strain secreted Yops in the presence and absence of calcium, similar to the case for mutants that are defective in lcrG gene function alone. To examine the role of ttsA in the establishment of infection, we measured the bacterial dose required to produce an acute lethal disease following intraperitoneal infection of mice. The ttsA insertion caused a greater-than-3-log-unit reduction in virulence compared to that of the parental strain.

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