Affiliation:
1. Department of Microbiology and Immunology, Northwestern University Medical School, Chicago, Illinois 60611
Abstract
ABSTRACT
Legionella pneumophila
, the gram-negative agent of Legionnaires' disease, possesses type IV pili and a type II protein secretion (Lsp) system, both of which are dependent upon the PilD prepilin peptidase. By analyzing multiple
pilD
mutants and various types of Lsp mutants as well as performing
trans
-complementation of these mutants, we have confirmed that PilD and type II secretion genes are required for
L. pneumophila
infection of both amoebae and human macrophages. Based upon a complete analysis of
lspDE
,
lspF
, and
lspG
mutants, we found that the type II system controls the secretion of protease, RNase, lipase, phospholipase A, phospholipase C, lysophospholipase A, and tartrate-sensitive and tartrate-resistant acid phosphatase activities and influences the appearance of colonies. Examination of the developing
L. pneumophila
genome database indicated that the organism has two other loci (
lspC
and
lspLM
) that are predicted to promote secretion and thus a set of genes that is comparable to the type II secretion genes in other gram-negative bacteria. In contrast to
lsp
mutants,
L. pneumophila
pilus mutants lacking either the PilQ secretin, the PspA pseudopilin, or pilin were not defective for colonial growth, secreted activities, or intracellular replication.
L. pneumophila dot/icm
mutants were also not impaired for type II-dependent exoenzymes. Upon intratracheal inoculation into A/J mice,
lspDE
,
lspF
, and
pilD
mutants, but not pilus mutants, exhibited a reduced ability to grow in the lung, as measured by competition assays. The
lspF
mutant was also defective in an in vivo kinetic assay. Examination of infected mouse sera revealed that type II secreted proteins are expressed in vivo. Thus, the
L. pneumophila
Lsp system is a virulence factor and the only type II secretion system linked to intracellular infection.
Publisher
American Society for Microbiology
Subject
Infectious Diseases,Immunology,Microbiology,Parasitology
Cited by
128 articles.
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