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Analysis of the Actinobacillus pleuropneumoniae HlyX (FNR) regulon and identification of iron‐regulated protein B as an essential virulence factor
Author(s) -
Buettner Falk F. R.,
Bendalla Ibrahim M.,
Bossé Janine T.,
Meens Jochen,
Nash John H. E.,
Härtig Elisabeth,
Langford Paul R.,
Gerlach GeraldF.
Publication year - 2009
Publication title -
proteomics
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.26
H-Index - 167
eISSN - 1615-9861
pISSN - 1615-9853
DOI - 10.1002/pmic.200800439
Subject(s) - virulence , biology , actinobacillus pleuropneumoniae , microbiology and biotechnology , regulon , virulence factor , mutant , gene , pathogen , genetics , serotype
The Gram‐negative rod Actinobacillus pleuropneumoniae is a facultative anaerobic pathogen of the porcine respiratory tract, and HlyX, the A. pleuropneumoniae homologue of fumarate and nitrate reduction regulator (FNR), has been shown to be important for persistence. An A. pleuropneumoniae hlyX deletion mutant has a decreased generation time but highly prolonged survival in comparison to its wild type parent strain when grown anaerobically in glucose‐supplemented medium. Applying a combination of proteomic and transcriptomic approaches as well as in silico analyses, we identified 23 different proteins and 418 genes to be modulated by HlyX (≥ twofold up‐ or down‐regulated). A putative HlyX‐box was identified upstream of 54 of these genes implying direct control by HlyX. Consistent with its role as a strong positive regulator, HlyX induced the expression of genes for anaerobic metabolism encoding alternative terminal reductases and hydrogenases. In addition, expression of virulence‐associated genes encoding iron uptake systems, a putative DNA adenine modification system, and an autotransporter serine protease were induced by HlyX under anaerobic growth conditions. With respect to virulence‐associated genes, we focused on the iron‐regulated protein B (FrpB) as it is the outer membrane protein most strongly up‐regulated by HlyX. An frpB deletion mutant of A. pleuropneumoniae had the same growth characteristics as wild type grown aerobically and anaerobically. In contrast, A. pleuropneumoniae Δ frpB did not cause any disease and could not be re‐isolated from experimentally infected pigs, thereby identifying FrpB as a previously unknown virulence factor.

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