This superfamily appears to mediate pathogen-host cell interactio

This superfamily appears to mediate pathogen-host cell interactions, such as invasion and host cell attachment, during infection.

Several studies recently showed that recombinant Lig proteins can mediate in vitro interaction with fibronectin, fibrinogen, collagen, laminin, tropoelastin, and elastin [13–15]. Fibronectin-binding sites have also been identified in LigB [14, 16, 17] and fibronectin-binding activity was shown to be modulated by calcium [18]. In addition, lig genes are up-regulated at physiological osmolarity [52] and encode surface-exposed proteins that are strongly recognized by sera from human leptospirosis patients [11, 19, 20]. Lig proteins are also protective antigens in animal models of leptospirosis [10, 21–25]. Taken together, these data suggest that Lig proteins are major virulence factors Poziotinib research buy and may contribute to the pathogen’s ability to attach to host tissues during infection. However, additional research is essential to understanding how lig gene expression modifies this phenotype. We recently showed that the absence of LigB does

not lead to a loss of virulence and colonization in the acutely- and chronically- infected animal models [6]. This may be due to functional redundancy of other surface-exposed proteins, including LigA, Selleckchem NU7441 in the bacterium. Despite the large evolutionary distance between the pathogenic and non-pathogenic species, we have shown that the Leptospira genus shares a core of approximately 2000 genes, including those encoding the relevant export pathways [26]. The saprophyte L. biflexa

could therefore represent a good cloning host for the functional analysis of genes from poorly transformable pathogenic Leptospira. In this study, we used the non pathogen L. biflexa serovar Patoc as a surrogate host to characterize the role of LigA and LigB in leptospiral interactions with eukaryotic cells and key host extracellular matrix proteins. Results Expression of LigA and LigB in L. biflexa The saprophyte L. biflexa can be transformed at high rates with plasmids based on the LE1 replication origin, using kanamycin, spectinomycin, or gentamicin resistance as the selectable marker [8, 27, 28]. We chose the spectinomycin-resistant plasmid, pSLe94, as the backbone Branched chain aminotransferase for our system: this shuttle selleck kinase inhibitor plasmid containing the LE1 partition genes is stably maintained in L. biflexa in the absence of antibiotic selection [27]. Flagellin-encoding genes are usually both constitutively and strongly expressed. In addition, it has been reported that a kanamycin resistant cassette driven by the Borrelia burgdorferi flgB promoter is strongly expressed in B. burgdorferi [29] and in L. biflexa [4]. We therefore used the flgB promoter from B. burgdorferi to allow strong and stable expression of LigA and LigB proteins in L.

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