The genes encoding LigA and LigB under the control of the flgB promoter were inserted into the L. biflexa replicative Stattic solubility dmso plasmid (Figure 1A). The Patoc wild-type (wt) strain was then electrotransformed by pSLePFligA and pSLePFligB, and the spectinomycin-resistant transformants were further analyzed. Lig expression by the lig-transformed Patoc strains was verified by Western blot analysis, which showed levels of see more protein comparable to the production by a low in vitro-passaged L. interrogans virulent strain (i.e. less than 10 in vitro passages). However, blots of the ligB transformant showed partial degradation of LigB (Figure
1B). The Patoc wt, ligA, and ligB strains had similar cell growth kinetics in EMJH liquid medium,
indicating that the expression of the heterologous proteins did not affect cell growth (data not shown). Figure 1 LigA and LigB expression in L. biflexa. A. Schematic diagram of plasmid constructs used to express constitutively LigA and LigB. The determinants for replication in L. biflexa (parAB and rep), as well as a spectinomycin (SpcR)- resistance cassette is indicated. B. Western blot of whole-cell lysates of L. interrogans serovar Copenhageni strain Fiocruz L1-130 (Fiocruz wt), L. biflexa serovar Patoc strain Patoc 1 (Patoc wt), and L. biflexa serovar Patoc strain Patoc 1 electrotransformed with pSLEPFligA (Patoc ligA) and pSLEPFligB (Patoc ligB) obtained by using LigA/B antiserum. The positions of standard molecular mass markers (in kilodaltons) are indicated on the left. Surface localization of LigA and LigB in L. biflexa LigA and LigB selleck screening library proteins have been shown to be surface-exposed proteins in pathogenic Leptospira strains [11]. This was confirmed in this study with antibodies against LigA and LigB (see additional file 1: surface immunofluorescence assays in L. interrogans). Immunofluorescence studies found that antisera
to LigA and LigB did not label the surface of the Patoc wt strain but did label the surface of the ligA- and ligB-transformed Patoc Idelalisib mouse (Figure 2). The surface immunofluorescence binding assay specifically detected surface-exposed components because antiserum to whole bacteria labelled intact Patoc wt, Patoc ligA, and Patoc ligB whereas antisera to cytoplasmic heat-shock protein GroEL did not label live leptospires but was able to bind to permeabilized leptospires. LigA and LigB therefore appear to be surface-exposed when expressed in Patoc transformants carrying plasmid constructs pSLePFligA and pSLePFligB, respectively (Figure 2). Figure 2 Surface localization of LigA and LigB. Surface immunofluorescence assay was performed with L. biflexa wild-type strain (Patoc wt), and ligA- (Patoc ligA), and ligB- (Patoc ligB) L. biflexa transformants. Strains were labeled with normal rabbit serum (control) and antibodies against LigA (LigANI), LigB (LigBNI), whole leptospires, and GroEL. A DAPI counterstain was used to document the presence of leptospires.