The bacterial cells of a culture and the extracellular medium were separated in their different compartments as described in Materials and methods and CtpA was detected in the subcellular fractions by Western blot. CtpA could not be determined in fractionations prepared from the P. aeruginosa PAO1 wild-type strain after overnight culture in liquid media (data not shown). Variation of culture conditions such as different growth times and increased temperature also did not result in CtpA detection. This was probably due
to an extremely low redundancy of the protein, which may be only expressed in very low amounts or may only be present for a short time during the cell cycle in concentrations below the detection limit. Therefore,
an expression vector was constructed containing the coding sequence of the PA5134 Selleckchem ALK inhibitor ORF, without the putative promoter region but maintaining the ribosome-binding site and the signal peptide. The coding region was under transcriptional control of the lac promoter which is constitutively transcribed in P. aeruginosa resulting in a moderate overexpression (Rosenau & Jaeger, 2004). When P. aeruginosa harbouring this plasmid was grown for 4 h and fractionated afterwards, Western blot analysis showed that RG7422 in vitro CtpA was clearly detectable and resided exclusively in the periplasmic fraction (Fig. 2). The extracellular protein exotoxin A and the periplasmic protein DsbA detected with the respective specific antisera served as controls (Lory et al., 1983; Urban et al., 2001). Lane 1 of Fig. 2 represents the protein from whole cells and demonstrates that CtpA was expressed and could
be detected with the peptide-specific antibodies. CtpA showed the same distribution within the fractions as the known periplasmic protein DsbA (lane 3). Moreover, CtpA was not detected in the cytoplasmic fraction or in the membrane fraction, as lanes 4 and 5 indicate. The first localization study of Hara et al. (1991) in maxicells found that Prc was primarily present in the cytoplasmic membrane and periplasm. Silber et al. (1992) later identified Prc in the periplasm and membrane fractions. In our experiments, P. aeruginosa CtpA was present only in the periplasm, indicating that the presence of Prc found in the nonperiplasmic fraction of the former studies is likely due Carnitine palmitoyltransferase II to the artificial amounts of the protease present due to overexpression, as suggested by the authors. Lane 5 shows that no extracellular CtpA was present, whereas exotoxin A in lane 5 was solely detected in the extracellular fraction, as expected. A CTP from C. trachomatis, Tsp, was able to interfere with the NF-κB pathway by cleaving the p65 protein of the host immune system after expression in a human cell line, as shown in a recent study (Lad et al., 2007). Those authors considered these results as indicating a role for Tsp in a mechanism to evade the host immune system, which is obligate for intracellular pathogens as C. trachomatis.