To date, several leptospiral ECM binding adhesins have been described [6–18]. After the adhesion, pathogens have to overcome tissue barriers in order to reach blood circulation and organs. We have reported that leptospires have the ability of binding PLG at their surface and that plasmin (PLA) can be generated in the presence of activator [19]. In addition, Verma and colleagues [20] and our group have described several leptospiral proteins as PLG – binding receptors [17, 18, 21]. More recently, we have reported that PLA generation on Leptospira decreased opsonization and that it might be an important aspect
of the immune escape strategy and GSI-IX research buy survival [22]. L. interrogans serovar Copenhageni genome SN-38 in vivo annotation identified many unknown coding sequences predicted to be surface exposed proteins. Characterization
of these proteins, with no previously assigned function, should increase our understanding of this intriguing pathogen’s biology. In this work, we present our studies with two leptospiral coding sequences, LIC11834 and LIC12253, named Lsa33 and Lsa25, respectively. The genes were cloned and the proteins expressed using E. coli. The recombinant proteins were purified and their ability to bind various ECM and serum components was evaluated. We report that these proteins are novel surface adhesins capable of binding to laminin. In addition, Lsa33 can also interact to PLG and both proteins bind the complement regulator of the classical pathway C4bp. We believe that these proteins are likely to be involved in Leptospira – host interactions. Results Bioinformatic
analysis The selected coding eFT-508 ic50 sequences, LIC11834 and LIC12253, are genome annotated as hypothetical proteins, and one of them, LIC11834, is a putative lipoprotein, having lipoprotein signal peptide (signal peptidase II) and a cleavage site between amino acids 17–18. According to SMART web server, LIC11834 has a signal peptide from 1 to 21 amino acids and a FecR domain from amino acid 60 to 162. PFAM predicts that this domain is involved in regulation of iron dicitrate transport and that FecR is probably a sensor that recognizes iron dicitrate in the periplasm. 3-mercaptopyruvate sulfurtransferase LIC12253 presents a signal peptide from amino acid 1 to 21 and a DUF1566 (Domain of Unknown Function) from amino acid 58 to 164 [23, 24]. The LIC11834 coding sequence can be classified as alpha – beta protein, being the percentage of 36.57 for alpha-helix and 29.13 for beta strands secondary structure. In the case of coding sequence LIC12253, the protein can be classified as mixed, having a predicted secondary structure composition percent of 11.01, 19.38 and 69.60 for alpha – helix, beta strands and others, respectively. Cellular localization predicts as extra – cellular (non-cytoplasmic branch) for both proteins. The solvent accessibility composition (core/surface ratio) for the CDs LIC11834 and LIC12253 is expected to be 59.87 and 66.