Resumo

IntroductionLeptospirosis is a zoonosis of global distribution, with higher incidence in tropical areas. The bacteria that cause the disease belong to the genus Leptospira, family Leptospiracea and order Spirochaetales. Leptospirosis is maintained in nature by persistent colonization of proximal renal tubules of carrier animals. One strategy adopted by these spirochetes to escape from host´s innate immune system is the ability to interact with the complement regulators Factor H (FH) and C4b Binding Protein (C4BP). The complement system is a vital component of the innate immune system, being crucial for host´s defense, particularly against Gram-negative bacteria. According to our recent published data, C4BP interacts with the leptospiral surface protein LcpA. This 20 kDa outer membrane protein binds both purified and serum C4BP in a dose-dependent manner. Once bound, C4BP remains functional acting as a cofactor for Factor I in the cleavage of C4b.Objetives In the present study we evaluated the interaction of LcpA with human FH, the main soluble regulator of the alternative pathway of complement. Materials and Methods The intact protein as well as its N-terminal, intermediate and C-terminal portions were purified by metal-affinity chromatography from the insoluble pellet. The interaction of these proteins with FH was evaluated by two distinct methods: ELISA and Western blot overlay. Results Our results indicate that the C-terminal domain of LcpA mediates interaction with FH, and also with C4BP. Since both complement regulators interact with the same fragment of LcpA, we next performed competition assays to assess if they would share binding sites. According to our data, FH and C4BP have distinct binding sites on LcpA. Cofactor activity of FH bound to immobilized LcpA was confirmed by detecting the C3b α' chain cleavage fragments of 46 and 43 kDa upon incubation with Factor I, thus indicating that it remains functionally active. Given the LcpA´s role in host´s innate immune evasion, we also evaluated its vaccine potential in a hamster model. Data from three challenge assays indicated that the protein can not afford protection. Low ELISA antibody titers of hamsters immunized with LcpA were observed, which strongly suggests that this protein is not immunogenic. In conclusion, LcpA interacts with host´s molecules and seems to contribute to the bacterial immune evasion. Nevertheless, this outer membrane protein is not a promising vaccine candidate against leptospirosis.