Assessment of the regions within complement regulator-acquiring surface protein (CRASP)-2 of Borrelia burgdorferi required for interaction with host immune regulators FHL-1 and factor H

The ability of Borrelia burgdorferi sensu lato to survive and persist in a variety of vertebrate hosts is a multifactorial process. Several potential mechanisms of immune evasion have been identified. We have shown that some Borrelia species bind host-derived fluid-phase immune regulators FHL-1 and factor H to their surface via complement regulator-acquiring surface proteins (CRASPs). Factor H and FHL-1 serve as cofactors for factor I, a serine protease that cleaves C3b directly on the cell surface and thereby confers resistance of spirochetes to complement-mediated lysis. Among the CRASP molecules produced by B. burgdorferi, BbCRASP-2 represents a novel FHL-1 and factor H binding protein that is distinct from other borrelial CRASP molecules and is predominantly expressed by serum-resistant Borrelia strains. The aim of this study was to identify BbCRASP-2 determinants required for FHL-1 and factor H binding. A number of recombinant BbCRASP-2 mutants were generated by in vitro mutagenesis and tested for factor H and FHL-1 binding employing ELISA. Up to 8 amino acid substitutions in the proposed binding regions 2 and 3 of BbCRASP-2 resulted in reduced or complete loss of FHL-1 and/or factor H binding. These results suggest that the factor H/FHL-1 binding regions are discontinuous and long distance interaction is involved in binding of both immune regulators. Furthermore, putative coiled-coil structural elements as recently discussed to be important in the interaction of BbCRASP-1 with factor H seem to play a subordinate role for binding of BbCRASP-2 to FHL-1 and factor H. The elucidation of host–pathogen interactions will help to develop novel therapeutic strategies against Lyme disease/borreliosis.