Abstract
BackgroundB. burgdorferi sensu lato (sl) is the etiological agent of Lyme borreliosis in humans. Spirochetes have adapted themselves to the human immune system in many distinct ways. One important immune escape mechanism for evading complement activation is the binding of complement regulators Factor H (CFH) or Factor H-like protein1 (FHL-1) to Complement Regulator-Acquiring Surface Proteins (CRASPs).ResultsWe demonstrate that B. garinii OspA serotype 4 (ST4) PBi resist complement-mediated killing by binding of FHL-1. To identify the primary ligands of FHL-1 four CspA orthologs from B. garinii ST4 PBi were cloned and tested for binding to human CFH and FHL-1. Orthologs BGA66 and BGA71 were found to be able to bind both complement regulators but with different intensities. In addition, all CspA orthologs were tested for binding to mammalian and avian CFH. Distinct orthologs were able to bind to CFH of different animal origins.ConclusionsB. garinii ST4 PBi is able to evade complement killing and it can bind FHL-1 to membrane expressed proteins. Recombinant proteins BGA66 can bind FHL-1 and human CFH, while BGA71 can bind only FHL-1. All recombinant CspA orthologs from B. garinii ST4 PBi can bind CFH from different animal origins. This partly explains the wide variety of animals that can be infected by B. garinii.
Highlights
B. burgdorferi sensu lato is the etiological agent of Lyme borreliosis in humans
Summarising B. garinii serotype 4 (ST4) PBi and B. burgdorferi ss B31 are resistant to human serum when incubated with active human complement, while B. garinii non-ST4 VSBP is not human serum resistant
The detection of the membrane attack complex deposited on borrelial cells after complement activation To test whether membrane attack complex (MAC) was formed on the surface of different strains after complement activation, spirochetes were incubated with 25% serum and deposition of the MAC was detected by immuno-fluorescence microscopy (IF) (Fig 2)
Summary
B. burgdorferi sensu lato (sl) is the etiological agent of Lyme borreliosis in humans. Borrelia burgdorferi sensu lato (sl), the etiologic agent of Lyme borreliosis, is a genetically diverse species. B. garinii OspA serotype 4 (ST4) strains, a genetically homogenous group, are frequently observed as a causative agent of neuroborreliosis in adults in Europe [3,4,5,6]. It has been proposed, though not yet generally accepted, to delineate the B. garinii ST4 strains as a separate species, B. bavariensis, due to large differences. Among B. garinii, the ST4 strains showed a similar resistant profile as B. burgdorferi ss and B. afzelii [8,9,10]
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