A proteomic approach to investigate the differential antigenic profile of two Coxiella burnetii strains.

Q fever is a widespread zoonosis caused by Coxiella burnetii, an obligate intracellular Gram-negative bacterium. Current diagnostics of Q fever is based on serological testing of patient serum. Biological distinction among C. burnetii strains has been referred at the genetic level as well as in virulence in animal models of Q fever. Disclosure of strain specific antigens might show insight into the biology and pathogenesis of this query pathogen, as well as it can provide the literature with potential serodiagnostic markers. In the present study, we sought to obtain an outer membrane enriched fraction of two C. burnetii reference strains, which originate from different sources, in order to investigate the way in which their antigenic profile is differentiated against a patient serum. We systematically analyzed the sarcosyl-insoluble fraction, enriched in outer membrane proteins, of the two C. burnetii strains using doubled SDS-PAGE combined with MS/MS analysis. In total, twenty-two outer membrane proteins were identified, representing 26% of the overall 86 identified proteins. The sarcosyl-insoluble fraction was then separated on 2DE IEF/SDS-PAGE and probed with serum from an infected patient. Different immuno-reactive proteins between the two C. burnetii strains were identified and included 2 outer membrane proteins, a hypothetical protein (CBU_0937) with unknown function and OmpH (CBU_0612), a previously identified marker for Q fever endocarditis. This approach can be used to reveal strain-specific proteins involved in pathogenesis and new serodiagnostic markers.