Mycoplasma synoviae infection has caused serious economic losses to the poultry industry worldwide. The molecular mechanism by which M. synoviae colonizes the synovium and induces synovitis is unclear. In this study, desthiobiotin pull-down and liquid chromatography-tandem mass spectrometry analyses were used to screen M. synoviae membrane proteins that bind the membrane proteins of synovial sheath cells (SSCs). Among the 128 screened proteins, elongation factor G (EF-G) of M. synoviae was identified as a surface-located protein using colony blotting and dual fluorescence analyses. The immunogenicity of EF-G was confirmed by the preparation of a rabbit polyclonal antibody. EF-G was identified as a cytoadhesin that directly binds to SSCs using indirect immunofluorescence assay and ELISA plate binding assay. In addition, antibody adhesion inhibition and protein adhesion inhibition demonstrated that EF-G could significantly promote the adhesion of M. synoviae to SSCs. Co-IP, GST pull-down, bacterial two-hybridization, and ELISA plate binding assays were performed to demonstrate the binding of EF-G and vimentin in vivo and in vitro. Antibody adhesion inhibition, protein adhesion inhibition, and siRNA interference adhesion inhibition assays demonstrated that vimentin significantly affected M. synoviae adhesion to SSCs. These studies indicate that two interacting proteins, EF-G, a novel cytoadhesin, and vimentin, an important cell surface receptor, play important roles in the adhesion of M. synoviae to SSCs, laying a foundation for subsequent studies on the mechanism of M. synoviae-induced synovitis and providing meaningful targets for screening target drugs against M. synoviae infection.
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