Abstract
β(2)-Glycoprotein I (β(2)GPI) is an abundant plasma protein that binds to the surface of cells and particles expressing negatively charged lipids, but its physiological role remains unknown. Antibodies to β(2)GPI are found in patients with anti-phospholipid syndrome, a systemic autoimmune disease associated with vascular thrombosis and pregnancy morbidity. Although it has been suggested that anti-β(2)GPI antibodies activate endothelial cells and monocytes by signaling through TLR4, it is unclear how anti-β(2)GPI antibodies and/or β(2)GPI interact with TLR4. A number of mammalian proteins (termed "endogenous Toll-like receptor (TLR) ligands") have been reported to bind to TLR4, but, in most cases, subsequent studies have shown that LPS interaction with these proteins is responsible for TLR activation. We hypothesized that, like other endogenous TLR ligands, β(2)GPI interacts specifically with LPS and that this interaction is responsible for apparent TLR4 activation by β(2)GPI. Here, we show that both LPS and TLR4 are required for β(2)GPI to bind to and activate macrophages. Untreated β(2)GPI stimulated TNF-α production in TLR4-sufficient (but not TLR4-deficient) macrophages. In contrast, neither polymyxin B-treated nor delipidated β(2)GPI stimulated TNF-α production. Furthermore, β(2)GPI bound to LPS in a specific and dose-dependent manner. Finally, untreated β(2)GPI bound to the surface of TLR4-sufficient (but not TLR4-deficient) macrophages. Polymyxin B treatment of β(2)GPI abolished macrophage binding. Our findings suggest a potential new biological activity for β(2)GPI as a protein that interacts specifically with LPS and point to the need to evaluate newly discovered endogenous TLR ligands for potential interactions with LPS.
Highlights
2-Glycoprotein I (2GPI) is an abundant plasma protein that binds to the surface of cells and particles expressing negatively charged lipids, but its physiological role remains unknown
Our findings indicate that 2GPI can activate macrophages, but only when LPS is present, and that 2GPI itself is not a ligand for TLR4
In the presence of physiological concentrations of LPS, 2GPI may act as a LPS-interacting protein and enable TLR4-dependent activation of macrophages
Summary
All chemicals were obtained commercially and used without further purification. Rat antimouse TLR4-MD2 complex (clone MTS510) and rat IgG2a isotype control antibodies were obtained from BioLegend (San Diego, CA) and eBioscience (San Diego), respectively. Murine monoclonal anti-human 2GPI (12A1-A17.3) and relevant isotype control (29J3-119) antibodies were produced in our laboratory Murine polyclonal anti-human 2GPI, anti-human PT, and anti-human GluP antibodies were produced in our laboratory R.) by immunization with the relevant protein as described for human 2GPI [19]. Anti-LPS antibody (clone WN1 222-5) was obtained from HyCult Biotechnology (Uden, The Netherlands), and the murine UPC-10 IgG2a isotype control was obtained from ICN Biomedicals Inc. Mice were maintained and bred according to Canadian Council on Animal Care (CCAC) guidelines. Both WT and TLR4-deficient mice were maintained on food and water ad libitum. All animal experiments were approved by the McGill University Animal Care Committee
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