It has been shown that endothelial cell (EC) activation and tissue factor (TF) upregulation in EC and monocytes by antiphospholipid antibodies (aPL Abs) leads to a prothrombotic state and involves translocation of nuclear factor-kappa B (NF-kappaB). Here we examined the effects of an NF-kappaB inhibitor on aPL-induced thrombosis, TF activity, and EC in vivo. We treated CD1 mice with IgG from a patient with antiphospholipid syndrome (IgG-APS) or with control IgG (IgG-NHS). The adhesion of leukocytes (number of white blood cells) to EC in cremaster muscle (as an indication of EC activation) as well as the size of an induced thrombus in the femoral vein of the mice were examined. Some mice in each group were infused with 10 microM MG132 (an inhibitor of NF-kappaB). TF activity was determined using a chromogenic assay in homogenates of carotid arteries and in peritoneal cells of mice. In vivo, IgG-APS increased significantly the number of white blood cells adhering to ECs (4.7 +/- 2.2) when compared to control mice (1.5 +/- 0.8), and these effects were significantly reduced when mice were pretreated with MG132 (0.8 +/- 0.2). IgG-APS increased significantly the thrombus size and MG132 inhibited that effect (93%). Treatment of the mice with IgG-APS also induced significantly increased TF function in peritoneal cells and in homogenates of carotid arteries. Pretreatment of the mice with MG132 abrogated those effects significantly. Mice injected with IgG-APS or with IgM-APS with or without the inhibitor had medium-high titers of anticardiolipin antibodies in serum at the time of the surgical procedures. The data show that prothrombotic and proinflammatory properties of IgG-APS and IgM-APS are downregulated in vivo by an NF-kappaB inhibitor. These findings may be important in designing new modalities of targeted therapies to treat thrombosis in patients with APS.
Recent findings indicate that complement activation--involving specifically C3 and C5--contributes to antiphospholipid (aPL)-mediated thrombosis. Two complement effector pathways are initiated by the cleavage of C5, C5a and C5b, which leads to the formation of the C5b-9 membrane attack complex. To delineate and distinguish the role of C5a from the C5b-9 membrane attack complex seeded by C5b, we examined the in vivo effects (thrombosis) of aPL on C5a receptor-deficient (C5aR-/-) mice. C5aR-/- and C5aR+/+ mice were injected with IgM or with IgG from two different patients with APS (IgM-APS or IgG-APS) or with control IgM or IgG (IgM-NHS or IgG-NHS) twice. Complement fixing activity of the Ig fractions and anticardiolipin activity in the sera of the mice were determined by enzyme-linked immunosorbent assay. Surgical procedures to study thrombus dynamics were performed. IgM-APS but not IgG-APS fixed C1q to cardiolipin-coated plates. IgM-APS significantly enhanced thrombus size in C5aR+/+ mice compared to C5aR+/+ mice treated with IgM-NHS (3198 +/- 2361 microm2 versus 585 +/- 460 microm2). C5aR-/- mice treated with IgM-APS showed a significant reduction in thrombi size as compared with C5aR+/+ mice (676 +/- 690 microm2 versus 3198 +/- 2361 microm2; P = 0.001). IgG-APS enhanced thrombus formation significantly in C5aR+/+ when compared to IgG-NHS-treated mice (3507 +/- 965 microm2 versus 1321 +/- 798 microm2), and these effects were not altered in C5aR-/- mice (3400 +/- 1681 microm2). The data indicate that C5aR-/- mice are protected from the thrombogenic effects of some aPL antibodies.
Autoimmune diseases (ADs) such as systemic lupus erythematosus (SLE) and rheumatoid arthritis are chronic and life‐threatening disorders. Despite high prevalence of these diseases, molecular mechanisms underlying systemic autoimmune response remain largely unknown. Previous studies in our laboratory using an autoimmune‐prone MRL+/+ mice suggested an association between oxidative/nitrosative stress and autoimmunity. However, relevance of oxidative/nitrosative stress in disease prognosis and pathogenesis in humans is not understood. To investigate the status of oxidative/nitrosative stress in ADs, sera from 20 SLE patients and 20 age‐ and gender‐matched healthy subjects (controls) were evaluated for oxidative/nitrosative stress markers. Serum analysis showed not only higher levels of both anti‐malondialdehyde (MDA) and anti‐4‐hydroxynonenal (HNE)‐protein adduct antibodies, reflecting increased formation of lipid peroxidation‐derived aldehydes (MDA and HNE) and their conjugation to endogenous proteins. Serum Cu/Zn superoxide dismutase (an antioxidant enzyme) levels were significantly reduced in patients with SLE compared to controls, suggesting a compromised antioxidant balance. Furthermore, sera from SLE patients had significantly higher levels of iNOS and nitrotyrosine, suggesting nitrosative stress in these patients. These findings further support an association between oxidative/nitrosative stress and SLE, and suggest that oxidative/nitrosative stress markers may be useful in evaluating the prognosis of SLE as well as in elucidating the mechanisms of disease pathogenesis.
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