Abstract
Antibody-mediated blood disorders ensue after auto- or alloimmunization against blood cell antigens, resulting in cytopenia. Although the mechanisms of cell destruction are the same as in immunotherapies targeting tumor cells, many factors are still unknown. Antibody titers, for example, often do not strictly correlate with clinical outcome. Previously, we found C-reactive protein (CRP) levels to be elevated in thrombocytopenic patients, correlating with thrombocyte counts, and bleeding severity. Functionally, CRP amplified antibody-mediated phagocytosis of thrombocytes by phagocytes. To investigate whether CRP is a general enhancer of IgG-mediated target cell destruction, we extensively studied the effect of CRP on in vitro IgG-Fc receptor (FcγR)-mediated cell destruction: through respiratory burst, phagocytosis, and cellular cytotoxicity by a variety of effector cells. We now demonstrate that CRP also enhances IgG-mediated effector functions toward opsonized erythrocytes, in particular by activated neutrophils. We performed a first-of-a-kind profiling of CRP binding to all human FcγRs and IgA-Fc receptor I (FcαRI) using a surface plasmon resonance array. CRP bound these receptors with relative affinities of FcγRIa = FcγRIIa/b = FcγRIIIa > FcγRIIIb = FcαRI. Furthermore, FcγR blocking (in particular FcγRIa) abrogated CRP's ability to amplify IgG-mediated neutrophil effector functions toward opsonized erythrocytes. Finally, we observed that CRP also amplified killing of breast-cancer tumor cell line SKBR3 by neutrophils through anti-Her2 (trastuzumab). Altogether, we provide for the first time evidence for the involvement of specific CRP-FcγR interactions in the exacerbation of in vitro IgG-mediated cellular destruction; a trait that should be further evaluated as potential therapeutic target e.g., for tumor eradication.
Highlights
Individuals with immune cytopenias have deficiencies in one or more blood cell types due to destruction by Tcells and/or myeloid and natural killer (NK) cells through opsonization by antibodies that target blood cell antigens
To dissect its working mechanism and to investigate whether C-reactive protein (CRP) is a general enhancer of cellular destruction, we extensively investigated the influence of CRP on in vitro IgG-mediated erythrocyte destruction focusing on FcγR-mediated effector functions performed by different effector cell types
PMNs only showed respiratory burst activity toward opsonized erythrocytes after stimulation with IFN-γ and granulocyte colony-stimulating factor (G-CSF) mimicking inflammatory conditions (Figure 1C), causing PMN activation and upregulation of FcγRIa (Supplementary Figure 1). This treatment slightly decreased FcγRIIa levels on PMN surfaces, as well as FcγRIIIb levels, which is in full agreement with previous studies [52, 56] (Supplementary Figure 1), whilst expression of FcαRI is known to be unaffected [57]
Summary
Individuals with immune cytopenias have deficiencies in one or more blood cell types due to destruction by Tcells and/or myeloid and natural killer (NK) cells through opsonization by antibodies that target blood cell antigens. In immune-thrombocytopenic or -hemolytic patients, respectively, thrombocytes or erythrocytes are destroyed through autoantibodies (immune thrombocytopenia [ITP] and autoimmune hemolytic anemia [AIHA]) or alloantibodies (fetal or neonatal alloimmune thrombocytopenia [FNAIT], or hemolytic disease of the fetus or newborn [HDFN] and adverse transfusion reactions). These pathological antibodies comprise mainly immunoglobulin M (IgM) and IgG. In patients suffering from transfusion-related acute lung injuries (TRALI), CRP was found to be increased and to aggravate TRALI in vivo in mice [8, 9] Missing from these studies, was a functional link explaining how CRP mediates these enhanced effector functions and through which receptors
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