Human low-affinity IgG receptor Fc gamma RIIa (CD32) introduced into mouse fibroblasts mediates phagocytosis of sensitized erythrocytes

Multiple isoforms of human (h) Fc gamma RII are currently recognized. We set up experiments to evaluate the significance of different hFc gamma RII (CD32) isoforms in the uptake of IgG-coated particles. Therefore, a panel of stable hFc gamma RII-transfected fibroblasts was constructed to study phagocytosis. It was observed that over 40% of 3T6 fibroblasts transfected with hFc gamma RIIa cDNA phagocytose human erythrocytes (E) coated with mouse (m) IgG1 or mIgG2a (EA). This was in contrast to cells expressing a tail-minus variant of Fc gamma RII (hFc gamma RIItail-). Fibroblasts transfected with hFc gamma RIIb1 cDNA infrequently internalized EA. There was no difference in EA binding by these transfectants; all three clones formed more than 80% EA-rosettes. Uptake of particles was dependent on the degree of E sensitization, and was inhibitable by CD32 monoclonal antibody AT10. Preincubation of cells with cytochalasin D blocked internalization completely, with no effect on binding. This shows that phagocytosis underlies the observed E internalization. Immunofluorescence studies using an anticathepsin D antiserum showed the maturation of phagosomes, containing antibody- coated E, into lysosomes. In conclusion, our studies show, for the first time, that fibroblasts possess the basic machinery for ingestion of erythrocytes, and are capable of phagocytosis only when equipped with an appropriate receptor. hFc gamma RIIa and, to a lesser extent hFc gamma RIIb1, are suited for this task, which seems dictated by the cytoplasmic domain.</jats:p

Human low-affinity IgG receptor Fc gamma RIIa (CD32) introduced into mouse fibroblasts mediates phagocytosis of sensitized erythrocytes

Abstract Multiple isoforms of human (h) Fc gamma RII are currently recognized. We set up experiments to evaluate the significance of different hFc gamma RII (CD32) isoforms in the uptake of IgG-coated particles. Therefore, a panel of stable hFc gamma RII-transfected fibroblasts was constructed to study phagocytosis. It was observed that over 40% of 3T6 fibroblasts transfected with hFc gamma RIIa cDNA phagocytose human erythrocytes (E) coated with mouse (m) IgG1 or mIgG2a (EA). This was in contrast to cells expressing a tail-minus variant of Fc gamma RII (hFc gamma RIItail-). Fibroblasts transfected with hFc gamma RIIb1 cDNA infrequently internalized EA. There was no difference in EA binding by these transfectants; all three clones formed more than 80% EA-rosettes. Uptake of particles was dependent on the degree of E sensitization, and was inhibitable by CD32 monoclonal antibody AT10. Preincubation of cells with cytochalasin D blocked internalization completely, with no effect on binding. This shows that phagocytosis underlies the observed E internalization. Immunofluorescence studies using an anticathepsin D antiserum showed the maturation of phagosomes, containing antibody- coated E, into lysosomes. In conclusion, our studies show, for the first time, that fibroblasts possess the basic machinery for ingestion of erythrocytes, and are capable of phagocytosis only when equipped with an appropriate receptor. hFc gamma RIIa and, to a lesser extent hFc gamma RIIb1, are suited for this task, which seems dictated by the cytoplasmic domain.</jats:p

Detection of Fcγ receptors on human endothelial cells stimulated with cytokines tumour necrosis factor-alpha (TNF-α) and interferon-gamma (IFN-γ)

This investigation was conducted to detect Fcγ receptors (FcγR) on cytokine-stimulated human endothelial cells (EC) by measuring anti-FcγR MoAb binding with an ELISA. TNF-α and IFN-γ significantly increased the expression of FcγR type II (FcγRII) and type III (FcγRIII) on aortic EC. Simultaneous treatment with both cytokines had a synergistic effect and pretreatment of EC with IFN-γ augmented the effect of TNF-α. The greatest effect was the increase (up to four-to-six-fold) in expression of FcγRII found by the simultaneous treatment of aortic EC with both cytokines. The receptors were expressed on the cell surface and showed receptor capping after incubation at 37°C. This study showed that the inflammatory cytokines TNF-α and IFN-γ enhanced low-affinity FcγR expression on human EC in vitro. The expression of FcγR may contribute to the specific localization of circulating immune complexes on blood vessels in areas of vasculitis

FcγRIa–γ-chain complexes trigger antibody-dependent cell-mediated cytotoxicity (ADCC) in CD5+ B cell/macrophage IIA1.6 cells

Most receptors for immunoglobulins exist as multi-subunit complexes, with unique ligand binding α-chains, combined with accessory signalling (γ-, β-, or ζ-) chains. The myeloid class I receptor for IgG (FcγRIa) has been shown to be dependent on the FcR γ-chain for surface expression in vivo. In this study we assess the capacity of FcγRIa–γ-chain complexes expressed in IIA1.6 cells to trigger phagocytosis and ADCC. An intact immunoreceptor tyrosine-based activation motif (ITAM) signalling motif proved essential for triggering of biological function via the FcγRIa receptor complex. Both the FcR γ-chain and the FcγRIIa–ITAM proved active in directing phagocytosis of Staphylococcus aureus and ADCC of erythrocytes, triggered by the FcγRIa complex. The capacity of FcγRIa to trigger phagocytic and cytolytic activity by IIA1.6 cells, both considered ‘professional phagocyte’ functions, motivated us to re-evaluate the cell lineage and developmental stage of IIA1.6 cells. Although originally described as mouse B lymphocytes, the IIA1.6 cells proved positive for non-specific esterase activity and expressed the CD5 antigen. These combined characteristics place the IIA1.6 cells within a unique CD5+ B cell/macrophage lineage, optimally suited for cell biological analyses of phagocyte receptors