Membrane receptors of mouse leukocytes. II. Sequential expression of membrane receptors and phagocytic capacity during leukocyte differentiation (original) (raw)
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Journal of Experimental Medicine, 1978
Ia antigens and two different types of complement (C) receptors appeared on membrane surfaces in a distinct sequence during the maturation of human neutrophils. Taking advantage of the finding that neutrophil celll density increased with maturation, density gradient centrifugation was used to separate neutrophils into fractions that were greatly enriched in cells representing individual stages of differentiation. Myeloblasts, the earliest cells recognized in the myeloid series of both normal and myelogenous leukemic individuals, expressed Ia determinants, whereas Ia determinants were absent or diminished on the majority of promyelocytes and completely undetectable on more mature granulocytes. Double marker studies demonstrated that Ia determinants were lost from the membrane of developing myeloid cells before the appearance of any type of C receptor. In the next phase of maturation defined by surface markers, neutrophils acquired a CR2-type C receptor (C3d receptor) that was similar...
Modulation of neutrophil Fc and C3b receptors
Inflammation, 1983
The effect of the interaction between human neutrophils and aggregated IgG on the expression of the receptors for the Fc portion oflgG (FcR) and for the C3b (C3R) has been investigated. Incubation of neutrophils with the appropriate concentrations of aggregated IgG at 37~ caused the loss of both the FcR and the C3R. This loss (modulation) was energy dependent (i.e., did not take place in cells incubated in the cold) and irreversible in that neutrophils did not reexpress either of the two receptors even upon prolonged incubation in vitro. The mechanisms leading to the modulation of FoR and C3R were different. FoR modulation was independent of the activation of the respiratory burst, since it occurred also in neutrophils from chronic granulomatous disease patients and was not induced by treatment of normal neutrophils with drugs such as phorbol myristate acetate (PMA), known to activate the respiratory burst. The FoR modulation was rather related to the redistribution ("capping") and endocytosis of the FcR induced by the interaction with aggregated IgG. This possibility was supported by the finding that FcR modulation was blocked by inhibitors of phagocytosis and by the observation that aggregated IgG, tagged with a fluorescent dye, were "capped" and subsequently endocytosed by metabolically active ceils. Modulation of C3R was dependent upon the activation of the respiratory burst induced by the interaction of aggregated IgG with the neutrophils. This hypothesis was also supported by the finding that the modulation of C3R was induced by treatment of the cells with PMA and did not occur in chronic granulomatous disease neutrophils treated with aggregated IgG or PMA. Furthermore the modulation of C3R was inhibited by the addition of catalase, suggesting that such modulation was consequent to the damaging effect of the oxygen active by-products on the receptor structures. In addition to the C3R modulation described above, another type of C3R loss was observed. This occurred in chronic granulomatous disease (CGD) neutrophils following interaction with the appropriate antigen-antibodycomplement complexes. In these ceils, phagocytocis of the complexes caused a concomitant modulation of the C3R that was possibly related to the redistribution and endocytosis of the C3R structures.
Development and maturation of neutrophils
Veterinary Quarterly, 1994
Inflammatory processes require the activation of immunocompetent cells. In mammals, neutrophil polymorphonuclear leukocytes (PMN) constitute one of the essential body defences against diseases. In this article knowledge of the development and maturation of neutrophils, the control of haematopoiesis and of the factors that regulate neutrophil production is reviewed. As it has recently become apparent that neutrophils can be primed by cytokines to have enhanced functional activity, the future utilization of these growth factors in bovine immunotherapy is briefly discussed.
Neutrophil Activation by Antibody Receptors
Neutrophils, 2019
Neutrophils, the most abundant leukocytes in blood, are relevant cells of both the innate and the adaptive immune system. Immunoglobulin (Ig) G antibody molecules are crucial activators of neutrophils. IgGs identify many types of pathogens via their two Fab portions and are in turn detected through their Fc portion by specific Fcγ receptors (FcγRs) on the membrane of neutrophils. Thus, antibodies bring the specificity of the adaptive immune response to the potent antimicrobial and inflammatory functions of neutrophils. Two types of FcγRs with several polymorphic variants exist on the human neutrophil. These receptors are considered to be redundant in inducing cell responses. Yet, new evidence presented in recent years on how the particular IgG subclass and the glycosylation pattern of the antibody modulate the IgG–FcγR interaction has suggested that a particular effector function may in fact be activated in response to a specific type of FcγR. In this chapter, we describe the main t...
Functional neutrophils from long-term murine bone marrow cell cultures
Journal of Immunological Methods, 1987
Murine bone marrow cell cultures that had been established for up to 26 weeks were harvested each week and found to provide functional neutrophils. Leukocytes harvested from the cultures were enriched for neutrophils using discontinuous PercoU density gradients. These cells mounted a chemiluminescence response to Proteus mirabilis in the presence of normal mouse serum (NMS). They killed several NMS-opsonised bacterial species, an activity that was blocked by a monoclonal antibody to the C3 receptor of mouse neutrophils. Cultured bone marrow neutrophils expressed both Fc and C3 receptors. C3 receptor expression could be augmented by exposure to the chemotactic peptide f-Met-Leu-Phe. We conclude that murine bone marrow cell cultures provide a useful source of functional neutrophils, and that their productivity can be sustained in long-term culture. As their receptor expression can be augmented from the resting state by exogenous stimuli, they represent a useful cell source in studies of neutrophil activation.
Different Roles of IgG and Complement Receptors in Phagocytosis by Polymorphonuclear Leukocytes
The Journal of Immunology
The functions of IgG and complement receptors in phagocytosis of immune complexes by mouse polymorphonuclear leukocytes were examined by in vitro experiments. The immune complexes were sheep red cells (E) sensitized with IgG antibody (EA) or with antibody and complement (EAC). Inhibition experiments with Fab fragments of rabbit IgG antibody anti-mouse IgG have shown that the complement receptor is primarily involved in the attachment phase, whereas participation of the IgG receptor is necessary for inducing the mechanism of phagocytosis. The possible relevance of these findings for the in vivo mechanism of defense infection, and for the control of antibody synthesis is discussed.
Journal of leukocyte biology, 1995
The high-affinity receptor for the constant region of immunoglobulin G IgG (Fc gamma RI; CD64) is virtually undetectable on mature polymorphonuclear neutrophils (PMNs) in healthy individuals but is expressed on PMNs in patients with certain infections and in patients treated with recombinant human granulocyte colony-stimulating factor (rhG-CSF). The induction of Fc gamma RI by rhG-CSF has previously been reported to result from effects on immature granulocyte progenitors. To evaluate the G-CSF effect on mature PMNs, we studied the correlation between G-CSF plasma concentration and expression of Fc gamma RI on PMNs in vivo as well as the effect of G-CSF on Fc gamma RI expression on mature PMNs in vitro. Fc gamma RI expression on PMNs correlated (R = 0.79; p < .001) with plasma concentrations of endogenous or recombinant G-CSF in healthy volunteers and in patients undergoing high-dose chemotherapy and autologous bone marrow transplantation. PMNs exhibited a unimodal distribution fo...