PMA induces the ligand-independent internalization of CR1 on human neutrophils

Phorbol myristate acetate (PMA) has been reported to confer on the C3b receptor (CR1) of neutrophils a capacity for phagocytosis of particles bearing C3b without the involvement of other membrane receptors. In the present study, we employed a monoclonal antibody, YZ-1, that is specific for CR1 to assess the effect of PMA on plasma membrane expression of CR1, total cellular CR1, and internalization of CR1 by neutrophils. PMA had a biphasic effect on the membrane expression of CR1 by purified neutrophils, with 4 ng/ml inducing a 60% increment in receptor expression, and higher concentrations causing up to a 70% decrement. PMA-dependent increases in CR1 expression were not accompanied by corresponding changes in total cellular CR1 and were preempted by treatment of cells with formyl-methionyl-leucyl-phenylalanine (FMLP). PMA-induced decreases in CR1 expression by neutrophils, as measured by binding of indirectly fluoresceinated or radiolabeled YZ-1, or of 125I-labeled dimeric C3b, were maximal with 20 to 30 ng/ml PMA, and occurred within 30 min of incubation at 37 degrees C. The PMA-dependent down-regulation of CR1 by neutrophils was not associated with a comparable decrease in total cellular CR1, and this response was observed to occur also with monocytes but not with peripheral blood lymphocytes. By tagging neutrophil CR1 with 125I-YZ-1 Fab and monitoring accessibility to Protease, intracellular CR1 (inaccessible) was discriminated from receptor on plasma membrane (accessible). Internalization of CR1 occurred within 5 min after addition of PMA to neutrophils, was dose dependent, and involved up to two-thirds of the tagged receptors. Therefore, PMA caused internalization of CR1 by neutrophils in the absence of ligand, indicating that this response was independent of a transmembrane signal generated by a C3b-CR1 interaction.     

Phagocytosis of Mycobacterium leprae by human monocyte-derived macrophages is mediated by complement receptors CR1 (CD35), CR3 (CD11b/CD18), and CR4 (CD11c/CD18) and IFN-gamma activation inhibits complement receptor function and phagocytosis of this bacterium.

We have examined phagocytosis of Mycobacterium leprae by human monocyte-derived macrophages (MDM). Compared with monocytes, MDM exhibit greatly enhanced adherence of M. leprae (6.5 +/- 2-fold increase). MDM adherence of M. leprae is serum dependent and requires heat-labile serum components because heat inactivation of serum reduces adherence by 70 +/- 3%. mAb against C receptors CR1 (CD35), CR3 (CD11b/CD18), and CR4 (CD11c/CD18) inhibit phagocytosis of M. leprae in fresh nonimmune serum. Single mAb against each receptor inhibit M. leprae adherence by 25 +/- 4% - 33 +/- 6%. Single mAb used in combination against all three receptors inhibit M. leprae adherence by 51 +/- 6%. Most significantly, pairs of mAb used in combination against all three receptors inhibit by 80 +/- 4%. By electron microscopy, MDM ingest all M. leprae that adhere in fresh nonimmune serum. In the presence of mAb against CR1, CR3, and CR4, the percentage of MDM cross-sections that contain intracellular bacteria is reduced 66 +/- 3% and the mean number of bacteria per cross-section is reduced 78 +/- 10%. MDM activated by IFN-gamma exhibit markedly reduced adherence (by light microscopy) and ingestion (by electron microscopy) of M. leprae. MDM in culture for 5 days inhibit M. leprae adherence by 83 +/- 2% and ingestion by 88% when activated for 5 days. Paralleling this, IFN-gamma-activated MDM exhibit markedly reduced C receptor function, reflected by markedly decreased adherence and ingestion of C3b- and C3bi-coated E. Decreased C receptor function by IFN-gamma-activated MDM correlates with decreased surface expression of CR1 but not CR3 or CR4. CR1 expression on MDM in culture for 5 days is reduced by 32 +/- 9% and 75 +/- 3% after IFN-gamma activation for 5 and 2 days, respectively. This study demonstrates that MDM have an enhanced capacity to phagocytize M. leprae, and that in addition to CR1 and CR3, phagocytosis involves CR4, whose expression on MDM is highly maturation-dependent. This study also demonstrates that IFN-gamma activation markedly reduces the capacity of MDM to phagocytize M. leprae, and it provides a molecular mechanism for this phenomenon-decreased C receptor function.     

Solubilization of active complement receptor type 1 (CR1) from human erythrocyte stroma with trypsin and its purification

Mild trypsinization of human erythrocyte stroma solubilized CR1 (complement receptor type 1, C3b/C4b receptor) without significant loss of decay-accelerating activity to C5 convertases on hemolytic intermediate cells (EAC 1-3b, P). The solubilized CR1 was purified using DEAE-Sephacel, C3-Sepharose, and anti-CR1-Sepharose column chromatographies. The purified material showed a single band on sodium dodecyl sulfate-polyacrylamide gel electrophoresis under non-reducing conditions, and its molecular weight was determined to be 175K, about 20K smaller than native CR1. Because the purified sample was separated into the several segments by sodium dodecyl sulfate-polyacrylamide gel electrophoresis under reducing conditions, the molecule is considered to be nicked and those segments are associated by disulfide bonds. These results mean that a large portion of the CR1 molecule is present outside of the plasma membrane of erythrocytes, and the intramembranous and cytoplasmic domains are not necessary for decay-accelerating activity.     

IFN-alpha and IFN-gamma have different regulatory effects on IL-4-induced membrane expression of Fc epsilon RIIb and release of soluble Fc epsilon RIIb by human monocytes

We used highly purified human monocytes to study the regulation of cell surface and secretion of the low affinity FcR for IgE (Fc epsilon RIIb). IL-4 induces Fc epsilon RIIb expression and soluble Fc epsilon RIIb release in a dose-dependent manner. Significant levels of Fc epsilon RIIb expression were obtained after 12 h of incubation with IL-4 and maximal expression was observed between 24 to 48 h after which the expression declined. Surface expression was followed by secretion of soluble Fc epsilon RIIb which reached maximal levels after 3 to 4 days of incubation and which remained constant throughout 7 days of culture. Induction of Fc epsilon RIIb expression by IL-4 was completely blocked by anti-IL-4 antibodies. Furthermore, IL-1 alpha, IL-2, IL-5, granulocyte-macrophage-CSF, IFN-alpha, IFN-gamma, low m.w. BCGF and also LPS all failed to induce Fc epsilon RIIb expression, demonstrating the specificity of the induction. Fc epsilon RIIb membrane expression induced by IL-4 was reduced in the presence of IFN-gamma and IFN-alpha. Strong inhibition of IL-4-induced Fc epsilon RIIb expression was observed at IFN-alpha concentrations of 450 U/ml (80%), and 100 U/ml of IFN-gamma reduced IL-4-induced Fc epsilon RIIb expression by 70%. Interestingly, soluble Fc epsilon RIIb release was strongly inhibited by IFN-alpha. In contrast, IFN-gamma did not affect soluble Fc epsilon RIIb release, suggesting that reduced membrane expression of Fc epsilon RIIb observed in the presence of IFN-gamma does not reflect inhibition of Fc epsilon RIIb expression but may represent enhanced cleavage or reduced anchoring in the membrane of Fc epsilon RIIb. Finally, IL-5 that has been shown to enhance IL-4-induced Fc epsilon RII on B cells does not enhance significantly IL-4-induced Fc epsilon RIIb membrane expression or subsequent soluble Fc epsilon RIIb release by monocytes. Taken together these results show that IFN-alpha and IFN-gamma have different regulatory effects on IL-4-induced Fc epsilon RIIb membrane expression and soluble Fc epsilon RIIb release by human monocytes.     

Intracellular degradation of the complement C3b/C4b receptor in the absence of ligand

Human neutrophils (PMN) respond to various soluble stimuli by translocating intracellular complement C3b/C4b receptors (CR1) to the cell surface. Ligand-independent internalization of surface CR1 has been demonstrated previously, but the fate of total cellular CR1 during PMN stimulation has not been determined. In order to study the fate of CR1 during neutrophil activation, we have employed a unique approach for the quantitative analysis of intracellular antigens which allows simultaneous measurement of total cellular and surface membrane antigen pools. Stimulation of isolated PMN with N-formyl-Met-Leu-Phe or ionomycin resulted in a mean 7-fold increase in surface CR1 expression within 15 min. Total cellular CR1 decreased by as much as 45% within 15 min, with loss continuing for up to 1 h. Inclusion of NH4Cl during PMN stimulation inhibited the loss of total CR1 without affecting surface CR1 expression. Addition of phenylmethylsulfonyl fluoride inhibited loss of total CR1 and enhanced the stimulus-induced increases in surface CR1. These data suggest that intracellular degradation of CR1 occurs during stimulation of PMN and may involve proteolysis in an acidic intracellular compartment. Since our experiments were done with isolated PMN in the absence of serum and complement components, this degradation occurred in the absence of C3b, the ligand for CR1. To our knowledge, ligand-independent degradation of a cell surface receptor has not been previously detected.     

Human C5a modulates monocyte Fc and C3 receptor expression

FcIgG and C3 (CR1 and CR3) receptors are responsible for binding opsonized particles, phagocytosis, and immune adherence reactions by circulating and tissue-fixed mononuclear phagocytes. Alterations in the expression of these receptors may thus significantly influence the function of these cells. Because chemoattractants have been shown to both recruit and modulate the function of monocytes, this study specifically examines the effects of human C5a and N-formyl-methionyl-leucyl-phenyl-alanine (FMLP) on human peripheral blood monocyte FcIgG and C3 receptor expression in vitro. Adherent, elutriator-purified monocytes were incubated with C5a (10(-7) to 10(-10) M) or FMLP (10(-5) to 10(-10) M) for 30 min at 37 degrees C, and FcIgG receptor expression was assessed by rosetting with sheep erythrocytes sensitized with limiting dilutions of IgG. Human C5a caused dose-related increases in Fc rosettes of 28% at 10(-9) M, 63% at 10(-8) M, and 167% at 10(-7) M (p less than 0.01). In contrast, no significant increases in monocyte Fc receptor expression were induced by FMLP. Similar rosetting experiments were performed with sheep erythrocytes opsonized with limiting amounts of human C3b to assess C3b receptor expression on adherent human monocytes stimulated with C5a (10(-7) to 10(-10) M) or FMLP (10(-6) to 10(-9) M) for 30 min at 37 degrees C. Again, human C5a caused dose-related increases in monocyte C3b rosette formation; at 10(-8) M and 10(-7) M concentrations of C5a, these increases equaled 119% and 196%, respectively (p less than 0.05). In these experiments, 10(-6) M FMLP also caused a significant increase of 110% in monocyte C3b rosette formation (p less than 0.05). Modulation of monocyte cell surface receptors by human C5a or FMLP was also examined by measuring cell fluorescence and side scatter by dual channel flow cytometry after staining normal leukocytes in citrated venous blood with receptor-specific monoclonal antibodies. These flow cytometric studies demonstrated that both C5a and FMLP induce dose-related increases in CR1 (C3b receptor) and CR3 (iC3b receptor) expression in both monocytes and neutrophils.(ABSTRACT TRUNCATED AT 400 WORDS)     

Sodium fluoride reveals multiple pathways for regulation of surface expression of the C3b/C4b receptor (CR1) on human polymorphonuclear leukocytes

We have examined the effects of NaF on C3b receptor (CR1) expression and function in human polymorphonuclear leukocytes (PMN). Plasma membrane expression of CR1 was determined with a monoclonal antibody (3D9); CR1 function was assessed with erythrocytes bearing C3b (EC3b) or C3b oligomers prepared with avidin and biotin. NaF inhibited in a dose-dependent manner CR1-mediated phagocytosis and NaF inhibited f-met-leu-phe or phorbol dibutyrate-induced increases in CR1 expression, with 50% inhibition at 5 mM NaF. Increased plasma membrane expression of CR3 induced by f-met-leu-phe also was inhibited by NaF. However, increased CR1 and CR3 expression due to incubation at 37 degrees C were unaffected by 10 mM NaF. Incubation of PMN with 10 mM NaF depleted 80% of intracellular adenosine triphosphate (ATP) after 10 min. However, inhibition of CR1 function was unrelated to ATP level, inasmuch as normal increases in CR1 expression and in phagocytosis occurred 20 min after removal of NaF, whereas ATP levels remained below 25% of normal. Strikingly, internalization of soluble oligomeric C3b ligands was unaffected by 10 mM NaF, which completely inhibited phorbol dibutyrate-induced CR1 internalization and EC3b phagocytosis. We conclude that there are two different mechanisms for increasing plasma membrane expression of CR1, one of which is inhibitable by NaF. Moreover, there are two distinct pathways of CR1 internalization which can also be distinguished by their sensitivity to NaF.     

Tumor-promoting phorbol esters induce rapid internalization of the C3b receptor via a cytoskeleton-dependent mechanism

Plasma membrane expression as well as phagocytic capability of the C3b receptor (CR1) are under regulatory control. Phorbol esters are one class of agents which have been shown to influence both of these events. In this study, by using radiolabeled Fab fragments of a monoclonal anti-CR1 antibody to tag the receptor and acid elution of surface-bound Fab, we showed that both phorbol myristate acetate and phorbol dibutyrate induced internalization of the C3b receptor; this occurred in a dose- and time-dependent manner in the absence of occupancy of the receptor by ligand. This was shown to occur in neutrophils, monocytes, and macrophages. We also showed that phorbol esters enhanced CR1-dependent phagocytosis despite the presence of two-thirds fewer receptors present on the plasma membrane. However, fibronectin, another agent that influences phagocytosis, had no effect on receptor internalization. Phorbol ester internalization was temperature-dependent and was inhibitable by cytochalasins B and D. Inhibition of internalization was reversible when cytochalasin B was removed. Phorbol esters also induced increased detergent insolubility of CR1 with kinetics similar to those of receptor internalization. It is possible that association of CR1 with the cytoskeleton is important to the process of "activation" of CR1 in phagocytosis.     

Lipopolysaccharide and interleukin 1 inhibit interferon-gamma-induced Fc receptor expression on human monocytes

The objectives of these studies were to study the effects of bacterial lipopolysaccharide (LPS) on interferon-gamma (IFN-gamma)-induced Fc receptor expression on human monocytes and to examine whether these effects were mediated through stimulation of interleukin 1 (IL-1) production. Fc receptor expression was determined by binding of monomeric monoclonal murine immunoglobulin (Ig)G2a and cytofluorographic analysis. IL-1 activity in monocyte supernatants and lysates was assayed by augmentation of mitogen-induced murine thymocyte proliferation. IFN-gamma induced the expression of Fc receptors on human monocytes that were specific for murine IgG2a. This induction was inhibited by the addition of LPS in amounts as low as 2 to 8 pg/ml. LPS inhibition of IFN-gamma-induced Fc receptor expression was paralleled by the appearance of IL-1 in monocyte lysates and supernatants. The addition of purified human or recombinant IL-1 beta at the initiation of culture similarly inhibited the expression of IFN-gamma-induced Fc receptors on the monocytes. LPS also inhibited Fc receptor expression on the human myelomonocytic cell line THP-1 after induction with IFN-gamma or phorbol myristate acetate alone or with both agents together. This inhibition also was paralleled by the production of IL-1 but the addition of exogenous IL-1 to the THP-1 cells had no effect on IFN-gamma-induced Fc receptor expression. Tumor necrosis factor (TNF) inhibited IFN-gamma-induced Fc receptor expression on human monocytes but was much less potent than comparable amounts of IL-1. TNF also did not inhibit Fc receptor expression on THP-1 cells. In fact, IL-1 or TNF led to an enhancement in IFN-gamma-induced Fc receptor expression on THP-1 cells. These results indicate that LPS can inhibit IFN-gamma-induced Fc receptor expression on human monocytes and that IL-1 and TNF may mediate these effects of LPS. Thus, an autocrine or paracrine role is suggested for these cytokines. The possibility exists that intracellular IL-1 resulting from LPS stimulation may be at least in part responsible for inhibition of Fc receptor expression.     

IL-10 stimulates monocyte Fc gamma R surface expression and cytotoxic activity. Distinct regulation of antibody-dependent cellular cytotoxicity by IFN-gamma, IL-4, and IL-10.

T cell-derived cytokines IFN-gamma and IL-4 have different regulatory effects on two functionally important molecules on human monocytes: MHC class II Ag and the Fc receptor for monomeric IgG, Fc gamma RI (CD64). MHC class II Ag, and Fc gamma RI are both upregulated in the presence of IFN-gamma. IL-4 induces MHC class II Ag expression but reduces Fc gamma RI expression. Recently, we showed that the cytokine IL-10 also affects MHC class II Ag expression. Here, we demonstrate that in contrast to the down-regulation of MHC class II Ag expression, IL-10 stimulates Fc gamma RI expression on human monocytes comparable to the levels of Fc gamma RI expression induced by IFN-gamma. The IL-10-induced Fc gamma RI expression is specific because anti-IL-10 antibodies completely reverse the IL-10-induced surface expression of Fc gamma RI and correlate with an enhanced capacity to lyse anti-D-coated human rhesus-positive erythrocytes. IL-10 fails to induce the expression of Fc gamma RII (CD32) and Fc gamma RIII (CD16). Furthermore, we demonstrate that IL-10 is able to prevent down-regulation in surface membrane expression of all three Fc gamma R that can be found when monocytes are cultured in the presence of IL-4. In contrast to IFN-gamma, IL-10 does not restore the reduced antibody-dependent cellular cytotoxicity (ADCC) activity of IL-4-cultured monocytes. Together, these results show that, similar to IFN-gamma, IL-10 is capable of enhancing Fc gamma R expression and ADCC activity, and that IFN-gamma, IL-4, and IL-10 have different regulatory effects on both monocyte Ag-presenting capacity and ADCC activity.     

Characterization of a novel low affinity receptor for IFN-gamma on adherent human monocytes by radioligand binding studies and chemical cross-linking

Freshly isolated monocytes in suspension express 2000 to 4000 high affinity receptors for IFN-gamma. Because monocytes change phenotypically as they migrate out of the circulation and adhere to extracellular matrix, modulation of the expression of IFN-gamma receptors may occur. In order to determine if adherence alone modulates the receptor for IFN-gamma, we have studied receptor expression in adherent human peripheral blood monocytes. Elutriation-purified monocytes were allowed to adhere to polystyrene overnight at 37 degrees C. These cells now expressed 1 to 2 x 10(5) low affinity (Ka = 10(8) liters/M) receptors for [125I]rIFN-gamma. Binding to this receptor was specific and saturable. The expression of these receptors occurred rapidly (within 3 h) after adherence and was not inhibited by cycloheximide treatment. Binding to the receptor was abrogated by treating cells with trypsin, but was enhanced after treatment with alkaline protease or proteinase K. mAb against the high affinity receptor did not block binding to the low affinity receptor on adherent cells. The low affinity receptor transduced a signal to the cell as measured by the IFN-gamma-induced enhancement in FcR for human IgG1. The structure of the receptor on adherent cells was investigated by chemical cross-linking techniques. A receptor-[125I]rIFN-gamma complex was observed by SDS-PAGE to have a Mr of 180,000 to 200,000. Reduction of this complex with 2-ME resulted in the loss of the high Mr complex and the appearance of a doublet of lower Mr of 68,000 and 82,000. In contrast, cross-linking of monocytes in suspension yielded a complex of 110,000 to 120,000 Mr, which was unchanged upon reduction. Upon adherence, human monocytes express large numbers of a novel receptor for rIFN-gamma which is capable of stimulating the cell. This receptor appears to be composed of at least two components which are disulfide linked and structurally differs from the high affinity receptor on nonadherent monocytes.     

Pre-ligation of CR1 enhances IgG-dependent phagocytosis by cultured human monocytes.

Opsonization of the C3b receptor (CR1) on phagocytic cells with C3b enhances both attachment of targets to the cells and subsequent IgG-dependent ingestion of these targets. To explore mechanisms involved in this increased phagocytosis, we adhered cultured human monocytes to surfaces pre-coated with CR1 ligand or control proteins and quantitated ingestion of sheep E opsonized with IgG alone. Three ligands for CR1 resulted in markedly enhanced phagocytosis of targets when compared individually to a panel of non-ligands, as determined by both the proportion of monocytes ingesting targets (percent phagocytosis) and by the number of targets ingested per 100 monocytes (phagocytic index). The ligands included purified C3b, iC3, and Fab fragments of 1B4, a monoclonal anti-CR1, which resulted in a percent phagocytosis of 56.3 (p less than 0.01), 59.0 (p less than 0.01), and 54.4 (p less than 0.02) and a phagocytic index of 281.2 (p less than 0.01), 281.1 (p less than 0.01), and 247.1 (p less than 0.02), respectively. Control proteins including human serum albumin, hemoglobin, Fab fragments of anti-fibronectin, anti-beta 2 microglobulin, and MOPC 21, and Fc fragments of 1B4 and MOPC 21 produced no significant stimulation of phagocytosis, nor did F(ab')2 fragments of monoclonal anti-CR3, M1/70. CR1-specific augmentation of target ingestion was apparent with monocytes cultured in serum-free medium for 1 to 7 days, but was not seen with freshly elutriated cells. Phagocytosis of unopsonized or IgM-coated targets was minimal. These results suggest that the adherent monocytes are primed by CR1 cross-linking for enhanced FcR-mediated phagocytosis even when the CR1 ligand is not present on the targets. This contrasts with the behavior of CR3, and demonstrated functional divergence between these C3 fragment receptors in the phagocytic process.     

The effect of IFN-gamma and colony-stimulating factors on the expression of neutrophil cell membrane receptors

The recombinant cytokines IFN-gamma, granulocyte-macrophage (GM)-CSF, and granulocyte (G)-CSF are all known to affect the function of neutrophils. We have investigated their ability to alter the surface expression of neutrophil Fc gamma R and CR. FcRI, formerly considered to be mononuclear phagocyte specific, was found on a variable percentage of neutrophils after 12 h of tissue culture. These levels could be readily enhanced by IFN-gamma at 0.5 U/ml suggesting that neutrophil FcRI is extremely sensitive IFN-gamma. In addition, membrane expression of FcRIII, the most abundant receptor of neutrophils, could also be increased by IFN-gamma and by GM-CSF and G-CSF. However, the opposite effect was observed in samples in which the initial levels of FcRIII were high. In these situations IFN-gamma and GM-CSF caused a decrease in receptor expression. No consistent alterations were found in the levels of FcRII. Cytokine-induced increases in both FcRI and FcRIII were not evident within the first hour of treatment suggesting that these molecules are not available in an intracellular compartment but must be newly synthesized. In contrast, the CR, CR1 and CR3, could be rapidly induced by GM-CSF indicating that this cytokine causes the mobilization of preformed molecules to the membrane. G-CSF and IFN-gamma did not alter the expression of CR1 and CR3. Thus, the very different effects of IFN-gamma, GM-CSF, and G-CSF suggest that the neutrophil functional profile will be distinctively affected by exposure to each of these cytokines.     

Activation of the C3b receptor: effect of diacylglycerols and calcium mobilization

The plasma membrane expression and the phagocytic function of the C3b receptor (CR1) on human neutrophils (PMN) are under the control of cellular regulatory mechanisms, and phorbol esters are one class of agents that modulate both membrane expression and function. Phorbol esters also activate protein kinase C; however, the physiologic activation of protein kinase C is thought to be mediated by diacylglycerol. Diacylglycerols are generated during phosphatidyl inositol turnover, which is associated with a rise in intracellular calcium due to another product of polyphosphoinositide metabolism, inositol trisphosphate. We therefore studied the effects of synthetic diacylglycerols and calcium mobilization on CR1 function. In our experiments, treatment of neutrophils with two synthetic diacylglycerols, 1-oleoyl-2-acetoyl-sn-3-glycerol (OAG) and sn-1,2-dioctanoylglycerol, like phorbol esters, induced ligand-independent internalization of CR1. In contrast, the addition of exogenous phospholipase C had no effect on receptor internalization over the time course studied. OAG treatment also enabled neutrophils to specifically phagocytose via CR1. Calcium mobilization with the calcium ionophore A23187 (1 microM) had a synergistic effect on phorbol ester-induced internalization of CR1, but abrogated the phorbol ester enhancement of CR1-dependent phagocytosis. Both trimethoxybenzoate, the intracellular calcium antagonist, and chlorpromazine inhibited phorbol ester-induced internalization of CR1, whereas chelation of extracellular calcium did not. We conclude that activation of protein kinase C modulates the expression and function of CR1, and that calcium mobilization also influences these processes. We speculate that polyphosphoinositide turnover may be involved in the physiologic regulation of CR1.     

Characterization of C1q receptor expression on human phagocytic cells: effects of PDBu and fMLP

The receptor-mediated binding of C1q to human phagocytic cells was investigated in this study. By using a C1q binding assay, we determined that purified, elutriated monocytes expressed an average of 4.6 X 10(5) C1q receptors (C1qR) per cell, with an equilibrium binding constant (Keq) of 0.91 X 10(7) (M-1). When analyzed in an identical manner, the polymorphonuclear leukocytes (PMN) expressed an average of 4.2 X 10(5) C1qR per cell, with a Keq for C1q of 1 X 10(7) (M-1). Fluorescent flow cytometric analysis showed that C1q was bound by 98% of the monocytes studied. Further, the pattern formed by these cells was consistent with a normal log distribution, indicating that this was a homogeneous population of cells. When PMN were assayed with flow cytometry, however, we found that C1q was bound by an average of only 45% of the PMN analyzed. Further, these PMN were not dispersed in a normal log distribution, indicating some heterogeneity among the cells that bind C1q. We examined the abilities of the chemoattractant N-formylmethionylleucylphenylalanine (fMLP) and the phorbol ester phorbol dibutyrate (PDBu) to modulate expression of C1qR as compared to the receptor for C3b (CR1). Pretreatment of the monocytes and the PMN with either 10(-6)M fMLP or 10 ng/ml of PDBu significantly increased cell surface CR1 expression, as reported previously by other investigators. In contrast, no significant increase in the number of C1qR on the monocytes or the PMN was observed with any of the concentrations of fMLP or PDBu used during pretreatment. However, with certain pretreatment doses of these agents, some reduction was noted in the amount of 125I-C1q bound to the monocytes and the PMN. This study characterizes the binding of C1q to purified monocytes and confirms previously published values for PMN. The distribution of cells expressing C1qR is shown to be significantly different between identically treated populations of monocytes and PMN. Finally, the abilities of fMLP and PDBu to modulate the binding of C1qR are examined. Our results indicate that the control of C1qR expression differs markedly from that of CR1.     

Influence of glycosylation on allelic and cell-specific Mr variation, receptor processing, and ligand binding of the human complement C3b/C4b receptor

The human complement C3b/C4b receptor (CR1), a single chain membrane glycoprotein of Mr approximately 200,000, has several cell-specific Mr variations as well as an allelic variation involving four phenotypes whose Mr values span a range of 90,000. We investigated the role of glycosylation in these structural variations and in receptor metabolism. In the human HL-60 promyelocytic leukemic cell line differentiated toward granulocytes or monocytes and in Epstein-Barr virus-transformed B lymphoblastoid cell lines of the common phenotype, CR1 is synthesized as a precursor of Mr = 222,000 that is converted into mature CR1s with differing Mr values. Endoglycosidase F treatment of mature CR1 from all these cell types produced the same lower Mr band. Additionally, the previously noted 5,000 higher Mr of CR1 from human peripheral granulocytes versus erythrocytes was abrogated by endoglycosidase F. Hence these cell-specific variations are due to differences in N-glycosylation. Lectin affinity chromatography shows that these N-linked oligosaccharides are mostly tri- and tetraantennary complex-type species with specific differences in fractionation patterns that correlate with their differing Mrs. In lymphoblastoid cell lines, the four allelic variants each have a precursor 6,000 lower in Mr than the respective mature CR1. In the presence of tunicamycin, each of the CR1 allelic products is 25,000 lower in Mr than the glycosylated receptor. The failure to radiolabel CR1 with [3H]glucosamine in the presence of tunicamycin indicates the lack of O-linked oligosaccharide on CR1. These data, taken together, strongly suggest that the CR1 polymorphism resides at the polypeptide level. Nonglycosylated CR1 synthesized in the presence of tunicamycin had twice the turnover rate of glycosylated CR1. The efficiency of surface membrane insertion and of ligand binding to hemolytically inactive C3 were markedly reduced for nonglycosylated CR1, suggesting that glycosylation is important for the proper expression of CR1 function.     

Bacterial lipopolysaccharide-induced interferon-gamma production: roles of interleukin 1 and interleukin 2

Bacterial lipopolysaccharide (LPS) induced human peripheral blood mononuclear cells (PBMC) to produce interferon-gamma (IFN-gamma). Monocytes play a mandatory accessory role in this process, because purified T lymphocytes failed to produce IFN-gamma in response to LPS and the addition of 2% monocytes to T cell cultures resulted in an optimal LPS-induced IFN-gamma production. IFN-gamma production was abolished in the presence of monoclonal antibodies specific for HLA-DR antigen. Addition of exogenous interleukin 2 (IL 2) markedly enhanced IFN-gamma secretion by PBMC induced with LPS. The addition of anti-Tac antibody specific for IL 2 receptors abrogated IFN-gamma production, suggesting that an interaction of IL 2 with IL 2 receptors was involved. By using a specific antibody binding assay, LPS was shown to amplify IL 2 receptor expression on PBMC, whereas exogenous IL 2 showed only a negligible enhancing effect on the expression of its own receptors. Interleukin 1 (IL 1), a product of LPS-stimulated monocytes, potentiated IL 2-induced IFN-gamma production in the absence of LPS. Neither IL 1 nor IL 2 alone induced IFN-gamma production in purified T lymphocyte cultures. When added together, however, substantial levels of IFN-gamma were induced. An enhanced IL 2 receptor expression on T cells was also demonstrated as a result of the combined action of IL 1 and IL 2. These results suggest that induction of IFN-gamma by LPS is due mainly to the generation of IL 1 and an enhanced expression of IL 2 receptors.     

Cellular distribution of complement receptor type 4 (CR4): expression on human platelets

Neutrophils have been shown to express a receptor for C3dg that is distinct from CR2 and is termed complement receptor type 4 (CR4). In the present study, other peripheral blood cell types were examined by indirect immunofluorescence and flow cytometry for the presence of C3dg binding activity. Specific uptake of C3dg occurred with neutrophils, platelets, and B lymphocytes, but not with eosinophils or T lymphocytes. Monocytes, contained within a mixed cell population of peripheral blood mononuclear cells and platelets, also bound C3dg, whereas purified monocytes did not. Binding of 125I-labeled glutaraldehyde-cross-linked C3dg to platelets was saturable, with an average of 1940 C3dg molecules bound per platelet at saturation (n = 8), ranging in number from 660 to 3930 molecules bound. Activation of platelets with thrombin did not consistently cause an increase in the expression of CR4 sites. 125I-C3dg binding to platelets was competitively inhibited equally well by unlabeled C3dg and iC3b, and approximately fourfold less well by C3b. The addition of platelets to elutriated monocytes generated C3dg binding activity on these cells by the formation of platelet-monocyte complexes. Thus, the CR4 on platelets accounted for the C3dg binding activity initially observed with partially purified monocytes. The adherent property of platelets may enable them to confer on certain other cell types the ability to localize C3dg-coated immune complexes or particles.     

Influence of recombinant IL-4, IFN-alpha, and IFN-gamma on the production of human IgE-binding factor (soluble CD23)

This study documents the influence of rIL-4, IFN-gamma, and IFN-alpha on the production of IgE-BF and the expression of lymphocyte receptor for IgE or CD23 Ag (Fc epsilon R II) by human mononuclear cells. IL-4 increases the secretion of IgE-binding factor (BF) by highly purified B lymphocytes, adherent cells, and U937 monoblastic cells. The effect of IL-4 on purified B cells is augmented by costimulating the cells with F(ab')2 anti-IgM. IFN-gamma, IL-2, IL-1-alpha, or IL-1 beta and the low m.w. B cell growth factor have no effect on IgE-BF production by purified B cells even when they are used in combination with anti-IgM. Stimulation of purified T cells with IL-4 or IL-4 plus PMA leads to the production of very small amounts of IgE-BF that might well be derived from the contaminating non-T cells. IFN-gamma increases IgE-BF synthesis by unfractionated PBMC, T cell-depleted PBMC, adherent cells, and U937 cells suggesting that it induces monocytes to release IgE-BF, IFN-gamma suppresses the IL-4-induced Fc epsilon R II expression and IgE-BF production by highly purified B cells but not by PBMC or their T cell-depleted fractions. IFN-alpha inhibits IgE-BF production by IFN-gamma-stimulated PBMC and by IL-4-stimulated cells suggesting that it exerts its effect on B cells and on monocytes. Moreover IFN-alpha suppresses the IL-4-induced expression of Fc epsilon R II on B cells. Both IFN-alpha and IFN-gamma suppress the synthesis of IgE by PBMC in response to IL-4. Taken collectively the results indicate that: 1) IL-4 induces IgE-BF production by both B cells and monocytes, 2) IFN-gamma stimulates IgE-BF synthesis by monocytes but suppresses its production by IL-4-stimulated B cells, and finally 3) IFN-alpha inhibits IgE-BF synthesis in response to either IFN-gamma or IL-4.     

A novel differentiation antigen on human monocytes that is specifically induced by granulocyte-macrophage colony-stimulating factor or IL-3

A mouse mAb (TOMS-1) was generated against human blood monocytes that had been cultured for 4 days in medium with recombinant human granulocyte-macrophage CSF (GM-CSF). TOMS-1 (IgG1) detected a unique cell surface Ag with a molecular mass of about 43 kDa under both reducing and nonreducing conditions. TOMS-1Ag was expressed on monocytes treated with GM-CSF, but not on fresh or untreated monocytes. This Ag was induced dose dependently during culture of monocytes with GM-CSF for more than 24 h, reaching a maximum level in 3 or 4 days. Treatment of monocytes with cycloheximide in the presence of GM-CSF blocked TOMS-1Ag induction completely, indicating that de novo protein synthesis was required for its expression. TOMS-1Ag was also induced by treatment of monocytes with IL-3, but not with other cytokines such as macrophage-CSF, IL-4, and IFN-gamma or stimulators including LPS, desmethyl muramyl dipeptide, and PMA. TOMS-1Ag expression induced by GM-CSF was up-regulated by IL-4, but down-regulated by IFN-gamma. TOMS-1Ag was not induced on lymphocytes, granulocytes, or AM by GM-CSF or appropriate stimuli. TOMS-1Ag was also not expressed on any cell lines of human leukemias or solid tumors examined. Thus, TOMS-1Ag is a monocyte-specific differentiation Ag induced by GM-CSF or IL-3. These results suggest that TOMS-1 should be useful for monitoring the process of monocyte differentiation by GM-CSF or IL-3.