Fibronectin Binds to Complement-Coated Agarose Beads and Increases Their Association to Mouse Macrophages

We have studied the binding of fibronectin to complement (C3b, C3bi, C3d)-coated agarose beads and its effect on cell association of such beads to mouse macrophages. Fibronectin bound to agarose beads preincubated in human serum, whereas no binding occurred after preincubation of the beads with complement-inactivated (50 degrees C for 20 min or ethylenediaminetetraacetic acid) sera. The binding of iodine-labelled fibronectin to beads preincubated in fibronectin-depleted serum (HS-FIB) was about twice that of beads preincubated in normal serum. Unlabelled fibronectin inhibited the following binding of labelled fibronectin to beads pretreated in HS-FIB. A similar amount of fibronectin bound to agarose beads coated with equimolar amounts of C3b, C3bi, or C3d, suggesting that the common domain C3d carries the main binding site(s) for fibronectin. Preincubation of serum-treated and trypsinized agarose beads with fibronectin led to an increased association (22%) of such beads to mouse macrophages. The results indicate that fibronectin promotes binding of complement-coated agarose beads to mouse macrophages, whereas the ingestion of the beads is mediated via complement C3 receptors.     

Attachment and phagocytosis by salmon macrophages of agarose beads coated with human C3b and C3bi

Agarose beads (diameter 5-10 micron) preincubated in human serum became associated (attached and ingested) to 50-60% of the salmon macrophages within 60 minutes. However, Beads preincubated in serum treated with heating (50 degrees C, 20 min) or with EDTA (10 mM) to inhibit the activation of alternative complement pathway, were not associated to the phagocytes. Furthermore, agarose beads coated with human C3b and C3bi after incubation with isolated complement factors (C3, D, B), were associated to 30-40% of the phagocytes. About 80% of the cell-associated agarose beads was intracellularly located. Conversion by trypsin treatment (0.01%) of agarose bound C3bi to C3d, abolished the association of such beads to the macrophages. The results demonstrate that salmon macrophages possess complement receptors that bind human C3b and C3bi. Agarose beads coated with these ligands (C3b and C3bi) are attached and ingested by the phagocytes.     

Phagocytosis by Human Monocytes of Particles Activating the Alternative Pathway of Complement

The phagocytosis of particles activating the alternative pathway of complement by human monocytes cultured under serum-free conditions was studied. In contrast to native zymosan particles, which were easily ingested, rabbit erythrocytes and agarose beads had to be coated with C3b or C3bi to be engulfed by the monocytes. The binding and ingestion by monocytes of particles coated with C3bi were greater than for the same particles coated with the equivalent amount of C3b. The binding and uptake of rabbit erythrocytes and agarose beads were proportional to the amount of C3b or C3bi on the particles. In contrast to the complement activator particles, C3b- and C3bi-coated sheep erythrocytes, which are non-activators, were not ingested by the monocytes, although attachment to the monocytes took place. The presence of methylamine or cobra venom factor, which are complement inhibitors, strongly reduced the ingestion of native zymosan by the monocytes, whereas the uptake of C3b- or C3bi-coated zymosan particles were only weakly affected. This suggests that the binding of native zymosan to monocytes is sensitive to interference from a cell-derived alternative pathway C3 convertase (C3bBb). Binding and uptake of activators by human monocytes via complement receptor(s) are discussed.     

Fibronectin Promotes Binding But Not Ingestion of Agarose Beads by Mouse Macrophages and Human Monocytes

We have examined to what extent human fibronectin associated with agarose beads with a 5- to 10-μm diameter mediates binding and uptake of the heads by mouse macrophages and human monocytes. Native agarose beads preincubated with ¹²⁵I-fibronectin were neither associated with nor taken up by mouse macrophages after 30 min of incubation under serum-free conditions. When fibronectin was cross-linked to cyanogen bromide-activated agarose heads or incubated with gelatinized heads, this resulted in a significant increase in particle binding by macrophages and monocytes as compared with gelatinized beads, whereas the fraction of cells with ingested particles remained unaltered. Native agarose heads activated by cyanogen bromide and treated with ethanolamine were to a greater extent associated with and taken up by phagocytes than fibronectin- or gelatin-coated heads. Our results indicate thai fibronectin acts as an adhesive glycoprotein and not as an opsonin. Since agarose beads are activators of the alternative pathway of complement, and fibronectin is reported to bind to factor C3, we speculate that cell-derived C3b is bound to the beads and fibroneetin-coaled beads arc ingested by the phagocytes via complement C3b receptors on the cells.     

Complement (C3)-Receptor-Mediated Phagocytosis of Agarose Beads by Mouse Macrophages

The phagocytosis by macrophages of C3bi-coated agarose heads reached a plateau after 15 min, compared with 30 min for C3b-coated beads. By using ¹²⁵I-Iabelled C3bi or C3b coupled to the agarose beads, we found that 70% and 95% of total radioactivity were removed from the heads after 12 h and 36 h of intracellular digestion, respectively. Intracellular degradation of C3bi linked to agarose beads was also demonstrated by testing binding of monoclonal antibodies against human C3c, C3g and C3d to beads extracted from the cells after phagocytosis. Such extracted beads also showed reduced attachment to new macrophages compared with non-ingested beads. Treatment of the cells with leupeptin, an inhibitor of the lysosomal enzyme cathepsin B, or with dextran sulphate to inhibit phagosome-lysosome fusion greatly reduced the release of labelled protein from the agarose during the first 12 h. These findings show that C3bi and C3b on agarose is destroyed intracellularly by lysosomal enzymes.     

Formation of the Functional Alternative Pathway of Complement by Human Monocytes in Vitro as Demonstrated by Phagocytosis of Agarose Beads

Native agarose beads (diameter 5-10 micron), activators of the alternative complement pathway, are slowly phagocytosed when incubated with human monocytes cultured under serum-free conditions. Agarose beads preincubated with monocyte cultures and then transferred to new cultures are more easily phagocytosed than native beads. These results indicate that the phagocytosis of agarose beads depends on opsonization of the beads by one or several substances of monocyte origin. By using antihuman C3 antibodies, trypsin treatment, and sodium dodecyl sulphate washing, we were able to demonstrate C3b and iC3b on the agarose beads. The molecules were covalently bound to the surface of the beads. We conclude that in vitro human monocytes produce and secrete the essential factors for activation and propagation of the alternative complement pathway (factors C3, B, D, H and I), which becomes evident with an external activator like agarose beads in the cultures. The activation of complement by agarose beads results in the attachment of C3b and iC3b to the surface of the beads, which are then phagocytosed by means of C3b and iC3b receptors on the monocytes.     

Complement (C3)-Receptor-Mediated Phagocytosis of Agarose Beads by Mouse Macrophages

Phagocytosis of agarose beads by macrophages cultured under serum-free conditions was studied. 48 h was needed before a plateau in the uptake was reached. The ingested agarose beads were coated extracellularly with macrophage-derived protein before attachment and ingestion of the beads. Intracellularly, the agarose-linked protein was removed from the agarose. If the ingested agarose beads were extracted from the macrophages within 24 h after the plateau in the uptake was reached, a fraction of the beads could attach to new macrophages, demonstrating modification of the agarose beads by opsonin(s). Because of binding of anti-human C3c antibodies to beads extracted from the macrophages after 24 h of phagocytosis and the trypsin sensitivity of the protein on the agarose, we conclude that the main opsonin on the agarose beads is C3bi. Requirements for the stimulatory effect of agarose on macrophages are summarized.     

A simple rosette assay for demonstration of complement receptor sites using complement-coated zymosan beads

In the present article we describe a simple rosette assay for detection of C3 receptor-bearing B lymphocytes with complement (C)-coated zymosan (Zy) beads. Zy coated with murine or human C bound to a distinct population of human and mouse lymphocytes as well as to the majority of lymphoblastoid cells of several human established cell lines. Rosette formation was also observed with human red blood cells, with human monocytes and neutrophils. Experiments with anti-immunoglobulin sera, with other B and T cell markers and with mouse thymocytes proved that the capacity to bind C-coated Zy is primarily a feature of B lymphocytes. The following findings suggested that C-coated Zy is bound via receptor sites for the activated components of C3: (a) Zy coated with C3-deficient serum failed to bind, (b) comparable percentages of various lymphoid and nonlymphoid cells formed rosettes with C-coated Zy as well as with antibody and C-coated sheep red bloodcells, and (c) antibodies against human or murine C3 inhibited the binding of C-coated Zy.     

Phagocytosis of Agarose Beads by Receptors for C3b (CR1) and iC3b (CR3) on Human Alveolar Macrophages Cultured on Fibronectin in Vitro

We studied the phagocytosis of agarose beads by human alveolar macrophages in terms of the morphology, the receptors involved, and the cellular substrates (plastic or fibronectin) used. Beads coated with C3b (58%) and iC3b (42%) by treatment with serum, were ingested during 45 min by CR1 and CR3 on the macrophages. This ingestion was inhibited 80-90% by the presence of polyclonal F(ab')2 anti-C3 fragments. Since the phagocytosis of both C3b- and iC3b-coated beads was about threefold stronger than for C3b-coated beads (trypsinized serum-treated beads), the results indicate that the CR3 is more phagocytic than the CR1. The phagocytosis of initially complement uncoated beads, which are slowly opsonized with macrophage-produced C3b and iC3b in vitro, was also strongly inhibited (70-80%) by the presence of anti-human C3 F(ab')2 fragments. There was an increased phagocytosis (10-17%) of complement precoated beads by macrophages cultured on the fibronectin substrate versus the plastic substrate. The morphology and rapid phagocytosis of the complement precoated beads was demonstrated by SEM. The general impression was that membranous protrusions stretched towards the beads, which became increasingly enclosed by plasma membrane.     

Human Alveolar Macrophages Synthesize Active Complement Components C6, C7, and C8 in Vitro

We investigated whether serum-free human alveolar macrophage cultures synthesize active C6, C7, and C8. There was a significant binding of polyclonal anti-human C6 antibodies to agarose beads incubated with unstimulated macrophages for 24 or 48 h. Endotoxin stimulation of the macrophages was necessary for significant binding of polyclonal anti-C7 and anti-C8 antibodies to agarose beads co-cultured for 48 or 96 h. Two monoclonal antibodies (poly C9-MA and MCaE11) specific for a neoantigen of polymerized C9 in the terminal complement complex (TCC), bound to beads mainly incubated with endotoxin stimulated macrophages. The MCaE11 was more sensitive than the poly C9-MA in detecting the C9 neoantigen on beads incubated with the macrophages or human serum diluted 1:16. We thus conclude that human alveolar macrophages synthesize active C6, C7, and C9 that together with C5 and C9, assemble as the TCC on co-cultured agarose beads. Activation of the alternative pathway on the agarose with generation of fixed C3 and C5 convertases is a prerequisite for the subsequent generation of the TCC.     

A simple rosette assay for demonstration of complement receptor sites using complement-coated zymosan beads.

In the present article we describe a simple rosette assay for detection of C3 receptor-bearing B lymphocytes with complement (C)-coated zymosan (Zy) beads. Zy coated with murine or human C bound to a distinct population of human and mouse lymphocytes as well as to the majority of lymphoblastoid cells of several human established cell lines. Rosette formation was also observed with human red blood cells, with human monocytes and neutrophils. Experiments with anti-immunoglobulin sera, with other B and T cell markers and with mouse thymocytes proved that the capacity to bind C-coated Zy is primarily a feature of B lymphocytes. The following findings suggested that C-coated Zy is bound via receptor sites for the activated components of C3: (a) Zy coated with C3-deficient serum failed to bind, (b) comparable percentages of various lymphoid and nonlymphoid cells formed rosettes with C-coated Zy as well as with antibody and C-coated sheep red blood cells, and (c) antibodies against human or murine C3 inhibited the binding of C-coated Zy.     

Human peritoneal macrophages. Production in vitro of the active terminal complement components C5 to C9 and a functional alternative pathway of complement. Brief report

Endotoxin-stimulated human peritoneal macrophages were cultured in serum-free medium with agarose beads. Monospecific antibodies to human C3c, C3g, C5, C6, C7, C8, C9 and to C9-neoantigen bound to the beads. This shows that activated C3 and the terminal complement complex (TCC), made from complement components C5 to C9, were generated on the beads. De novo synthesis was confirmed by agarose binding of tritium-labelled protein. Moreover, C3-derivatives and C9-neoantigen were detected on normal serum-treated agarose beads but not on beads kept in factor B-depleted or heat-inactivated sera, implying that an intact alternative complement pathway was required for our findings. The macrophages thus synthesize the active complement components of the alternative and terminal pathways in vitro.     

The effect of complement in adherent immune complexes on Fc and C3 receptor expression in human monocytes.

The effect of complement in surface-bound immune complexes on the expression of Fc and C3 receptors in membranes of adherent human monocytes was examined. Monocytes were isolated from mononuclear leucocyte preparations by adherence to substrates containing fibrin, fibrin with immune complexes (containing rabbit IgG antibodies), or fibrin with immune complexes and mouse complement. Fc or C3 receptors on the top or exposed surface of the monocytes were detected by rosette formation with sheep erythrocytes coated with IgG (EA) or IgM and complement (EAC). Monocytes adherent to surface-bound immune complexes exhibited an absence of EA rosette-forming ability without any change in EAC rosettes. This specific loss of Fc receptor function was induced more easily in freshly-isolated monocytes than in cells maintained in suspension culture for up to 7 days. The presence of complement in the immune complex substrates did not reverse the decrease in Fc receptors seen with freshly-isolated or cultured monocytes. Monocytes adherent to immune complexes and complement exhibited a decrease in C3 receptor function. This decrease was more readily induced in cells cultured for three days in the presence of serum than in freshly-isolated monocytes. Experiments performed with EAC or immune complex substrates relatively enriched in C3b or C3bi indicated that C3b in the substrate induced a decrease in monocyte C3b receptors and C3bi led to a decrease in C3bi receptors. No evidence was found for C3d receptors on the human monocytes although these receptors on a subpopulation of human lymphocytes appeared to be altered in a similar fashion.     

Human Alveolar Macrophages Synthesize the Functional Alternative Pathway of Complement and Active C5 and C9 in Vitro

Attachment of protein to agarose beads cultured with macrophages in protein-free medium containing 3H-leucine, shows that de novo synthesis of protein with affinity to the beads takes place. We also found that monoclonal antibodies against human C3c, C3g, and a C9-neoantigen as well as polyclonal antibodies against human C5 and C9, bound to agarose beads that had been kept with the macrophage cultures. Demonstration of C3 derivatives on the agarose beads shows that the essential complement factors of the alternative pathway are synthesized and have been activated by the beads. Deposition of C5 and the detection of a neoantigen of C9 on the beads, indicates that the whole terminal complement pathway has been formed and activated. We conclude that human alveolar macrophages form in vitro the functional alternative pathway of complement, C5 and C9, and we have indirect evidence for synthesis of C6, C7, and C8.     

Synthesis of Complement Components C5, C6, C7, C8 and C9 in Vitro by Human Monocytes and Assembly of the Terminal Complement Complex

Monocytes cultured under serum-free conditions secreted protein which bound covalently and non-covalently to agarose beads, an activator of the alternative pathway of complement. There was a significantly binding of monoclonal anti-C3c antibodies, polyclonal anti-C5, anti-C6, anti-C7, anti-C8, and anti-C9 antibodies, and of a monoclonal antibody against a neoantigen of polymerized C9 to agarose beads incubated with the monocytes for 24, 48, 72 or 96 h. From these results, we conclude that monocytes produce C5, C6, C7, C8 and C9 that assemble as the terminal complement complex on the surface of the agarose beads. Activation by agarose of the alternative pathway with generation of particle bound C3 and C5 convertases is a prerequisite for the subsequent formation of the terminal complement complex. Whether SC5b-9 or the membrane attack of complement (C5b-9) is formed on the beads will be examined.     

Human Umbilical Vein Endothelial Cells Synthesize S-Protein (Vitronectin) In Vitro

S-protein, also named vitronectin, is a multifunctional glycoprotein with molecular weight (MW) of about 75 kDa and a serum concentration of 0.14-0.60 mg/ml. It is synthesized mainly in the liver, but synthesis has also been found in monocytes/macrophages. We used human umbilical vein endothelial cells (EC) which were incubated with agarose beads, an activator of the alternative complement pathway. By radioimmunoassay (RIA) based on monoclonal and polyclonal S-protein antibodies, we detected S-protein on harvested agarose beads. The time-dependent increase in the amount of S-protein was significantly reduced by the presence of cycloheximide (10 micrograms/ml) in the cell cultures. We also found a strong binding of S-protein antibodies to agarose beads preincubated in native serum, which was strongly reduced (70-80%) by inactivation of the alternative complement pathway (50 degrees C, 20 min). Our results show that EC synthesize S-protein in vitro.     

Endocytosis of Agarose in Mouse Peritoneal Macrophages in Vitro

We have studied the endocytosis of tritium-labelled and of non-radioactive agarose in mouse macrophages in vilro. The endocytosis was greatest and most rapid in syngeneic mouse serum and in human serum, reaching a plateau after 12 h of incubation. Ten per cent serum was the minimum concentration giving optimal ingestion. The endocytosis appeared to be regulated by mechanisms involving complement factors C3 and B. Different pretreatments of sera, inactivating or depleting C3 and B, resulted in 70–80% reduction of endocytosis, Preincubation of agarose in untreated serum increased the endocytosis of agarose in heat-inactivated serum three-fold, indicating that the essential factors were bound to agarose. Antibodies against C3 and B reduced endocytosis moderately hut significantly.     

Species-restricted effects of human and mouse lymphokines on macrophages

Lymphokines produced by antigenic or mitogenic stimulation of human, guinea pig and mouse lymphocytes were tested for their effects on monocytes or macrophages of the same and heterologous species, to determine whether there is any species restriction in their reactivity. Supernatants from lymphocyte cultures were tested for migration inhibitory activity in an indirect agarose microdroplet assay and for their ability to augument cytolytic activity of macrophages or monocytes in a [3H]thymidine-release assay. Supernatants of human peripheral blood mononuclear cells, stimulated with phytohemagglutinin or purified protein derivative of tuberculin (PPD) were able to strongly inhibit the migration of human monocytes and guinea pig peritoneal exudate cells (PEC), but had no detectable effect on mouse PEC. The human supernatants could also significantly augment the cytolytic activity of human monocytes, but had no effect on cytotoxicity by mouse peritoneal macrophages. Conversely, supernatants of PPD-stimulated spleen cells from mice immune to bacillus Calmette-Guérin (BCG) strongly inhibited the migration of, and significantly augmented cytolysis by, mouse PEC, but had no detectable effects on human monocytes. Moreover, supernatants of concanavalin A-stimulated lymph node cells from guinea pigs inhibited the migration of guinea pig PEC and human monocytes, but had no effects on mouse PEC. The migration inhibitory effects of the human and mouse supernatants did not appear to be mediated by interferon (IF), since partially purified type-1 IF had no detectable effect. In addition, supernatants of human lymphocytes stimulated by Corynebacterium parvum strain 5888, that induced little or no IF, were able to inhibit the migration of, and augmented cytolysis by, human monocytes. These C.parvum supernatants also showed migration inhibitory activity on mouse PEC but did not induce cytolytic activity in these cells.     

Pretreatment of plastic Petri dishes with fetal calf serum. A simple method for macrophage isolation.

We have developed a simple method which can recover the highly purified macrophages or monocytes in suspension from mouse peritoneal exudate cells and human perpheral blood mononuclear cells. Plastic Petri dishes coated overnight with heat-inactivated fetal calf serum (FCS) selectively bind macrophages and monocytes. The adherent macrophages and monocytes are easily removed by incubation in phosphate-buffered saline containing 0.2% ethylenediamine tetraacetate (EDTA) and 5% FCS, and recovered as a cell suspension with greater than 95% purity. A small number of isolated cells can restore the mitogenic response to phytohemagglutinin (PHA-P) of macrophages-depleted lymphocytes and can lyse 51Cr-labeled target cells in an antibody-dependent cell-mediated cytotoxicity system. Thus, the method should be valuable for studies of various functions of macrophages and monocytes from different immune tissues of man and animals.     

The complement fragment C3d facilitates phagocytosis by monocytes.

Two receptors for fragments of C3 are described for human monocytes: CR1 and CR3, which bind C3b and iC3b, respectively. Recently a leucocyte receptor that binds C3dg has also been described, designated CR4. We previously reported that IgM-sensitized sheep erythrocytes that are heavily coated with C3d (EAC3d) can bind to human monocytes that have been cultured in fetal calf serum (FCS). Here we determine whether such binding of C3d-coated targets can lead to phagocytosis, and identify the specific monocyte receptor involved in C3d binding. We confirm that EAC3d bearing greater than 10,000 C3d/cell bind to FCS-cultured monocytes. Furthermore, using non-cultured monocytes, we demonstrate that C3d enhances rosette formation of IgG-coated E and, like C3b and iC3b, C3d augments IgG Fc receptor-mediated phagocytosis. Less than 100 C3d/cell are capable of enhancing phagocytosis, whereas 10,000 or more C3d/cell are required for rosette formation with cultured cells. These results indicate that the C3d-binding receptor is present on peripheral blood monocytes but has poor affinity for target particles coated only with C3d. Anti-CR2 monoclonal antibodies, which recognize the C3d receptor of lymphocytes, do not block EAC3d rosette formation with monocytes. In contrast anti-Mol, a monoclonal antibody against CR3, inhibits EAC3d rosettes by approximately 42%. Anti-CR1 increases this effect, but complete inhibition is not achieved. Ethylenediamine tetraacetate also markedly reduces EAC3d rosetting, reducing the numbers to less than 5%. Thus, the C3d-binding receptor on monocytes, unlike CR4, is metal dependent. Together these data indicate that CR3 is predominantly responsible for C3d binding to monocytes.