Expression of complement alternative pathway proteins by endothelial cells. Differential regulation by interleukin 1 and glucocorticoids

We have studied the secretion of proteins of the alternative pathway of complement C3, factor B and factor H by human umbilical vein endothelial cells (HUVEC). Results showed that factor H and factor B are quantitatively secreted in abundance whereas C3 could only be detected when the cells are maintained in culture during long periods of time. Interferon-γ stimulated factor H, factor B and, to a lesser extent, C3 secretions. Interleukin (IL) 1 had a differential effect on spontaneous C3, factor B and factor H secretions. In the presence of IL 1, there was a significant secretion of C3 occurring within a short period of culture. IL 1 also stimulated factor B secretion. There was a synergistic stimulating effect between IL 1 and interferon-γ to bring C3 and factor B productions by HUVEC to very high levels. In contrast, factor H secretion was consistently inhibited by IL 1. Local increase in C3 and factor B secretions by endothelial cells in the presence of IL 1 may have important implications in the inflammatory reaction. In striking contrast, the glucocorticoid dexamethasone (DXM) had modulatory effects which are consistent with its anti-inflammatory properties. DXM, at therapeutic concentrations, decreased C3 and factor B secretions and increased factor H secretion. Local modulation of complement protein secretion by DXM appears to be a new mechanism by which this glucocorticoid may control inflammation.     

Activation of the endothelium by IL-1 alpha and glucocorticoids results in major increase of complement C3 and factor B production and generation of C3a.

Constitutive secretion of complement C3 and factor B by the endothelial cell (EC) is lowered by therapeutic concentrations of glucocorticoids such as hydrocortisone or dexamethasone, whereas regulatory protein factor H production is increased by these hormones. In contrast, the proinflammatory cytokine IL-1 alpha has a stimulatory effect on C3 and factor B secretion by the endothelium and an inhibitory effect on factor H secretion. In this study, we examined the combined effect of IL-1 alpha and glucocorticoids on C3 and factor B expression by the endothelial cell. When dexamethasone or hydrocortisone were added to IL-1 alpha, significant potentialization of IL-1 alpha-induced stimulation of C3 and factor B production was observed, occurring at various concentrations of either stimuli. Dose-response experiments indicate that, in vitro, optimal concentrations are in the range of 10(-7) to 10(-5) M for dexamethasone and 50-200 U for IL-1 alpha. In contrast, dexamethasone counteracts, in an additive way, the inhibitory effect of IL-1 alpha on regulatory complement protein factor H production by EC. Such a potentialization between glucocorticoids and IL-1 alpha was not observed for another marker of endothelial activation, IL-1 alpha-induced stimulation of coagulation tissue factor expression. The association of glucocorticoids and IL-1 alpha therefore appears to be a specific and major stimulus for the secretion of complement C3 and factor B, two acute-phase proteins, by the endothelium. As a result of the in vitro endothelium stimulation by glucocorticoids and IL-1 alpha, C3a is generated in the vicinity of the endothelial cell. This study further suggests that complement activation, with its deleterious consequences, may result from the stimulation of endothelium in situations where high levels of IL-1 alpha and endogenous glucocorticoids coexist, such as in septic shock.     

Evidence for an active hydrophobic form of factor H that is able to induce secretion of interleukin 1-beta or by human monocytes.

We studied the capacity of human factor H to promote the secretion of a lymphocyte-activating factor (LAF) by human monocytes cultured under serum-free conditions. Presence of LAF in the culture supernatants was assessed with the mouse thymocyte assay. Highly purified factor H alone had no effect on thymocyte proliferation. When monocytes were cultured with factor H for 24 h, a significant secretion of LAF was observed. The effect was dose dependent over a range of factor H concentrations from 1 to 15 micrograms/ml. Polymyxin B did not abrogate the capacity of factor H to induce LAF secretion. Adsorption of factor H preparations onto anti-factor H-Sepharose completely suppressed the phenomenon. Conversely, the activity was recovered in the acidic eluate. Furthermore, factor H subpopulation phi 2, that was able to bind to phenyl-Sepharose, was a stronger inducer of LAF secretion by monocytes than the subpopulation phi 1 (which did not bind to phenyl-Sepharose). Using a specific radioimmunoassay for interleukin 1-beta (IL 1 beta), we observed a good correlation between the LAF activity and the amount of IL 1 beta secreted by human monocytes stimulated with factor H. We have shown previously that factor H (phi 2) bound specifically on Raji cells whereas factor H (phi 1) did not. These results argue for the participation of the interaction of factor H with its receptor to stimulate the secretion of IL 1 by monocytes and that the phi 2 form of factor H is a ligand for the human factor H receptor.     

Expression of complement factor H on the cell surface of the human monocytic cell line U937

Binding assays and immunocytochemical staining with monoclonal antibodies against the human serum complement protein factor H indicate that factor H antigen is present on the surface of more than 95% of the cells of the human monocytic cell line U937. The antigen is uniformly distributed and there are 10 000-15 000 copies/cell. Factor H antigen is strongly associated with the cell surface and is not removed by hypotonic or hypertonic washes. Factor H antigen has been isolated from surface radioiodinated and 35S biosynthetically labeled cells using polyclonal anti-factor H-Sepharose columns. The antigen is indistinguishable from serum factor H in molecular weight. Secretion of factor H by U937 cells was not detected using sensitive tests in which factor H secretion by monocytes was apparent. Phorbol myristate acetate stimulation of the cells had no effect on the average number of factor H molecules expressed. We conclude that factor H is synthesized by U937 cells, but is not secreted, and remains strongly associated with the cell surface. The surface-bound factor H may function as a C3b receptor.     

Complement biosynthesis in human breast-milk macrophages and blood monocytes.

The availability of techniques for establishment of primary, long term monolayers of breast milk macrophages and blood monocytes permitted a direct comparison of biosynthetic functions of human tissue macrophage and its progenitor. In addition to previously described morphological differences, four specific characteristics of the breast milk macrophage were identified: (i) a reduced rate of total protein secretion relative to the monocyte; (ii) abrogation of the 3 day lag in complement secretion regularly observed in blood monocyte cultures; (iii) an increase in the secretion of complement proteins C2 and factor B; and (iv) an increase in the ratio of C2 : factor B secretion. These differences did not result from cell-cell interactions between monocytes and macrophages, stable factors elucidated by monocyte or macrophage monolayers, or heat-stable factors in breast milk. In addition, both monocytes and macrophages synthesized and secreted C3 in an apparently native but haemolytically inactive form. The differences observed suggest that macrophages may modulate local availability of complement proteins in tissues or in the early phase of an inflammatory response.     

Characterization of alternative pathway inhibition by a serum derived, low molecular weight complement inhibitor.

Normal human serum contains an inhibitor of complement which is distinguished by its small size of 500 daltons, the low molecular weight inhibitor (LMWI). When LMWI was present during incubation of zymosan or cobra venom factor with serum, formation of complement reactive complexes was blocked as measured by failure of these mixtures to lyse susceptible erythrocytes from patients with paroxysmal nocturnal haemoglobinuria (PNH). Addition of LMWI to pre-formed complexes had no effect on their subsequent haemolytic activity. When dialysis was used to remove LMWI from reaction mixtures, it was shown that LMWI had not irreversibly altered any of the complement components. Purified components were used to demonstrate that LMWI prevented factor D activation of cobra venom factor-factor B complexes. LMWI also strongly inhibited binding of 125I-factor B to human erythrocytes bearing C3b and had little or nor effect on binding of 125I-factor H to the C3b bearing cells. Factor B binding to C3b was equally inhibited on normal and PNH erythrocytes. Thus, a dialysable fraction from normal human serum prevents activation of human complement by blocking formation, but not the activity of the C3/C5 convertase. These low molecular weight inhibitors result in inhibition of factor B binding to C3b and inhibition of factor D activation of C3bB complexes.     

Enhanced local production of complement components in the small intestines of patients with Crohn's disease

There is evidence that complement components may be formed locally in inflammatory lesions containing monocytes and macrophages. To investigate the role of complement in Crohn's disease we measured jejunal-fluid concentrations of the complement components C4, C3, and factor B by perfusion of a closed segment of the jejunum in 22 patients with Crohn's disease thought to be limited to the terminal ileum. The mean (+/- SEM) jejunal-fluid C4 concentration was 2.0 +/- 0.3 mg per liter, significantly higher than the mean level in 35 healthy controls (0.7 +/- 0.1 mg per liter; P less than 0.001). The mean C3 concentration was 1.0 +/- 0.1 mg per liter in the patients and 0.7 +/- 0.1 mg per liter in the controls (P less than 0.05). The factor B levels were similar in the two groups. Calculated rates of intestinal secretion of these components showed differences of the same magnitude. Leakage of protein from plasma was not increased. The jejunal-fluid:serum ratios of these complement proteins indicated that their appearance in the lumen of the jejunum was due to at least in part to local mucosal synthesis. The increased jejunal secretion of C4, but not C3 or factor B, paralleled the clinical activity of Crohn's disease. Values were normal in first-degree relatives of the patients (n = 13), patients with celiac disease (n = 8), and patients with ulcerative colitis (n = 4). We conclude that increased secretion of complement by clinically unaffected jejunal tissue in patients with Crohn's disease reflects the systemic nature of this disorder and may be due to the stimulated synthesis of complement by activated intestinal monocytes and macrophages.     

Synthesis of complement proteins in the human chorion is differentially regulated by cytokines

The aim of the current paper was to determine the chorion's contribution to complement synthesis in the placenta and its regulation by cytokines. Biosynthetic labeling followed by immunoprecipitation with polyclonal antibodies was performed in chorionic tissue and chorion-derived cells. Eight complement proteins, factor B, C3, C1r, C1s, C1 inhibitor, factor H, C4 and C2 were detected in chorionic tissue and were secreted extracellularly. In chorion-derived cells, IL-1beta stimulated factor B synthesis but had no effect on C1r, C1 inhibitor, C1s, factor H and C4. TNFalpha had no stimulative effect on any of the complement proteins tested. In contrast, both IL-1beta and TNFalpha highly induced IL-6 secretion in chorion-derived cells, demonstrating the overall responsiveness of these cells to these stimuli. Interestingly, IFN-gamma increased the synthesis of C1s, C1r, C1 inhibitor, C4 and factor H in chorion-derived cells. The fact that the latter two complement proteins have opposing effects on immune activation of the complement cascade demonstrates the complex balance required to both maintain an ability to ward off infections but simultaneously suppress the immune response to enable tolerance of the allograft fetus.     

Differential modulation of complement factor H and C3 expression by TNF-alpha in the rat. In vitro and in vivo studies.

The biosynthesis of alternative regulatory complement protein factor H was investigated using both an in vivo rat model and an in vitro rat hepatocyte culture system, and compared to that of C3 component. Subcutaneous injection of a single dose of 20 micrograms of recombinant murine tumor necrosis factor-alpha (rmTNF-alpha) had no effect on factor H liver mRNA levels, while it increased C3 mRNA levels. In correlation with this, serum factor H levels remained unchanged after rmTNF-alpha injection, whereas C3 levels were increased. In contrast in vitro studies showed that rmTNF-alpha had no effect on factor H and C3 expression by rat hepatocytes. Recombinant human interleukin-1 alpha (rhIL-1 alpha) did not alter the expression of factor H, whereas it increased C3 expression, and recombinant human interleukin-6 (rhIL-6) stimulated expression of both proteins. This study shows that TNF-alpha is not directly responsible for the increased levels of factor H observed in vivo during induced inflammation in the rat. Its in vivo effect on C3 secretion might be secondary to the TNF-alpha-induced release of IL-1 and/or IL-6.     

Increased C3 production in human monocytes after stimulation with Candida albicans is suppressed by granulocyte-macrophage colony-stimulating factor.

Activation of the complement system is an important part of host resistance against fungal infections. When human monocytes, cultured for 2 days or more, were treated in vitro with Candida albicans for 24 h, an enhancement of their biosynthesis of the complement components C3 and factor B was found. However, when C. albicans was administered to freshly isolated monocytes, a consistent stimulation of factor B biosynthesis occurred, while the C3 production was increased in about 50% of the donors. C. albicans also induced the release of granulocyte-macrophage colony-stimulating factor (GM-CSF) from the cultured cells, apparently in larger amounts in the donors in whom no stimulation of C3 production was found. An antibody to GM-CSF administered with the yeast at the initiation of the monocyte culture caused an increase in the C3 production. Furthermore, when monocytes were treated with recombinant human GM-CSF either at the same time as or 4 days prior to the addition of C. albicans, the increase in C3 production was suppressed or neutralized, while factor B biosynthesis was unaffected. Taken together, these results indicate that monocytes respond to C. albicans with an increased production of complement factors. This may be an important mechanism both for opsonization of the fungus and for initiation of an inflammatory reaction. At an inflammatory site, this complement response may be suppressed by locally produced GM-CSF.     

Suppressive effects of C3b on monocyte-dependent T cell proliferation

The effect of C3b treatment of human monocytes on secondary antigen-dependent T cell response was studied. When antigen-specific T cell blasts were cultivated together with C3b-treated monocytes the proliferative response was inhibited in a dose-dependent fashion. This suppressive effect was specific for C3b because heat-inactivated C3b or buffer alone had no influence on T cell proliferation. In part, this suppressive effect is mediated through a C3b-induced decreased expression of class II antigens on the surface of treated monocytes, but another suppressive mechanism exists because the C3b pretreatment of monocytes also led to an inhibition of the proliferative response in a class II antigen-independent T cell proliferation system. In addition to the C3b data, our finding that treatment of monocytes with C3d resulted in a lower T cell proliferation, while C3c has no effect, suggested that C3d, which could be generated from C3b in the culture, may induce the second inhibitory mechanism.     

Secretion of functionally active complement factor H related protein 5 (FHR5) by primary tumour cells derived from Glioblastoma Multiforme patients

The complement system is an important humoral immune surveillance mechanism against tumours. However, many malignant tumours are resistant to complement mediated lysis. Here, we report secretion of complement factor H related protein 5 (FHR5) by primary tumour cells derived from Glioblastoma multiforme (GBM) patients. We investigated whether the secreted FHR5 exhibited functional activity similar to factor H, including inhibition of complement mediated lysis, acting as a co-factor for factor I mediated cleavage of C3b, and decay acceleration of C3 convertase. Immunoblotting analysis of primary GBM cells (B30, B31 and B33) supernatant showed the active secretion of FHR5, but not of Factor H. ELISA revealed that the secretion of soluble GBM-FHR5 by cultured GBM cells increased in a time-dependent manner. Primary GBM-FHR5 inhibited complement mediated lysis, possessed co-factor activity for factor I mediated cleavage and displayed decay acceleration of C3 convertase. In summary, we detected the secretion of FHR5 by primary GBM cells B30, B31 and B33. The results demonstrated that GBM-FHR5 shares biological function with FH as a mechanism primary GBM cells potentially use to resist complement mediated lysis.     

Schizophrenia and other psychiatric diseases: evidence for neurotissue hypersensitivity

Using immunofluorescence and pulse-label studies with 3H-labelled amino acids, histamine was shown to inhibit the secretion of newly synthesized C2, C4, C3, factor B and beta 1H globulin by monocytes in culture. The findings suggested that protein synthesis was decreased, and that the degradation of newly synthesized intracellular protein was increased in histamine-treated monocytes. The observations that all monocytes in cultures containing histamine stained for C2, C4, and C3, factor B and beta 1H, when secretion was impaired, shows that all monocytes synthesize these proteins. These results demonstrate a negative feedback loop on C3 and C5 cleavage. The anaphylotoxins, C3a and C5a, formed as a result of C3 and C5 cleavage, release histamine from mast cells and basophils. Histamine, by inhibiting the production of C4, C2, and C3 and factor B by mononuclear phagocytes, inhibits further C3 and C5 cleavage by restricting the formation of C42, C423b and C3bBbP.     

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.     

Control of the immune complex-complement interaction by protein H of the alternative complement pathway and the natural inhibitor heparin

The potential of the negative regulatory protein H of the alternative complement pathway convertase and of heparin in modulating the complement-dependent capacity of fresh serum to inhibit immune complex precipitation (CIICP) between bovine serum albumin (BSA) and rabbit anti-BSA as well as tetanus toxoid (TT) and human anti-TT was assessed. Additions of purified H to serum to increase the intrinsic concentration of this protein by 80% (BSA-anti-BSA system) and 190% (TT-anti-TT system) resulted in an inhibition of CIICP by 50% and 60%, respectively, whereas further increase of the amount of H lead to a decrease of its inhibitory activity. A similar effect was observed with heparin: at a concentration of 400 U/ml a 90% inhibition of CIICP in the TT-anti-TT system was obtained which diminished at higher heparin concentrations. The effect of H on C3 deposition to immune aggregates was assessed through its influence on C3b-mediated immune adherence hemag-glutination; factor H dose-dependently suppressed such hemagglutination induced by aggregated human IgG or preformed TT-anti-TT complexes when added to the immune complex-fresh serum mixture at the outset but not after 45 min of the 37 °C incubation period which means that H inhibited more likely decoration of immune complexes with C3b than it did inhibit the interaction of C3b-coated immune complexes with erythrocytes. This suppressive effect of H was reversed by the simultaneous addition of the activating protein B. Complement-mediated binding of tritiated C3 to latex-bound human IgG was assessed and H was found to dose-dependently inhibit such binding with a maximal inhibition of 37% at a H concentration of 7 μg/ml.     

Cyclic AMP mediated modulation of complement protein production

We have investigated the mechanisms by which cAMP analogues and phosphodiesterase inhibitors, reduced the production of C2 by monocytes in culture. Pulse label studies with 3H-labelled aminoacids showed that dibutyryl cAMP (dbcAMP) impaired the secretion of newly synthesised protein, both total (acid-precipitable) and individual complement proteins (precipitated antibody by antisera to C4, C2, C3, C5, B, P, C3b inactivator and beta 1H). The intracellular degradation of newly synthesised protein was increased in dbcAMP-treated cultures and protein synthesis was reduced. Studies aimed at defining the temporal relationships between these changes showed that protein secretion was impaired on the first day of culture, and increased degradation of newly synthesised protein was obvious by day 2. Protein synthesis was not significantly reduced until day 3 of culture. It is proposed that changes in intracellular cAMP levels may act as a second signal in the control of protein production by monocytes.     

Hormonal regulation of complement biosynthesis in human cell lines--II. Upregulation of the biosynthesis of complement components C3, factor B and C1 inhibitor by interleukin-6 and interleukin-1 in human hepatoma cell line

The effect of interleukin (IL)-6 and IL-1 on the biosynthesis of complement components C3, factor B, C2, C4 and C1 inhibitor (C1 inh), as well as that of albumin, was studied in vitro in human hepatoma-derived cell line, HepG2. Measuring the amounts of secreted complement proteins we detected a significant upregulation of C3 by both hormones. The enhancement of the factor B and especially that of C1 inh production was predominant by IL-6. In our experimental system neither IL-1 nor IL-6 affected the biosynthesis of C2 and C4. Albumin secretion was significantly decreased only in the simultaneous presence of IL-1 and IL-6. Detection of the changes in the amounts of C3- and factor B-specific mRNA of HepG2 cells suggests a pretranslational regulation by these cytokines. The secretion of C3 and factor B was markedly potentiated when IL-1 and IL-6 were added together. However only the gene expression of factor B, but not of C3, was found to reveal synergism. IL-6 enhanced the in vitro production of C3 in mouse hepatocytes as well. This effect was greatly potentiated in the presence of histamine.     

Activation of complement receptor 3 on human monocytes by cross-linking of very-late antigen-5 is mediated via protein tyrosine kinases

Bordetella pertussis interacts with very-late antigen-5 (VLA-5) receptors on the human monocyte resulting in cross-linking of these receptors followed by activation of complement receptor 3 (CR3) and firm adhesion of B. pertussis to these monocytes. In the present study we investigated whether protein tyrosine kinases are involved in the activation of CR3 on monocytes, which was assessed by the binding of C3bi-coated erythrocytes (EC3bi). Pre-incubation of monocytes with tyrphostin-A47, a specific protein tyrosine kinase inhibitor, before adherence of the cells to an anti-VLA-5 monoclonal antibody-coated surface, or addition of tyrphostin-A47 within 10 min of the adherence to such surface, reduced the binding of EC3bi to monocytes significantly. Pre-incubation of monocytes with tyrphostin-A47 reduced the binding of B. pertussis to such monocytes as well. Inhibitors of protein kinase A and/or C had no effect on EC3bi binding to monocytes. Cross-linking of VLA-5 on monocytes resulted in tyrosine phosphorylation of several proteins. Together, these results indicate that protein tyrosine kinases are involved in the VLA-5-induced activation of CR3 on human monocytes.