Effect of C-reactive protein on peritoneal macrophages. II. Human C-reactive protein activates peritoneal macrophages of guinea pigs to release superoxide anion in vitro

The effect of human C-reactive protein (CRP) on macrophage function was studied in an assay of superoxide anion (O2-) production. Peritoneal exudate macrophages (PEM) of guinea pigs exposed in vitro to various doses of CRP for 72 hr resulted in the development of O2- production dose-dependently, measured by increases in superoxide dismutase-inhibitable nitro blue tetrazolium reduction. The O2--producing activity of PEM cultured without CRP, used as a control, decreased markedly in proportion to incubation time. The O2- production by PEM exposed to CRP for 18 hr when control PEM were still high in O2- production, was decreased by larger doses of CRP, while PEM cultured without CRP for 72 hr, when O2- production by control PEM was very low, followed by incubation with CRP for another 18 hr, produced O2- CRP-dose-dependently as in the case of that observed after 72-hr incubation with CRP. These results indicate that CRP is capable of activating macrophages and acts on macrophage function as a modulator. CRP possesses migration inhibitory factor (MIF)-like activity (as reported in the preceding paper) and also macrophage-activating factor (MAF)-like activity, indicating that CRP may play a functional role at the site of inflammation and tissue damage by accumulating and activating macrophages.     

Cell-mediated immunity to mouse adenovirus infection. Macrophage migration inhibition test.

Cell-mediated immunity (CMI) to mouse adenovirus (M-Ad) infection was studied by macrophage migration inhibition test (MMI) as one of in vitro correlates of CMI. Both direct and indirect tests showed clearly that migration of packed peritoneal exudate cells (PEC) (immune mouse or nonimmune guinea pig) was remarkably inhibited; MIF was produced by interactions between immune PEC and infected cell extracts and between immune spleen cells and infected cells or their extracts. The antigen(s) responsible for the above MMI was demonstrated in 6- to 12-hour infected ME cells, and FUdR-treated infected ME cells. Since under these conditions there is S antigen(s) synthesis but not capsid antigen synthesis, the antigen(s) concerned must be an S antigen(s). T cells sensitized to infected cells were shown to be required to induce MMI. The MMI is specific for M-Ad, since no cross MMI was observed between M-Ad and SV40 systems. Time course study of the development of CMI to M-Ad by MMI tests showed that CMI became detectable 4 days post-infection (pi), reached its peak level about 10 days pi, and faded away rapidly in about 10 days thereafter.     

A membrane-associated form of C-reactive protein is the galactose-specific particle receptor on rat liver macrophages

Rat liver macrophages express a galactose-specific receptor which mediates endocytosis of particles or neuraminidase-treated blood cells. From rat serum we now have isolated and purified a galactose-specific lectin by affinity chromatography. Comparative analysis of this serum galactose-binding protein with the galactose-particle receptor protein purified from rat liver macrophages and with C-reactive protein (CRP) reveals close relation or identity of these proteins. An apparent m.w. of 30,000 was determined for all three proteins by SDS-PAGE under reducing conditions and m.w. of about 130,000 by native PAGE. All three proteins exhibit the same pentameric, ring-shaped structure in electron microscopy after negative staining. Antibodies raised against the serum galactose-binding protein or against the macrophage receptor cross-react. A mAb specific for rat neo-CRP labels liver macrophages but not hepatocytes and reacts with the isolated protein in a Western blot assay. Furthermore, the galactose-particle receptor can be functionally replaced by purified CRP: the binding capacity for neuraminidase-treated E of receptor-depleted liver macrophages can be restored by preincubation with purified rat CRP. We therefore conclude that CRP occurs as a membrane-associated protein constitutively expressed on liver macrophages functioning as a receptor mediating galactose-specific binding of particulate ligands.     

Specific immunosuppression by passive antibody. V. Participation of macrophages in reversal of suppression by peritoneal exudate cells from immune animals

Thioglycollate-stimulated peritoneal exudate cells (PEC), harvested from mice immunized against sheep erythrocytes (SRBC) and transferred to normal syngeneic recipients, reverse the immunosuppression caused by passively administered anti-SRBC antibody. Macrophages purified from PEC on BSA gradients did not reverse immunosuppression; neither did suspensions of cells from mesenteric lymph nodes of immune mice. Mixtures of the purified macrophages and lymph node cells were fully capable of reversing immunosuppression. Thus, two types of cell, one a macrophage and one a lymphocyte, are required. Both must be compatible with the recipient mice at the H-2 complex. However, only the macrophages must necessarily be obtained from an immune donor. When “immune” macrophages were preincubated in vitro with “normal” lymph node cells before transfer to antibody-treated syngeneic recipients, a significant reversal of the immunosuppressive effect occurred. The ability of whole PEC or spleen cells to reverse the immunosuppressive effect of passive antibody is acquired rapidly after injection of a single low dose of antigen. Development of this ability precedes the appearance, in the circulation, of immunosuppressive antibody.     

C-reactive protein enhances macrophage lipoprotein lipase expression

High serum levels of C-reactive protein (CRP), a strong predictor of cardiovascular events, are documented in patients with type 2 diabetes. Accumulating evidence suggests that CRP could directly promote arterial damage. To determine the role of CRP in diabetic atherosclerosis, we examined the effect of CRP on the expression of macrophage lipoprotein lipase (LPL), a proatherogenic molecule upregulated in type 2 diabetes. Treatment of human macrophages with native CRP increased, in a dose- and time-dependent manner, LPL protein expression and secretion. Modified CRP reproduced these effects. Preincubation of human macrophages with antioxidants, protein kinase C (PKC), and mitogen-activated protein kinase (MAPK) inhibitors prevented CRP-induced LPL expression. Exposure of human macrophages to CRP further increased intracellular reactive oxygen species generation, classic PKC isozymes expression, and extracellular signal-regulated protein kinase 1/2 phosphorylation. In CRP-treated J774 macrophages, increased macrophage LPL mRNA levels and enhanced binding of nuclear proteins to the activated protein-1 (AP-1)-enhancing element were observed. These effects were prevented by antioxidants, as well as by PKC, MAPK, and AP-1 inhibitors. These data show for the first time that CRP directly increases macrophage LPL expression and secretion. Given the predominant role of macrophage LPL in atherogenesis, LPL might represent a novel factor underlying the adverse effect of CRP on the diabetic vasculature.     

Refractoriness to migration inhibitory factor of macrophages of LPS nonresponder mouse strains.

The responsiveness to macrophage migration inhibitory factor (MIF) of peritoneal exudate cells (PEC) from the LPS unresponsive C3H/HeJ and C57BL/10ScCR mice was assessed by the indirect agarose microdroplet macrophage migration inhibition assay. No migration inhibition with PEC from C3H/HeJ nor C57BL/10ScCR mice was detected, whereas PEC from both C3H/HeN and C57BL/10Sn mice were significantly inhibited by even a 1/32 dilution of MIF-containing supernatants. Responsiveness to MIF of C3H/HeJ PEC could, however, be induced. In vivo inoculations of Mycobacterium bovis, strain BCG, 7 days before in vitro assay rendered C3H/HeJ PEC responsive to MIF. The lack of responsiveness to MIF by C3H/HeJ PEC appeared related to some form of suppression, since a mixture of PEC from C3H/HeN mice with 10 to 15% PEC from C3H/HeJ mice resulted in undetectable migration inhibition at any MIF dilution. In contrast to the usual lack of responsiveness of their macrophage to MIF, C3H/HeJ mice were able to produce MIK in response to PPD as well as their counterpart C3H/HeN mice after BCG sensitization. These results demonstrate that macrophages from C3H/HeJ and C57BL/10ScCR mice are unable to be inhibited in their in vitro migration of MIF (possibly being directly or indirectly influenced by a suppressor cell), whereas lymphoid cells from at least one of these strains, the C3H/HeJ mice, can produce MIF in response to antigenic stimulation.     

C-reactive protein functions as a negative regulator of macrophage activation induced by apoptotic DNA

C-reactive protein (CRP), an acute-phase protein with an ability to bind to nuclear antigen, has been reported to regulate cytokine secretion and modulate immune responses. We previously reported that activated syngeneic lymphocyte-derived apoptotic DNA (apopDNA) could induce macrophage activation and contribute to the initiation and progression of lupus nephritis. It is reasonable to hypothesize that CRP might regulate apopDNA-induced macrophage activation. Herein, CRP was shown to promote macrophage-mediated apopDNA uptake by binding to apopDNA (CRP/apopDNA complex). Notably, CRP/apopDNA treatment inhibited the production of inflammatory cytokines and chemokines by macrophages which could be induced by apopDNA alone. Further coculture and transwell studies revealed that CRP/apopDNA-induced macrophages prohibited apopDNA-induced macrophage activation in an IL-10 dependent manner. These results provide insight into the potential mechanism of CRP regulatory activity in macrophage activation induced by apopDNA in the context of lupus nephritis and other autoimmune diseases.     

Opposing effects of cryostat sections of preneoplastic and neoplastic mouse mammary lesions on in vitro migration of peritoneal exudate cells.

Cryostat sections of normal mouse tissues and of preneoplastic HAN and neoplastic mammary tumors were used as "antigens" in MMI tests. Nonspecific inhibition of normal and sensitized PEC migration was induced by HAN and some normal tissues, including normal mammary gland. This inhibition did not require the presence of lymphocytes, was not species specific, and could be blocked by sera from HAN-bearing mice. Cryostat sections of mammary tumors did not inhibit, indeed occasionally enhanced PEC migration. Further, the presence of tumor cryostats and eluates interfered with inhibition induced by HAN cryostats and by PPD with PEC from donors sensitized to that antigen. Histologic examination of HAN and of mammary tumor tissue revealed inflammatory cells to be distributed diffusely in the former and localized peripherally around the latter type of lesion.     

Activity of antileishmanial agents against amastigotes in human monocyte-derived macrophages and in mouse peritoneal macrophages

Leishmania multiplying within either human monocyte-derived macrophages (HM) or mouse peritoneal exudate cells (PEC) have recently been shown to be susceptible to pentavalent antimony (Sb) by several investigators. The Sb susceptibilities of 5 cutaneous strains of Leishmania were compared in the 2 model systems, with infection of the macrophages initiated with either amastigotes or promastigotes. The susceptibility to Sb of amastigote-induced infections was statistically the same as the susceptibility of promastigote-induced infections for 4 strains in the PEC model, and for 3 of 4 strains in the HM model. Promastigote-induced infections with the 5th strain were non-viable in both macrophage types. The susceptibility of Leishmania to Sb within PEC was the same statistically as that of organisms within HM for amastigote-induced infections for 4 of 5 strains and for promastigote-induced infections by 3 of 4 strains. These data suggested that the susceptibilities of organisms to Sb within PEC and HM were generally comparable and that either amastigotes or viable promastigotes could be used to initiate the infection. The several technical advantages of the PEC model may make it more useful than the HM model for testing susceptibility to Sb. The modest susceptibility of some strains in both models to the peak serum amounts of antimony which may be achieved by presently recommended treatment regimes may partially explain the high current failure rate in simple cutaneous disease. The susceptibility of one strain within peritoneal cells to primaquine and WR 6026 (8-aminoquinolines), ketoconazole (an imidazole) and formycin B (an inosine analogue) was similar to that previously reported in human macrophages.(ABSTRACT TRUNCATED AT 250 WORDS)     

Characterization and isolation of a C-reactive protein receptor from the human monocytic cell line U-937

Human C-reactive protein (CRP) is an acute phase reactant that is opsonic and an activator of macrophage tumoricidal function. CRP also activates the classical C cascade. These activities suggest that CRP might interact with monocytes/macrophages via specific receptors in a manner analogous to the interaction of IgG with FcR. With the use of radio-labeled human CRP, we have observed specific binding of CRP to human blood monocytes and the human monocytic cell line U-937. Binding was saturable at a pathophysiologic concentration of CRP, with an estimated KD of 9.5 x 10(-8) M and 3.6 x 10(5) binding sites/cell. Specific binding was inhibited by polyclonal human IgG as well as an IgG1 myeloma. In the converse experiment, CRP failed to inhibit specific [125I]IgG binding. The mAb IV.3, which inhibits binding of IgG immune complexes to FcRII, did not inhibit CRP binding. A 100-fold excess of phosphorylcholine or the phosphorylcholine binding peptide of CRP (residues 47-63) failed to inhibit binding. Although human rIFN-gamma and PMA increased FcRI expression, these reagents had no affect on CRP receptor expression. A single membrane protein of 38 to 41 kDa from U-937 cells was chemically cross-linked to [125I]CRP; the cross-linking was inhibited by human IgG1 but not the IV.3 mAb. Furthermore, two membrane proteins with a Mr of 38 to 40 kDa and 58 to 60 kDa were isolated by CRP ligand-affinity chromatography. These proteins were of a distinct size from those isolated for FcRI from an IgG ligand matrix. These studies demonstrate specific binding of human CRP to a human monocytic cell line via receptors that are distinct from the IgG FcR and implicate CRP in nonspecific, preimmune host defense reaction mediated by cells of the monocytic lineage.     

Stimulatory effects of purified macrophage colony-stimulating factor on murine resident peritoneal macrophages

A purified preparation of macrophage colony-stimulating factor (M-CSF) free of interferon and endotoxin activity was studied for its effects on resident murine peritoneal macrophages. M-CSF was found to induce profound morphologic alterations in resident macrophages. These changes included a marked increase in cell size, membrane ruffling, and cytoplasmic vacuolization. Further, after 72 hr of incubation with 1000 U/ml of M-CSF, there were significant increases in macrophage DNA synthesis as measured by autoradiography (P less than 0.001), and in macrophage monolayer protein content (P less than 0.01). None of these changes was seen in control macrophages or those exposed to recombinant interferon-gamma (IFN). Low activity levels of the ectoenzymes 5'-nucleotidase (5'NTD) and alkaline phosphodiesterase I (APD) have been associated with certain macrophage functions, particularly the expression of tumor cytotoxicity. Macrophage monolayers exposed to M-CSF demonstrated an unaltered level of 5'NTD activity from controls and a significantly increased level of APD activity (P less than 0.01) and did not demonstrate an increased ability to kill tumor cells, as measured by the 51Cr-release assay. On the other hand, IFN caused significant decreases in both 5'NTD (P less than 0.05) and APD (P less than 0.01) and also induced marked tumoricidal activity in macrophage monolayers. These results indicate that purified M-CSF induces highly specific alterations in the functional activity and morphologic appearance of resident macrophages and these changes are distinct from those induced by IFN.     

Impaired anti-tumor cytotoxicity of macrophages from osteopontin-deficient mice

Osteopontin (OPN) expression in tumors is associated with more aggressive tumor growth; however, several studies have suggested that OPN as a host protein can regulate tumor growth as well. OPN is produced by macrophages and T cells, and reportedly modifies macrophage function. Here, we have investigated the effect of OPN on macrophage function, and its role in host defense against tumor growth. OPN deficient (-/-) and wild-type (WT) peritoneal macrophages were assessed for their ability to mediate cytotoxicity of tumor cells. Thioglycollate-elicited peritoneal exudate cells (PEC) were stimulated in vitro with interferon-gamma and lipopolysaccharide. [(3)H]Thymidine-labeled ras-transformed tumor cells were then added and (3)H release and nitrite accumulation were measured. OPN -/- PEC exhibited as much as a 70% reduction in cytotoxicity as compared to WT PEC. Tumor cell OPN status, on the other hand, had little effect on the extent of cytotoxicity. Production of nitrite by the PEC correlated with their capacity to kill tumor cells. L-929 cells, which are relatively resistant to nitric oxide-induced cytotoxicity and sensitive to that effected by TNF-alpha, were killed equally well by wild-type and OPN-deficient PEC, suggesting that the effect of OPN is not mediated through TNF-alpha. No difference was seen in the cytotoxicity of resident macrophages from mice of different genotypes, indicating that the defect in the OPN-deficient macrophages may result from altered differentiation in vivo. In support of this idea, we show that the expression of the macrophage markers F4/80 in peritoneal cells and of Mac-2 in spleen cells is altered in OPN -/- mice as compared to WT. These data support the hypothesis that host-derived osteopontin may inhibit tumor growth and provide a mechanism for this effect.     

Astasian: A new stimulator of peritoneal macrophages

Immunological properties of astasin, a novel substance isolated from Astasia longa was studied. 3-4 days after intraperitoneal administration of astasin in a dose of 1000 micrograms per a mouse (50 mg/kg) in the form of suspension in physiological solution or gel in dimethylsulfoxide there was observed maximum increase in the number of the Fc-receptor cells of the macrophage plasmatic membranes and intensity of sheep red blood cell phagocytosis (3.6-4 and 3.2-4-fold, respectively). Dimethylsulfoxide solution of astasin increased migration of the cells into the abdominal cavity by 5.8 times. The respective figure for the astasin suspension was 28. times. Therefore, differences in the nature of the effect and quantitative indices after the exposure to astasin in the above two forms were observed. Sodium chloride isotonic solution of astasin had a retarded but more prolonged effect on the macrophages which was probably due to gradual digestion of the polysaccharide phagocyted granules by the macrophages.     

Interaction of very low density lipoproteins (VLDL) with rabbit C-reactive protein

Rabbit CRP is similar to human CRP in structure, kinetics of appearance, and binding reactivities to phosphate esters and cationic polymers. CRP in rabbit acute-phase serum migrates either with gamma or with beta, pre-beta electrophoretic mobility, and distinct gamma- and beta-migrating species can be observed simultaneously in some sera. The present study shows that beta-CRP in serum is converted to gamma mobility during isolation and purification. Normal, acute-phase, or CRP-depleted acute-phase rabbit serum restores the beta mobility of purified gamma-CRP, a conversion that does not occur in the presence of EDTA. Serum CRP fails to adsorb to DEAE-cellulose but does adsorb to CM-cellulose, from which it elutes as gamma-mobility antigen. Chelation by EDTA or flotation and removal of lipoproteins from acute phase rabbit serum produces a gamma-mobility CRP that adsorbs to the anion-exchange resin. Lipid-containing fractions from ion-exchange columns as well as VLDL (but not LDL or HDL) isolated by ultracentrifugation change the mobility of purified CRP from gamma to beta, pre-beta. These changes in mobility are not observed in the presence of EDTA or phosphocholine. In acute-phase rabbit serum with CRP of both beta and gamma mobility, the beta form has a higher m.w. and is lipid-associated, whereas the gamma form is a lower m.w., lipid-poor molecule. These results suggest that in serum the association of CRP with lipoproteins, particularly VLDL, is responsible for its beta, pre-beta electrophoretic mobility. Further studies of the association of CRP with lipoprotein in relation to lipoprotein metabolism may provide insight into the biological role of CRP.     

Use of 51Cr-labelled macrophages for the objective evaluation of macrophage migration inhibition]

A possibility of using 51Cr-labeld macrophages migrating from the capillaries and lysed with sodium dodecyl sulfate for objective and quantitative assessment of the results of macrophage migration inhibition (MMI) microassay was demonstrated on the basis of correlation analysis of the experimental data. Migration area and sensitivity of 51Cr-labeled macrophages to the action of the factor of migration inhibition were found not to differ from those of unlabeled macrophages. In the assessment of the absolute macrophage migration values and its reduction under the action of the factor of migration inhibition formed in the H-2 system, and also of the specificity of this reduction there was revealed a high correlation between the migration area and the value of the migrant cell label.     

B1-B cells are the main antigen presenting cells in CpG-ODN-stimulated peritoneal exudate cells

Peritoneal exudate cells (PEC) have long been used as antigen presenting cells (APC), because they have been considered to contain mainly macrophages. However, it is still unclear specifically which cells of the peritoneal exudate function as APC. Herein, we focused on macrophages and B1-B cells of the PEC and examined their APC function and cytokine production. B1-B cells purified from PEC functioned effectively as APC after CpG-stimulation and mainly produced IL-10. In contrast, macrophages purified from PEC were not able to present incorporated antigens to T cells, despite the production of IL-12 and expression of co-stimulatory molecules after CpG stimulation. These results suggest that previously held ideas regarding the functions of the mixture of cells in the PEC need to re-evaluated. In summary, the antigen presenting function of PEC was mainly attributed to B1-B cells and immunoenhancing cytokine production was dominantly derived from peritoneal macrophages.     

Identification of the serum factor required for in vitro activation of macrophages. Role of vitamin D3-binding protein (group specific component, Gc) in lysophospholipid activation of mouse peritoneal macrophages

In vitro treatment of mouse peritoneal cells (mixture of adherent and nonadherent cells) with lysophosphatidylcholine (lyso-Pc) in 10% FCS supplemented medium RPMI 1640 results in a greatly enhanced FcR-mediated phagocytic activity of macrophages. This macrophage-activation process requires a serum factor. Fractionation studies with starch block electrophoresis of fetal calf and human sera revealed that alpha 2-globulin fraction contains a serum factor essential for macrophage activation. To identify the serum factor, human serum was precipitated with 50% saturated ammonium sulfate and fractionated on a Sephadex G-100 column. A protein fraction with a lower m.w. than albumin had the capacity to support activation of macrophages. The active serum factor in this protein fraction was analyzed by immunoabsorption by using rabbit antisera against three major proteins of human alpha 2-globulin. This active serum factor was shown to be a vitamin D3-binding protein (group specific component, Gc). By using a monoclonal anti-Gc-absorbed active column fraction of human serum, we observed no enhanced macrophage activation over the results with serum fraction-free cultivation of lyso-Pc-treated peritoneal cells. Cultivation of lyso-Pc-treated peritoneal cells in a medium containing a low concentration of purified human Gc protein (0.1 to 2.6 ng/ml) produced a greatly enhanced phagocytic activity of macrophages. When purified human Gc protein was used in a serum-free medium for stepwise cultivation of lyso-Pc-treated nonadherent cell types, a macrophage-activating factor was efficiently generated. Therefore, it is concluded that the vitamin D3-binding protein is the essential serum factor for the lyso-Pc-primed activation of macrophages.     

Effect of astasilid on the stimulation of peritoneal macrophages

The effect of astasilid, a sucrose monoester and the effect of mainly unsaturated fatty acids from the lipid fraction of Astasia longa on immunocompetent cells--macrophages of the mouse peritoneal cavity were studied. It was shown that astasilid increased 7.5-8.5-fold expression of Fc-receptors on the macrophage plasmic membranes and stimulated 5.5-6.5-fold the macrophage capacity for Fc-dependent phagocytosis of sheep red blood cells. Astasilid had no effect on migration of the macrophages into the abdominal cavity.     

Similarities in enhanced glucosamine incorporation by macrophages stimulated with migration inhibitory factor and the fucolectin from Lotus tetragonolobus

Fucose-binding protein (FBP), the fucolectin from Lotus tetragonolobus, was compared with migration inhibitory factor (MIF) for its ability to stimulate [¹⁴C]glucosamine incorporation into trichloroacetic acid (TCA)-insoluble material of guinea pig peritoneal exudate cells (PEC) using a microtiter assay. Both MIF and FBP inhibit macrophage migration and were shown to stimulate glucosamine incorporation in a similar dose response fashion over time. Both unpurified PEC and PEC depleted of nonadherent cells displayed significant levels of glucosamine incorporation when stimulated by MIF or FBP. Tunicamycin and 2-deoxy-d-glucose, known inhibitors of glycosylation, inhibited glucosamine incorporation by control and MIF- or FBP-stimulated PEC. These results confirm the similarities between MIF and FBP in their biological activity for macrophages using a second in vitro correlate of cell-mediated immunity and suggest involvement of enhanced glycoprotein or glycolipid biosynthesis by FBP and lymphokine-activated macrophages.     

Purification and partial characterization of elastase activity from rat alveolar and peritoneal macrophages

Macrophage elastase was purified from conditioned media from alveolar and thioglycollate-elicited peritoneal macrophages. The enzyme was purified to apparent electrophoretic homogeneity by preparative isoelectric focusing after a purification step consisting of low ionic strength dialysis and sequential batch fractionation on DEAE-Sephadex A-50. The proteinase activities isolated from alveolar and peritoneal macrophages showed the same physical and biochemical properties. This fact suggests that the same enzyme activity is present in rat macrophages of two different anatomical sites. The molecular weight and isoelectric point of the enzyme were estimated to be 22,500 and 8.3, respectively. The enzyme, characterized as a metallo proteinase, had elastolytic activity, as well as activity toward Suc-(Ala)3-NA. It is inhibited by o-phenanthroline, chicken ovoinhibitor, and EDTA, but not by phenylmethylsulfonyl fluoride or soybean trypsin inhibitor. The macrophage enzyme possesses biochemical and biophysical properties different from the rat pancreatic and granulocyte elastases (which are serine proteinases), and from the metallo proteinase with elastolytic activity isolated from rat platelets.