Roles of CR3 and mannose receptors in the attachment and ingestion of Leishmania donovani by human mononuclear phagocytes.

Leishmania donovani is an obligate intracellular parasite of mammalian macrophages. Two macrophage receptors, the mannose-fucose receptor (MFR) and the receptor for complement component C3bi, CR3, were examined for their roles in the attachment and ingestion of L. donovani by human monocyte-derived macrophages. Two monoclonal antibodies which bind to the human CR3, anti-Mo1 and anti-Mac-1, inhibited both attachment and ingestion of L. donovani promastigotes after preincubation with human monocyte-derived macrophages; attachment was inhibited by 40 and 62% by anti-Mo1 and anti-Mac-1, respectively, and ingestion was inhibited by 34 and 51% by anti-Mo1 and anti-Mac-1, respectively. The interaction between promastigotes and CR3 may not have involved the C3bi-binding site on CR3, however, because a monoclonal antibody which exhibits specificity for this site, OKM10, inhibited promastigote attachment by only 18%. In contrast, OKM1, which is believed to react with the alternate lectinlike binding site on CR3, inhibited ingestion by 65%. MFR activity was inhibited using the soluble MFR ligands, mannan and mannosylated bovine serum albumin, which also inhibited promastigote attachment by 40 and 37%, respectively. The simultaneous inhibition of both CR3 (by anti-Mac-1) and the MFR (by either mannan or mannosylated bovine serum albumin) resulted in a greater decrease in promastigote attachment than inhibition of either receptor alone. Additionally, the reduction of MFR activity by allowing macrophages to adhere to a mannan-coated surface followed by the addition of anti-CR3 antibodies resulted in an 81% inhibition of promastigote ingestion, a greater decrease than was obtained by manipulation of either receptor alone. The results suggest that the MFR and CR3 independently participate in the attachment and ingestion of L. donovani promastigotes by human macrophages.     

CR1 (CD35) and CR3 (CD11b/CD18) mediate infection of human monocytes and monocytic cell lines with complement-opsonized HIV independently of CD4.

Peripheral blood and tissue mononuclear phagocytes serve as major viral reservoirs in HIV-infected individuals. We investigated the role of complement receptors CR1 (CD35) and CR3 (CD11b/CD18) in mediating productive infection with complement-opsonized HIV-1 and HIV-2 of cultured normal human peripheral blood monocytes, the promonocytic cell line THP-1, the monocytic cell line Mono Mac 6 and the glial cell line U251-MG. Cells were infected with the HTLV-IIIB strain of HIV-1 or the LAV-2 strain of HIV-2 that had been preopsonized with fresh human normal HIV seronegative serum. Productive infection was assessed by syncytia formation, the MTT cytotoxicity assay and/or release of p24 antigen in culture supernatants. Using suboptimal amounts of virus to infect the cells, we observed a higher and earlier productive infection of the cells with complement-opsonized HIV than with unopsonized virus. The enhancing effect of complement was totally suppressed by blocking CR1 or CR3 function with F(ab)'2 fragments of anti-receptor MoAbs; while blocking of the LFA-1 antigen had no effect. The infection of monocytic cells with complement-opsonized virus occurred independently of CD4 since it was not inhibited by F(ab)'2 fragments of a MoAb against the gp120 binding site of CD4 and since infection also occurred with Mono Mac 6 and U251-MG cells, which lack expression of the CD4 antigen and of CD4 mRNA. These observations suggest that complement may mediate productive infection of cells of the monocytic lineage with 'lymphocytotropic' HIV strains independently of CD4.     

Inhibition by monoclonal anticomplement receptor type 1 on interactions between senescent human red blood cells and monocytic-macrophagic cells

The effect of different murine monoclonal antibodies (Mab) specific for the glycoprotein complement receptor type 1 (CR1), type 2 (CR2), and type 3 (CR3) on the adhesion to and on the phagocytosis of human senescent red blood cells (S-RBC) by monocytes or by monocyte-derived macrophages (M phi) was investigated. Murine Mab anti-CR3 (anti-Leu 15 and OKM1) were found to inhibit, in the same order of magnitude, on one hand, the Fc receptors (FcR)-dependent rosetting and phagocytosis, and, on the other hand, the S-RBC rosetting and phagocytosis by adherent monocytes. Thus, the specific involvement of the CR3 epitopes recognized by Mab anti-Leu 15 or by OKM1 in the interactions between S-RBC and monocyte/macrophage could not be demonstrated. Murine Mab anti-CR1 was found to be a significant inhibitor of binding to and of phagocytosis of S-RBC (but not of young [Y] RBC) by monocytes or M phi, whereas Mab OKM5 carrying the same isotype as Mab anti-CR1, but a different specificity, was devoid of any significant inhibitory effect. Furthermore, Y-RBC or S-RBC opsonized with Mab anti-CR1 did not form FcR-dependent rosettes and were not internalized by monocytes; in addition, preincubation of phagocytes with Mab anti-CR1 did not inhibit FcR-dependent rosetting and phagocytosis. These results suggest that the effect of anti-CR1 is mediated through a specific binding to CR1 and not through an FcR blockade. As the role of specifically bound IgG on phagocytosis of human S-RBC by macrophages has previously been demonstrated by several authors, the present study suggests that monocyte-macrophage complement receptor type 1 may act in synergy with Fc receptors in the recognition of S-RBC by macrophages. It is shown in addition that the tripeptide Arg-Gly-Asp, identical to the region of iC3b recognized by CR3 and by several adhesion-promoting receptors that are structurally similar to CR3, such as fibronectin or vitronectin, is a significant inhibitor of the binding to and the phagocytosis of S-RBC by monocytic-macrophagic cells.     

Mab. 198: a monoclonal antibody recognizing the complement type 3 receptor (CR3) in the rabbit.

A mouse monoclonal (Mab.198, IgG1) was generated that recognizes an epitope expressed on rabbit peripheral phagocytes and tissue macrophages. The membrane antigen recognized by Mab.198 consisted of two polypeptide chains of 165,000 and 95,000 molecular weight (MW). This Mab efficiently inhibited complement receptor-mediated granulocyte functions such as phagocytosis of complement-opsonized particulate antigens and zymosan-induced chemiluminescent responses. Fc receptor-mediated phagocyte functions were, on the contrary, barely affected by Mab.198. The cellular distribution, molecular structure and functional characteristics of the membrane antigen defined by Mab.198 suggested that this antibody recognizes the complement type 3 receptor (CR3). We found that Mab.M1/70, specific for mouse CR3 (i.e. CD 11 or Mac-1 antigen), also binds on rabbit phagocytes. However, this Mab recognizes a different CR3 epitope than Mab.198 as shown by cross-blocking experiments. This anti-rabbit CR3 Mab will be useful in the characterization of rabbit complement receptors and their involvement in immune reactions.     

Treatment of murine macrophages with interferon-gamma inhibits their ability to bind leishmania promastigotes.

The binding of leishmania promastigotes to macrophages pretreated with interferon-gamma (IFN-gamma) was compared to binding to untreated (resident) cells. IFN-gamma-treated macrophages bound fewer leishmania promastigotes than did untreated cells. The decreased binding was apparent over a wide dose range of parasite inocula when the assays were performed in the absence of exogenous complement. This decrease was specific to leishmania, since treated and untreated macrophages bound comparable amounts of immunoglobulin G- and complement-coated sheep red blood cells. Decreased parasite binding occurred early in the macrophage activation pathway. Pretreatment of macrophages with IFN-gamma for as little as 6 h, a time insufficient to induce other macrophage activation parameters, significantly reduced their ability to bind leishmania promastigotes. To determine the mechanism of this decreased phagocytosis by activated cells, macrophages were pretreated with specific inhibitors before the addition of leishmania. The binding of promastigotes to untreated (resident) macrophages was inhibited by approximately 50% by reagents that blocked either of two macrophage receptors, complement receptor type 3 (Mac-1) or a leishmania species-specific lectin-like receptor. Binding to IFN-gamma-treated macrophage populations, in contrast, was substantially inhibited only by antibody to Mac-1. Saccharides that were 50% inhibitory in the resident cell population, decreased binding by less than 10% in activated cells. The lack of saccharide inhibition by IFN-gamma-treated cells was also reflected in an inability of activated macrophages to bind to beads coated with purified leishmania lipophosphoglycan (LPG). These LPG-coated beads bound well to resident macrophages but poorly to activated cells. Thus, leishmania bind to macrophages by two distinct mechanisms, one that utilizes Mac-1 and a second mechanism that does not depend on complement and is saccharide inhibitable. These two binding mechanisms are distinct and differentially regulated in resident and activated cells.     

Neisseria meningitidis and Escherichia coli are protected from leukocyte phagocytosis by binding to erythrocyte complement receptor 1 in human blood

The initial interaction of Gram-negative bacteria with erythrocytes and its implications on leukocyte phagocytosis and oxidative burst in human whole blood were examined. Alexa-labeled Escherichia coli, wild-type H44/76 N. meningitidis and the H44/76lpxA lipopolysaccharide (LPS)-deficient mutant were incubated with whole blood using lepirudin as anticoagulant which has no adverse effects on complement. Bacteria free in plasma, bound to erythrocytes or phagocytized by granulocytes and monocytes were quantified using flow cytometry. The effects of the C3 inhibitor compstatin, a C5a receptor antagonist (C5aRa) and a complement receptor 1 (CR1)-blocking antibody (3D9) were examined. Most bacteria (80%) immediately bound to erythrocytes. The binding gradually declined over time, with a parallel increase in phagocytosis. Complement inhibition with compstatin reduced erythrocyte binding and bacterial C3 opsonization. In contrast, the C5aRa efficiently reduced phagocytosis, but did not affect the binding of bacteria to erythrocytes. The anti-CR1 blocking mAb dose-dependently reduced bacterial binding to erythrocytes to nil, with subsequent increased phagocytosis and oxidative burst. LPS had no effect on these processes since similar results were obtained using an LPS-deficient N. meningitidis mutant. In vivo experiments in a pig model of sepsis showed limited binding of bacteria to erythrocytes, consistent with the facts that erythrocyte CR1 receptors are absent in non-primates and that the bacteria were mainly found in the lungs. In conclusion, complement-dependent binding of Gram-negative bacteria to erythrocyte CR1 decreases phagocytosis and oxidative burst by leukocytes in human whole blood.     

Neisseria meningitidis and Escherichia coli are protected from leukocyte phagocytosis by binding to erythrocyte complement receptor 1 in human blood

The initial interaction of Gram-negative bacteria with erythrocytes and its implications on leukocyte phagocytosis and oxidative burst in human whole blood were examined. Alexa-labeled Escherichia coli, wild-type H44/76 N. meningitidis and the H44/76lpxA lipopolysaccharide (LPS)-deficient mutant were incubated with whole blood using lepirudin as anticoagulant which has no adverse effects on complement. Bacteria free in plasma, bound to erythrocytes or phagocytized by granulocytes and monocytes were quantified using flow cytometry. The effects of the C3 inhibitor compstatin, a C5a receptor antagonist (C5aRa) and a complement receptor 1 (CR1)-blocking antibody (3D9) were examined. Most bacteria (80%) immediately bound to erythrocytes. The binding gradually declined over time, with a parallel increase in phagocytosis. Complement inhibition with compstatin reduced erythrocyte binding and bacterial C3 opsonization. In contrast, the C5aRa efficiently reduced phagocytosis, but did not affect the binding of bacteria to erythrocytes. The anti-CR1 blocking mAb dose-dependently reduced bacterial binding to erythrocytes to nil, with subsequent increased phagocytosis and oxidative burst. LPS had no effect on these processes since similar results were obtained using an LPS-deficient N. meningitidis mutant. In vivo experiments in a pig model of sepsis showed limited binding of bacteria to erythrocytes, consistent with the facts that erythrocyte CR1 receptors are absent in non-primates and that the bacteria were mainly found in the lungs. In conclusion, complement-dependent binding of Gram-negative bacteria to erythrocyte CR1 decreases phagocytosis and oxidative burst by leukocytes in human whole blood.     

HIV-1 subverts the complement system in semen to enhance viral transmission

Semen is important in determining HIV-1 susceptibility but it is unclear how it affects virus transmission during sexual contact. Mucosal Langerhans cells (LCs) are the first immune cells to encounter HIV-1 during sexual contact and have a barrier function as LCs are restrictive to HIV-1. As semen from people living with HIV-1 contains complement-opsonized HIV-1, we investigated the effect of complement on HIV-1 dissemination by human LCs in vitro and ex vivo. Notably, pre-treatment of HIV-1 with semen enhanced LC infection compared to untreated HIV-1 in the ex vivo explant model. Infection of LCs and transmission to target cells by opsonized HIV-1 was efficiently inhibited by blocking complement receptors CR3 and CR4. Complement opsonization of HIV-1 enhanced uptake, fusion, and integration by LCs leading to an increased transmission of HIV-1 to target cells. However, in the absence of both CR3 and CR4, C-type lectin receptor langerin was able to restrict infection of complement-opsonized HIV-1. These data suggest that complement enhances HIV-1 infection of LCs by binding CR3 and CR4, thereby bypassing langerin and changing the restrictive nature of LCs into virus-disseminating cells. Targeting complement factors might be effective in preventing HIV-1 transmission.     

C1q acts synergistically with phorbol dibutyrate to activate CR1-mediated phagocytosis by human mononuclear phagocytes

The adherence of human monocytes and culture-derived macrophages to surfaces coated with complement subcomponent C1q has been previously shown to enhance Fc receptor (FcR)-mediated phagocytosis by these cells. We examined the effects of C1q on C3b/C4b receptor (CR1)-mediated phagocytosis by mononuclear phagocytes. A small percentage of human monocytes cultured in the presence of serum became competent to ingest sheep erythrocytes bearing IgM and C4b (EAC4b). This phagocytic activity was enhanced when these cultured-derived macrophages were adhered to C1q-coated surfaces. However, when cultured in a defined serum-free medium, these cells did not ingest EAC4b, even in the presence of C1q. To investigate this differential responsiveness, we studied the effects of C1q in conjunction with cell-activating agents on CR1 activation. Treatment of serum-free cultured monocytes with phorbol dibutyrate (PDBu), prior to addition of the targets, induced these cells to ingest EAC4b. In addition, when exposed to C1q, both the percentage of these PDBu mononuclear phagocytes ingesting EAC4b and the number of targets ingested increased threefold over the level achieved by macrophages treated with PDBu alone. The chemoattractant N-formyl-methionyl-leucyl-phenylalanine did not activate CR1-mediated phagocytosis and did not substitute for PDBu in causing synergy with C1q. Freshly isolated monocytes adhered to human serum albumin-coated glass slides in the absence or presence of PDBu did not phagocytose EAC4b. Also C1q did not stimulate monocyte CR1-mediated phagocytosis. However, addition of PDBu to cells adherent to the C1q surface triggered phagocytosis of EAC4b. The concentration of PDBu and the time of addition of PDBu relative to addition of the EAC4b targets were found to be important parameters for the achievement of maximal synergy in both the freshly isolated and cultured cell systems. This enhanced phagocytic activity was also seen with cells adhered to the purified collagen-like, pepsin-resistant, fragment of C1q. Since this region was previously shown to interact with C1q surface receptors, it appears that occupancy of this receptor is triggering events contributing to the enhanced cellular function. These experiments suggest that C1q and PDBu promote ingestion via CR1 by different but synergistic mechanisms. These data also demonstrate that the CR1-mediated enhancement of phagocytosis is not specific for FcR-mediated ingestion, but also applies to phagocytosis via CR1.     

Regulation of the adhesion versus cytotoxic functions of the Mac-1/CR3/alphaMbeta2-integrin glycoprotein

Mac-1/CR3 functions as both an adhesion molecule mediating the diapedesis of leukocytes across the endothelium and a receptor for the iC3b fragment of complement responsible for phagocytic/degranulation responses to microorganisms. Mac-1/CR3 has many functional characteristics shared with other integrins, including bidirectional signaling via conformational changes that originate in either the cytoplasmic domain or extracellular region. Another key to its functions is its ability to form membrane complexes with glycosylphosphatidylinositol (GPI)-anchored receptors such as Fc gammaRIIIB (CD16b) or uPAR (CD87), providing a transmembrane signaling mechanism for these outer membrane bound receptors that allows them to mediate cytoskeleton-dependent adhesion or phagocytosis and degranulation. Many functions appear to depend upon a membrane-proximal lectin site responsible for recognition of either microbial surface polysaccharides or GPI-linked signaling partners. Because of the importance of Mac-1/CR3 in promoting neutrophil inflammatory responses, therapeutic strategies to antagonize its functions have shown promise in treating both autoimmune diseases and ischemia/reperfusion injury. Conversely, soluble beta-glucan polysaccharides that bind to its lectin site prime the Mac-1/CR3 of circulating phagocytes and natural killer (NK) cells, permitting cytotoxic degranulation in response to iC3b-opsonized tumor cells that otherwise escape from this mechanism of cell-mediated cytotoxicity.     

Evaluation of the effects of defensins on neutrophil functions

Defensins are known to be the microbicidal components of neutrophil granules, which contribute to oxygen-independent antimicrobial mechanisms. In this study, we have examined the effect of defensins on neutrophil functions, such as adhesion, superoxide anion generation, phagocytosis and chemotaxis. Guinea-pig defensins increased the expression of CD11b, CD11c and CD54 (intercellular adhesion molecule ICAM-1) on human neutrophils, and induced adhesion of guinea-pig and human neutrophils. When the effect of guinea-pig defensins on superoxide anion generation was examined, defensins inhibited superoxide anion generation during phagocytosis of complement-opsonized particles. Furthermore, defensins inhibited complement-dependent phagocytosis. However, they did not inhibit the binding of complement-opsonized particles to neutrophils, suggesting that defensins possibly inhibit complement-dependent phagocytosis by affecting the ingestion step but not the binding step. Defensins exhibited neither chemotactic nor chemokine activity. Interestingly, 10–20% of total defensins were released extracellularly from phagocytosing neutrophils. Together these observations indicate that, in addition to their antimicrobial activity, defensins may have the ability to modulate the functions of neutrophils at sites of infection or inflammation.accepted by M. J. Parnham     

Phagocytosis by receptors for C3b (CR1), iC3b (CR3), and IgG (Fc) on human peritoneal macrophages

Human peritoneal macrophages (HPM) obtained via laparoscopy were examined for the presence and functional capacity of complement and Fc receptors. Between 5 and 20 ml of peritoneal fluid containing 1-2 X 10(6) macrophages/ml was available for each study. Macrophages made up 80-95% of the cells in the fluid. Fc and C3 receptors on HPM were characterized by rosette formation with, and phagocytosis of, IgG- and C3-coated sheep erythrocytes (E). ElgG were bound by 82% and ingested by 63% of HPM, with 4-15 E ingested/HPM. The HPM formed rosettes with EC3b (56%) and EC3bi (71%) but not EC3d,g or EC3d. Antibodies to complement receptors type 1 (CR1) and type 3 (CR3) inhibited rosette formation with EC3b and EC3bi, respectively, indicating that HPM possessed separate and distinct receptors for the C3b and iC3b ligands. In 60% of the samples studied, HPM demonstrated the ability to ingest both EC3b and EC3bi, as well as ElgG. Because of the heterogeneous nature of the cells obtained in peritoneal fluid, due to their progressive change from monocytelike cells into mature macrophages, HPM were separated by 1 g velocity sedimentation into fractions of increasing maturity. They were then examined for phagocytosis via Fc and complement receptors. Fc receptor mediated phagocytosis occurred throughout the monocyte-to-macrophage maturation sequence, while the ability of HPM to ingest via CR1 and CR3 was maturation dependent, with ingestion via CR3 occurring before CR1, in a manner analogous to in vitro differentiation of monocyte-derived macrophages.     

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.     

Characterization of the receptor-ligand pathways important for entry and survival of Francisella tularensis in human macrophages

Inhalational pneumonic tularemia, caused by Francisella tularensis, is lethal in humans. F. tularensis is phagocytosed by macrophages followed by escape from phagosomes into the cytoplasm. Little is known of the phagocytic mechanisms for Francisella, particularly as they relate to the lung and alveolar macrophages. Here we examined receptors on primary human monocytes and macrophages which mediate the phagocytosis and intracellular survival of F. novicida. F. novicida association with monocyte-derived macrophages (MDM) was greater than with monocytes. Bacteria were readily ingested, as shown by electron microscopy. Bacterial association was significantly increased in fresh serum and only partially decreased in heat-inactivated serum. A role for both complement receptor 3 (CR3) and Fcγ receptors in uptake was supported by studies using a CR3-expressing cell line and by down-modulation of Fcγ receptors on MDM, respectively. Consistent with Fcγ receptor involvement, antibody in nonimmune human serum was detected on the surface of Francisella. In the absence of serum opsonins, competitive inhibition of mannose receptor (MR) activity on MDM with mannan decreased the association of F. novicida and opsonization of F. novicida with lung collectin surfactant protein A (SP-A) increased bacterial association and intracellular survival. This study demonstrates that human macrophages phagocytose more Francisella than monocytes with contributions from CR3, Fcγ receptors, the MR, and SP-A present in lung alveoli.     

A possible mechanism for host-specific pathogenesis ofSalmonellaserovars

We have identified the complement receptors on human and murine macrophages involved in the recognition ofSalmonellaserovars, and investigated their relevance to the intracellular survival.S. typhiwas capable of surviving within human monocyte-derived macrophages, whereasS. typhimuriumwas not. Conversely,S. typhimurium, but notS. typhi, resisted intracellular killing by murine macrophages, demonstrating that the intracellular survival ofSalmonellaserovars is host-dependent. In the presence of serum opsonin, human monocyte-derived macrophages recognizedS. typhiandS. typhimuriumvia complement receptor type 1 (CR1) and type 3 (CR3), respectively. In contrast, murine macrophages recognizedS. typhiandS. typhimuriumvia CR3 and CR1, respectively. These findings demonstrate that the intracellular fate ofSalmonellaserovars following phagocytosis may depend on the type of complement receptors involved in their recognition, in that CR1-mediated recognition is closely correlated to subsequent intracellular survival. The Tn5 insertion mutant ofS. typhimuriumwhich lacks the ability to interact with CR1 was sensitive to intracellular killing by murine macrophagesin vitro, and was much less virulent to micein vivo, confirming the relevance of CR1-mediated bacterial recognition to the pathogenicity ofS. typhimuriumfor mice. These results suggest that selective recognition ofSalmonellaserovars through CR1 may lead to their subsequent intracellular survival, and is responsible for the host-specific pathogenesis ofSalmonellaserovars.     

Increased infectivity of stationary-phase promastigotes of Leishmania donovani: correlation with enhanced C3 binding capacity and CR3-mediated attachment to host macrophages.

This study demonstrated that the greater infectivity of stationary-phase promastigotes of Leishmania donovani is related to increased complement fixation on the parasite surface, resulting in increased binding to host mononuclear phagocytes (MPs) via complement type 3 receptors (CR3). The in vivo infectivity of log- and stationary-phase promastigotes was compared by measuring parasite loads in the livers of BALB/c mice 14 days after i.v. inoculation. The same populations were tested for their ability to bind to resident murine peritoneal macrophages (RPM) in vitro during a 20-min serum-free incubation period. Stationary-phase parasites displayed both higher in vivo infectivity and increased in vitro binding. However, following uptake by RPM, no significant difference in the 72 hr survival of the two populations could be detected. The in vitro binding of log and stationary parasites was uniformly inhibited in the presence of a mAb (M1/70) specific for CR3, confirming that the interaction of this receptor with its ligand, iC3b, plays a vital role in initial attachment of both promastigote populations. Following incubation with a human serum source, the amount of ligand appeared to be greater on the surface of stationary-phase promastigotes, as indicated by their ability to trigger the alternative complement pathway and by solid-phase ELISA measurements using antiserum specific for human C3. Collectively, these findings suggest that the infectivity of L. donovani promastigotes is influenced by the extent of initial attachment to host MPs, as determined by the levels of complement deposition and subsequent CR3-mediated binding.     

Interaction of Leishmania gp63 with Cellular Receptors for Fibronectin

The most abundant protein on the surface of the promastigote form of the protozoan parasites Leishmania spp. is a 63-kDa molecule, designated gp63 or leishmanolysin. Because gp63 has been shown to possess fibronectin-like properties, we examined the interaction of gp63 with the cellular receptors for fibronectin. We measured the direct binding of Leishmania to human macrophages or to transfected mammalian cells expressing human fibronectin receptors. Leishmania expressing gp63 exhibited modest but reproducible adhesion to human macrophages and to transfected CHO cells expressing alpha4/beta1 fibronectin receptors. In both cases, this interaction depended on gp63 but occurred independently of the SRYD sequence of gp63, because parasites expressing gp63 with a mutated SRYD sequence bound to macrophages and alpha4/beta1 receptor-expressing cells as well as did wild-type parasites. The contribution of gp63 to parasite adhesion was more pronounced when the assays were performed in the presence of complement, suggesting that the receptors for complement and fibronectin may cooperate to mediate the efficient adhesion of parasites to macrophages. The interaction of gp63 with fibronectin receptors may also play an important role in parasite internalization by macrophages. Erythrocytes to which gp63 was cross-linked were efficiently phagocytized by macrophages, whereas control erythrocytes opsonized with complement alone bound to macrophages but remained peripherally attached to the outside of the cell. Similarly, parasites expressing wild-type gp63 were rapidly and efficiently phagocytized by resting macrophages, whereas parasites lacking gp63 were internalized more slowly. This rapid internalization of gp63-expressing parasites was dependent on the beta1 integrins, because pretreatment of macrophages with monoclonal antibodies to the beta1 integrins decreased the internalization of gp63-expressing parasites. These observations indicate that complement receptors are the primary mediators of parasite adhesion; however, maximal parasite adhesion and internalization may require the participation of the beta1 integrins, which recognize fibronectin-like molecules such as gp63 on the surface of the parasite.     

C-reactive protein (CRP) induces chemokine secretion via CD11b/ICAM-1 interaction in human adherent monocytes

Several studies support C-reactive protein (CRP) as a systemic cardiovascular risk factor. The recent detection of CRP in arterial intima suggests a dual activity in atherosclerosis as a circulating and tissue mediator on vascular and immune cells. In the present paper, we focused on the inflammatory effects of CRP on human monocytes, which were isolated by Ficoll-Percoll gradients and cultured in adherence to polystyrene, endothelial cell monolayer, or in suspension. Chemokine levels, adhesion molecule, and chemokine receptor expression were detected by ELISA, flow cytometry, and real-time RT-PCR. Migration assays were performed in a Boyden chamber. Stimulation with CRP induced release of CCL2, CCL3, and CCL4 in adherent monocytes through the binding to CD32a, CD32b, and CD64, whereas no effect was observed in suspension culture. This was associated with CRP-induced up-regulation of adhesion molecules membrane-activated complex 1 (Mac-1) and ICAM-1 on adherent monocytes. Blockade of Mac-1/ICAM-1 interaction inhibited the CRP-induced chemokine secretion. In addition, CRP reduced mRNA and surface expression of corresponding chemokine receptors CCR1, CCR2, and CCR5 in adherent monocytes. This effect was a result of chemokine secretion, as coincubation with neutralizing anti-CCL2, anti-CCL3, and anti-CCL4 antibodies reversed the effect of CRP. Accordingly, a reduced migration of CRP-treated monocytes to CCL2 and CCL3 was observed. In conclusion, our data suggest an in vitro model to study CRP activities in adherent and suspension human monocytes. CRP-mediated induction of adhesion molecules and a decrease of chemokine receptors on adherent monocytes might contribute to the retention of monocytes within atherosclerotic lesions and recruitment of other circulating cells.     

Opsonin-independent phagocytosis of group B streptococci: role of complement receptor type three.

The role of complement receptor type 3 (CR3) in nonopsonic recognition of group B streptococci (GBS) by macrophages was investigated. Monoclonal anti-CR3 (anti-Mac-1) inhibited phagocytosis of GBS strains by as much as 50% in serum-free cultures of both mouse peritoneal macrophages and the macrophage cell line PU5-1.8. GBS uptake was unaffected by the presence of anti-C3 or salicylhydroxamate, an inhibitor of the covalent binding reaction of C3. Soluble antibodies to LFA-1 or to the common beta-chain (CD18) of the LFA-1/CR3/p150,95 family of cell adhesion molecules did not inhibit GBS uptake. Down-modulation of surface Mac-1 on macrophages following adherence to anti-Mac-1- or anti-CD18-coated surfaces also inhibited uptake of GBS. Further evidence for GBS interaction with CR3 was demonstrated by reduction of EC3bi rosette formation in macrophages adherent to GBS-coated plates. These studies suggest that GBS can interact with macrophage CR3, promoting phagocytosis in a C3-independent fashion. In the absence of specific immunity in neonates, this recognition mechanism may be a significant virulence determinant for GBS which poorly activate the alternate complement pathway.     

Inhibition of Leishmania donovani promastigote internalization into murine macrophages by chemically defined parasite glycoconjugate ligands.

Leishmania donovani, the agent of human visceral leishmaniasis, is an intracellular parasite that must be recognized and internalized by host macrophages to complete its biological cycle. In a search for possible ligands for macrophage surface receptors, glycoconjugates were obtained from Leishmania promastigotes by aqueous, phenol-aqueous, and alkaline extraction. A fucose-mannose glycoproteic ligand, a lipopeptidephosphoglycan, and a phosphate mannogalactan ligand were purified from promastigotes and analyzed for their chemical contents, with special attention to their glycidic moieties. Sugars that were identified as components of these glycoconjugates were tested for their capacity to inhibit promastigote internalization by BALB/c peritoneal macrophages in vitro. Neutral hexoses showed little inhibitory activity; fucose, charged monosaccharides, and a mannose polymer showed the highest activity. Two of the glycoconjugates (fucose-mannose glycoproteic ligand and phosphate mannogalactan ligand) purified from promastigotes were potent inhibitors of internalization, 75% inhibition being obtained at concentrations of 6 to 10 micrograms/ml. The simultaneous presence of both ligands in low concentrations yielded an increase in inhibitory activity above that found for each ligand alone, indicating that promastigotes may use at least two receptor sites for penetration into macrophages. These ligands are specific inhibitors of L. donovani promastigote phagocytosis, since 10 micrograms of each ligand per ml interfered neither with internalization of yeast cells nor with phagocytosis of Leishmania adleri promastigotes.