A beta-glucan inhibitable receptor on human monocytes: its identity with the phagocytic receptor for particulate activators of the alternative complement pathway

The ligand specificity of the human monocyte receptor that mediates phagocytosis of particulate activators of the human alternative complement pathway was defined by inhibiting the phagocytic response with glycans known to be present in zymosan. When monocytes in monolayers were preincubated with 100 micrograms/ml of beta-glucan and then incubated with 1.25 to 2.5 X 10(6) zymosan particles, the percentage of cells that exhibited phagocytosis was inhibited in a time-dependent manner; maximal inhibition occurred within 20 min of preincubation. beta-Glucan inhibited monocyte phagocytosis of zymosan and rabbit erythrocytes (Er) in a similar dose-dependent fashion and at 100 micrograms/ml reduced monocyte ingestion of 5 X 10(6)/ml zymosan and 2 X 10(8)/ml Er by 63 +/- 8% and 68 +/- 16% (mean +/- SD, n = 3), respectively. The other glycan constituent of zymosan, mannan, was less than 1% as active, and 10 mg/ml of mannan reduced the number of monocytes ingesting zymosan and Er by 56 +/- 12% and 26 +/- 11%, respectively. At concentrations as high as 500 micrograms/ml, beta-glucan had no effect on monocyte Fc, C3b, or fibronectin receptor-mediated functions. Enzymatic hydrolysis of beta-glucan and alpha-mannan with beta-glucosidase or beta-glucanase before their incubation with monocytes abrogated their inhibitory capacity, whereas hydrolysis with alpha-mannosidase or alpha-glucosidase did not. Neither of the two alpha-glucans tested (dextran T-70 and nigeran) affected monocyte ingestion of zymosan particles or sheep erythrocytes (Es) sensitized with rabbit 7S anti-Es (EsIgG) at concentrations as high as 2 mg/ml. In contrast, a number of beta-glucans were active against zymosan but not EsIgG ingestion with a 75% reduction in the number of monocytes ingesting zymosan occurring with 100 micrograms/ml laminarin, 500 micrograms/ml soluble pachyman, and 900 micrograms/ml of soluble pustulan. The galactan, agarose, either in suspensions at 2 mg/ml or in a soluble portion at 600 micrograms/ml failed to affect monocyte ingestion of zymosan particles or Er. Thus, the monocyte receptor for particulate activators that is specifically inhibited by beta-glucan at a rate compatible with a phagocytic process and that recognizes beta-glucans but not alpha-glucans, mannan, or galactan is a beta-glucan receptor.     

Activated lymphocytes depress phagocytosis of latex particles by human monocyte-macrophages

In this study, monocyte-macrophages of normal human donors were cultured with and without lymphocytes and antigen in order to define the effect of antigen-stimulated lymphocytes on phagocytosis by macrophages. Phagocytosis was assessed by uptake of radio-labeled latex particles by macrophage monolayers. Although no effect was noted when purified macrophage monolayers were cultured in the presence of antigen, marked inhibition of phagocytosis was observed when macrophages were cultured in the presence of autochthonous antigen-stimulated lymphocytes. The degree of phagocytic depression correlated with the delayed cutaneous hypersensitivity response of the donor and with the concentration of antigen present in the system.     

Small molecules that regulate zymosan phagocytosis of macrophage through deactivation of Rho GTPases

Phagocytosis and subsequent degradation of pathogens by macrophages play a pivotal role in host innate immune response to microbial infections. To find small molecule regulators for the investigation of complicated phagocytic process, we screened our in-house chemical library and found chemicals which inhibit phagocytosis of zymosan by macrophages. A representative compound 5a reduced phagocytosis of zymosan in both peritoneal macrophages and RAW264.7 cells in a dose-dependent manner. Treatment of 5a led to downregulate the key regulators of phagocytosis, Rac1, Rac2 and Cdc42, and slightly reduced phosphorylation of Akt by zymosan.     

The nitroblue tetrazolium activated test in the study of granulocytic function. Proposed methodology

It was reported a combined methodological proposal to test simultaneously activated-NBT and phagocytic index (PI) assay using zymosan particles. Such a method allowed to evaluate these two steps of the phagocytic process in the same cellular population. Comparable results were obtained performing the two methods separately.     

类球红细菌的免疫活性评价

目的 :评价类球红细菌的免疫活性。方法 :巨噬细胞吞噬试验、淋巴细胞转化试验、IL- 2的诱生和检测试验。结果 :类球红细菌 1号株具有调节和增强巨噬细胞吞噬功能 ,表现在免疫抑制组小鼠用光合细胞灌胃数周后 ,腹腔巨噬细胞吞噬百分率提高 6 1% ,吞噬指数提高 5 9% (P<0 .0 1)。在体外实验中 ,光合细菌三种不同抗原 (Ag1 、Ag2 、Ag3 )在一定程度上都有刺激脾淋巴细胞转化功能 ,特别是 Ag3 作用更为明显 ;在正常组 ,刺激指数提高了 6 5 % ;免疫抑制组 ,提高了 38% (P<0 .0 5 )。不管在正常组或免疫抑制组 ,Ag1 、Ag2 、Ag3 都具有诱生脾淋巴细胞产生 IL- 2的活性 ,其中 Ag2 的活性较明显 .结论 :类球红细菌 1号株对机体有一定的免疫活性。     

Plunder of Human Blood Leukocytes Containing Ingested Material,by Other Leukocytes: Where Is the Fusagen That Allows Preservation of Membrane Integrity and Motile Function?

In studying phagocytosis of zymosan particles by human blood monocytes in phase-contrast videomicroscopy, we found that monocytes loaded with zymosan particles became chemotactic for polymorphonuclear leukocytes (PMN) which closed on them and purloined their particle content. This despoliation usually occurred in monocytes that had begun to swell—prefiguring their death. The violent seizure of their contents by the aggressing PMN often tore the monocytes apart. However, some apparently healthy monocyte survived the removal of zymosan content by PMN or, more commonly, its removal by another monocyte. PMN—a much hardier cell in slide preparations—that were similarly loaded with zymosan particles, also attracted PMN. The latter could remove zymosan from the target cell without killing it. Thus, leukocytes were sacrificing significant portions of themselves without losing residual membrane integrity and motile function. Their behavior with respect to other particles (e.g., bacteria) will be of interest. We suggest that the membrane fusagen resides in the inner membrane leaflets when they are brought together in an extreme hourglass configuration. This event may be similar to the fragmentation of erythrocytes into intact pieces, the formation of cytokineplasts, the rear extrusion of content by migrating cells on surfaces, and the phagocytic process itself.     

Lysosomal enzyme release from human monocytes in response to particulate stimuli

Lysosomal enzyme release from human monocytes was evaluated in response to opsonized zymosan, opsonized sheep erythrocytes, and latex beads. Monocytes were found to release lysosomal enzymes immediately upon challenge with all three phagocytosable particles. Cytochalasin B enhanced beta-glucosaminidase release from mononuclear cells challenged with opsonized zymosan or opsonized red blood cells, but inhibited the response to latex particles. Lysosomal enzyme release was found to be independent of protein synthesis, and in the absence of cytochalasin B required the stimulus to be presented either as a phagocytosable particle or immobilized on a surface. The kinetics of enzyme release and phagocytosis were also examined and found to be different, lending support to the hypothesis that lysosomal enzyme release may be a physiologic response to a biologic stimulus in vivo and not simply an "accidental" consequence of an ongoing phagocytic event.     

Single pulses of cytoplasmic calcium associated with phagocytosis of individual zymosan particles by macrophages

We have measured cytosolic free calcium levels ([Ca++]i) in individual macrophages during the phagocytosis of single zymosan particles. We report here that the contact of a macrophage with zymosan results in a rapid transient elevation of [Ca++]i. Each [Ca++]i pulse is symmetrical lasting for up to 30 seconds. In contrast, macrophage spreading is associated with repetitive [Ca++]i spiking occurring in salvos of up to four smaller spikes, each lasting for between 8 and 18 seconds. These qualitative and kinetic differences might suggest that the role of [Ca++]i in phagocytosis is distinct from its role in spreading.     

Group V secretory phospholipase A2 translocates to the phagosome after zymosan stimulation of mouse peritoneal macrophages and regulates phagocytosis

We have previously reported that group V secretory phospholipase A2 (sPLA2) amplifies the action of cytosolic phospholipase A2(cPLA2) alpha in regulating eicosanoid biosynthesis by mouse peritoneal macrophages stimulated with zymosan (Satake, Y., Diaz, B. L., Balestrieri, B., Lam, B. K., Kanaoka, Y., Grusby, M. J., and Arm, J. P. (2004) J. Biol. Chem. 279, 16488-16494). To further understand the role of group V sPLA2, we studied its localization in resting mouse peritoneal macrophages before and after stimulation with zymosan and the effect of deletion of the gene encoding group V sPLA2 on phagocytosis of zymosan. We report that group V sPLA2 is present in the Golgi apparatus and recycling endosome in the juxtanuclear region of resting peritoneal macrophages. Upon ingestion of zymosan by mouse peritoneal macrophages, group V sPLA2 is recruited to the phagosome. There it co-localizes with cPLA2alpha, 5-lipoxygenase, 5-lipoxygenase-activating protein, and leukotriene C4 synthase. Using immunostaining for the cysteinyl leukotrienes in carbodiimide-fixed cells, we show, for the first time, that the phagosome is a site of cysteinyl leukotriene formation. Furthermore, peritoneal macrophages from group V sPLA2-null mice demonstrated a >50% attenuation in phagocytosis of zymosan particles, which was restored by adenoviral expression of group V sPLA2 but IIA not group sPLA2. These data demonstrate that group V sPLA2 contributes to the innate immune response both through regulation of eicosanoid generation in response to a phagocytic stimulus and also as a component of the phagocytic machinery.     

Biochemical characterization of distinct regions of SPEC molecules and their role in phagocytosis

Cdc42 signaling pathways play important roles in immune cell polarization and cytoskeletal changes. Although the small Cdc42-binding proteins SPEC1 and SPEC2 play a role in F-actin accumulation in activated T lymphocytes, little is known about their precise activities in other cell types. Here, we mapped the Cdc42-binding activity of SPEC1 to the CRIB sequence and a downstream alpha helical region. Biochemical studies revealed that SPEC1 did not interact with a Rac1 switch-of-function mutant capable of inducing Cdc42-like filopodia, potentially eliminating a role for SPECs in this process. A phosphoinositide-binding region was identified within a basic region N-terminal to the CRIB sequence of SPEC1. Using an anti-SPEC2 antibody, we found that endogenous SPEC2 colocalized with Cdc42 at the phagocytic cup of macrophages internalizing zymosan A particles prior to significant F-actin accumulation. Overexpression studies of the related SPEC1 protein induced marked macrophage contraction and prevented particle binding and phagocytosis. Although a Cdc42-binding mutant of SPEC1 still caused macrophage contraction, mutations within the N-terminal cysteines and phosphoinositide-binding region reversed macrophage contraction but still resulted in impaired phagocytosis. These results identify three distinct structural and functional regions within SPECs and demonstrate their likely role in early contractile events in phagocytosis.     

Characterization of a postlavage,in situ pulmonary macrophage population

A postlavage in situ subpopulation of pulmonary macrophages (PM), biochemically distinct from the lavaged population, has recently been isolated from rats. After exhaustive bronchopulmonary lavage to extract the free lung cells, the lungs were excised, homogenized, and filtered, and the resultant cell suspension was allowed to form a monolayer on plastic Petri dishes. Electron microscopic morphometry failed to indicate any morphologic differences in the two populations. The postlavage in situ PM were more active metabolically during phagocytosis of zymosan particles or stimulation by phorbol myristate acetate (PMA) than the corresponding lavage population, as evidenced by greater superoxide generation. Macrophages prepared by either method became more avidly phagocytic when incubated with cell-free medium isolated in the preparation of the in situ population. Peroxidase, an enzyme absent from the granules of PM separated by lavage techniques, was found in a granule-rich fraction of the in situ macrophage. Catalase activity was found in similar amounts in both supernatants and granule-rich fractions of both populations. The results support the concept of subpopulations of PM and suggest that these subpopulations are distinguished by their biochemical properties and their functional abilities.     

Decreased Fc and C3 receptor function in macrophage populations which are refractory to migration inhibitory factor,C3 activators,and immune complex

Guinea pig macrophage populations previously established to be either responsive or refractory to activation by migration inhibitory factor (MIF) and Lotus fucolectin in the macrophage migration inhibition (MMI) assay were further characterized for their MMI response to diverse effectors as correlated with their Fc and C3b receptor function. MIF-refractory populations were found to be uniformly unresponsive to the complement activators: bacterial lipopolysaccharide, cobra venom factor, zymosan, and immune complex. MIF-responsive macrophages were responsive to the same activators. Fc-mediated binding and phagocytosis of IgG-coated sheep erythrocytes (EA) were markedly depressed in freshly harvested refractory macrophages as compared to responsive cells. Fc phagocytosis by refractory populations increased rapidly during 24–28 hr in vitro culture to levels equal to that of responsive cells which corresponded with an increase in their MMI response to MIF. Refractory macrophages also had decreased C3b receptor function as shown by reduced binding and phagocytosis of EAC or serum-coated zymosan and displayed a greater loss in C3b binding capacity than responsive cells during 48 hr in vitro culture. Trypsinization of responsive macrophages rendered them refractory in their MMI response to the various activators and selectively reversed C3b-dependent binding without effect on Fc binding. The plasmin esterase inhibitors, ?-amino-n-caproic acid, tranexamic acid, and l-lysine, previously established to reverse the MMI response to MIF, FBP, and C3 activators were found to inhibit both Fc- and C3-dependent phagocytosis. These results indicate that macrophage populations which are refractory to migration inhibition by MIF and C3 activators also have reduced Fc- and C3b-mediated phagocytic functions as compared to more mature responsive populations.     

Fc gammaRIIIb triggers raft-dependent calcium influx in IgG-mediated responses in human neutrophils

Human neutrophils constitutively express a unique combination of FcγRs, namely FcγRIIa and FcγRIIIb. Numerous lines of evidence support the concept that these FcγRs generate only partially characterized intracellular signals. However, despite the fact that both receptors are likely to be engaged simultaneously in a physiological setting, no recent publications have investigated the distinct, although partially convergent, results of their joint activation in IgG-dependent responses. To examine the significance of the co-expression of FcγRIIa and FcγRIIIb on human neutrophils, we analyzed the neutrophil responses to stimuli that engage these FcγRs, namely the phagocytosis of human IgG-opsonized zymosan and the responses to heat-aggregated IgGs. Blocking antibodies to either FcγR significantly decreased the phagocytic index and the stimulated production of superoxide anions. Both receptors are required for optimal IgG-dependent responses by human neutrophils. On the other hand, only blocking antibodies to FcγRIIIb, but not to FcγRIIa, inhibited the mobilization of calcium in response to heat-aggregated IgGs. Furthermore, phagocytosis of IgG-opsonized zymosan by human neutrophils required an extracellular influx of calcium that was blocked only by antibodies against FcγRIIIb. We also observed that this calcium influx as well as the IgG-dependent phagocytosis were dependent on the integrity of the plasma membrane detergent-resistant microdomains to which both isoforms were recruited following stimulation by heat-aggregated IgGs. These data clarify the mechanisms that regulate the FcγRs constitutively expressed on human neutrophils, describe a specific contribution of FcγRIIIb at the level of the mobilization of calcium, and provide evidence for a crucial role of detergent-resistant microdomains in this process.     

Poly(I):poly(C)-enhanced alveolar and peritoneal macrophage phagocytosis: quantification by a new method utilizing fluorescent beads

Phagocytosis is an important immune function to quantify. This immune response may be modulated by exposure to biological response modifiers or by exposure to pollutants. A new technique for quantifying nonspecific phagocytosis of alveolar and peritoneal macrophages in the same animal has been developed that utilizes fluorescent polystyrene beads. When incorporated into inhalation studies, this technique can be used to determine whether the toxic effect of an inhaled pollutant is local (effect on alveolar macrophages), systemic (effect on peritoneal macrophages), or both local and systemic. This method results in a determination of both the level of phagocytosis (the percentage of phagocytic macrophages) and the macrophage specific activity (the number of beads phagocytized per macrophage). This method also allows a determination of adherence by quantifying the number of particles in contact with, but not phagocytized by, the macrophage. Macrophage preparations were incubated with fluorescent beads for 2 hr and cyto-centrifuged onto a glass slide. Fluorescent beads present on the slide or cell-associated but not ingested by phagocytosis were removed by immersing the slide containing the macrophage preparation in methylene chloride for 15-30 sec. Fluorescent beads ingested by phagocytosis were then easily quantified with a fluorescence microscope. This technique was used to assess the baseline levels of phagocytosis for rat alveolar and peritoneal macrophages from the same animal and the kinetics and level of enhanced phagocytosis for alveolar and peritoneal macrophages after injection with the interferon inducer polyinosinate-polycytidylate (poly(I):poly(C)). The kinetics of enhanced alveolar and peritoneal macrophage phagocytosis by poly(I):poly(C) were similar; however, stimulated phagocytic levels of peritoneal macrophages never reached the phagocytic activity observed for the resident, highly phagocytic alveolar macrophages. This elevated phagocytic activity is most likely due to interferon stimulated by particulate matter in the large volume of air processed by the lungs and is important for host defense against a number of different inhaled microorganisms.     

Characteristics of the membranes and functional activity of phagocytic alveolar macrophages

Alveolar macrophages (AM) accumulate products of lipid peroxidation (PLP) in the time of phagocytosis of zymosan particles (ZP) during 4 hours, that lead to increase of lipid viscosity and decrease surface membrane area, which were studied by fluorescent probes pyrene and HSPH-14. Preliminary stimulation of AM by i/v ZP-injection of A(100 mg/kg before 5 days) lead to a decrease of lipid membrane viscosity and intensification of AM functional activity. During phagocytosis of ZP experimental cells accumulate much less PLP, than control cells, and promote support of viscosity on a more low level, and functional activity (phagocytic, adhesion properties)--on more high level, than in control cells.     

Exoenzyme Tat-C3 inhibits association of zymosan particles, phagocytosis, adhesion, and complement binding in macrophage cells

Phagocytosis by macrophages is most important in the initial stages of an immune response. Although RhoA regulates cell adhesion, its roles in the integrin-related association of particles with macrophages and in phagocytosis are not clearly understood. We introduced C3 exoenzyme, a specific inhibitor of Rho, into J774A.1 macrophage cells fused with the 9 amino acid (49-57) transduction domain (RKKRRQRRR) of HIV-1 Tat. The presence of this Tat-C3 vector altered RhoA mobility on non-denaturing gels, indicating that Tat-C3 modified RhoA by ADP-ribosylation. Uptake of (FITC)-conjugated serum-opsonized zymosan particles and adhesion to fibrinogen-coated plates were reduced as was the association of serum-opsonized zymosan particles, and complement C3 and C3bi with the transfected cells. These results suggest that Rho regulates the activity of integrins that are involved in the association of particles with macrophages, phagocytosis, adhesion, and binding of complement C3 and C3bi.     

Stimulation of neutrophils by tumor necrosis factor

Human recombinant tumor necrosis factor (TNF) was shown to be a weak direct stimulus of the neutrophil respiratory burst and degranulation. The stimulation, as measured by iodination, H2O2 production, and lysozyme release, was considerably increased by the presence of unopsonized zymosan in the reaction mixture, an effect which was associated with the increased ingestion of the zymosan. TNF does not act as an opsonin but, rather, reacts with the neutrophil to increase its phagocytic activity. TNF-dependent phagocytosis, as measured indirectly by iodination, is inhibited by monoclonal antibodies (Mab) 60.1 and 60.3, which recognize different epitopes on the C3bi receptor/adherence-promoting surface glycoprotein of neutrophils. Other neutrophil stimulants, namely N-formyl-methionyl-leucyl-phenylalanine, the Ca2+ ionophore A23187, and phorbol myristic acetate, also increase iodination in the presence of zymosan; as with TNF, the effect of these stimulants is inhibited by Mab 60.1 and 60.3, whereas, in contrast to that of TNF, their stimulation of iodination is unaffected by an Mab directed against TNF. TNF may be a natural stimulant of neutrophils which promotes adherence to endothelial cells and to particles, leading to increased phagocytosis, respiratory burst activity, and degranulation.     

Rac2-deficient murine macrophages have selective defects in superoxide production and phagocytosis of opsonized particles

The Rho family GTPase Rac is a crucial participant in numerous cellular functions and acts as a molecular switch for signal transduction. Mice deficient in hemopoietic-specific Rac2 exhibited agonist-specific defects in neutrophil functions including chemoattractant-stimulated filamentous actin polymerization and chemotaxis, and superoxide production elicited by phorbol ester, fMLP, or IgG-coated particles, despite expression of the highly homologous Rac1 isoform. In this study, functional responses of Rac2-null murine macrophages were characterized to examine whether Rac2 also has nonredundant functions in this phagocytic lineage. In contrast to murine neutrophils, in which Rac1 and Rac2 are present in similar amounts, Rac1 was approximately 4-fold more abundant than Rac2 in both bone marrow-derived and peritoneal exudate macrophages, and macrophage Rac1 levels were unchanged by the absence of Rac2. Accumulation of exudate macrophages during peritoneal inflammation was reduced in rac2(-/-) mice. FcgammaR-mediated phagocytosis of IgG-coated SRBC was also significantly decreased in Rac2-null macrophages, as was NADPH oxidase activity in response to phorbol ester or FcgammaR stimulation. However, phagocytosis and oxidant production stimulated by serum-opsonized zymosan was normal in rac2(-/-) macrophages. Macrophage morphology was also similar in wild-type and Rac2-null cells, as was actin polymerization induced by FcgammaR-mediated phagocytosis or M-CSF. Hence, Rac2-null macrophages have selective defects paralleling many of the observed functional defects in Rac2-null neutrophils. These results provide genetic evidence that although Rac2 is a relatively minor isoform in murine macrophages, it plays a nonoverlapping role with Rac1 to regulate host defense functions in this phagocyte lineage.     

Inhibition of Macrophage Phagocytosis by Pseudomonas aeruginosa Rhamnolipids In Vitro and In Vivo

Patients with cystic fibrosis often have chronic and ultimately lethal pulmonary infections with Pseudomonas aeruginosa. In order to understand why these bacteria resist pulmonary clearance, we have investigated the interaction of P. aeruginosa and phagocytic cells. In an earlier study we reported that sub-lytic concentrations of two glycolipids produced by P. aeruginosa (the mono- and dirhamnolipids) caused structural changes in human monocyte-derived macrophages, and at lower concentrations inhibited the phagocytosis of Staphylococcus epidermidis by these cells. In the present study we demonstrate that rhamnolipids also inhibit the in vitro phagocytosis of both P. aeruginosa and Saccharomyces cerevisiae by thioglycollate-elicited mouse peritoneal macrophages. Using lucifer yellow to label the lysosomal compartments of macrophages, we determined that rhamnolipids interfere with the internalization of attached particles and reduce the level of phagosome-lysosome fusion of internalized targets within macrophages. We also demonstrate that physiologically relevant concentrations of rhamnolipids injected intratracheally into rat lungs inhibited the response of alveolar macrophages to a challenge of zymosan particles in vivo. These studies further demonstrate the profound inhibitory effects of P. aeruginosa rhamnolipids on macrophage function and are consistent with our hypothesis that the in situ production of these rhamnolipids directly contributes to the persistence of this pathogen in cystic fibrosis patient lungs. Received: 15 December 1995 / Accepted: 22 January 1996     

Neutrophil elastase (NE)-deficient mice demonstrate a nonredundant role for NE in neutrophil migration, generation of proinflammatory mediators, and phagocytosis in response to zymosan particles in vivo

Neutrophil elastase (NE) remains a controversial player in the process of leukocyte transmigration and much of this controversy stems from conflicting reports on the effects of NE inhibitors. The availability of NE-deficient mice (NE(-/-)) provides a clean and elegant tool for the study of leukocyte migration in vivo. In this study, NE(-/-) mice were used to investigate the role of NE in leukocyte migration through cremasteric venules, as observed by intravital microscopy, induced by locally administered cytokines IL-1beta and TNF-alpha and the particulate stimulus, zymosan. Although no defects in leukocyte responses induced by the cytokines were observed, zymosan-induced leukocyte firm adhesion and transmigration was suppressed in NE(-/-) mice. These responses were also inhibited in wild-type mice when zymosan was coinjected with a specific NE inhibitor. Quantification of inflammatory mediator levels in homogenates of zymosan-stimulated tissues indicated reductions in levels of IL-1beta, KC, and macrophage inflammatory protein-1alpha in NE(-/-) mice. Furthermore, phagocytosis of fluorescent zymosan particles, as observed by intravital microscopy, was diminished in NE-deficient animals. Collectively, the findings of this study indicate a nonredundant role for NE in zymosan-induced leukocyte firm adhesion and transmigration, and that this defect is associated with impaired generation of proinflammatory mediators as well as phagocytosis of zymosan particles in vivo.