Binding of plasma fibronectin to the surfaces of BHK cells in suspension at 4 °C

Plasma fibronectin is shown by several different criteria to bind to suspended BHK cells if the binding incubations are carried out at 4 °C. In indirect immunofluorescence experiments, fibronectin bound to suspended BHK cells at 4 °C in a punctate distribution over the entire cell surfaces. Little binding, however, was detected on cells incubated with fibronectin at 37 °C. The fibronectin bound to the cells at 4 °C was functionally active, since these cells subsequently were able to spread on tissue culture dishes in protein-free medium, unlike cells preincubated with fibronectin at 37 °C or in the absence of fibronectin. Also, the cell surface receptors for soluble fibronectin and fibronectin-coated beads appeared to be similar, since cells preincubated with fibronectin at 4 °C subsequently bound fewer fibronectin-coated beads than control cells. In biochemical studies with radiolabeled fibronectin, binding of fibronectin to the cells was shown to increase with incubation time up to 4 h. In competition experiments with unlabeled fibronectin, 30% of the binding of radiolabeled fibronectin could be inhibited.     

Role of integrins in regulation of collagen phagocytosis by human fibroblasts

Phagocytosis of collagen fibrils by fibroblasts is an important pathway for degradation of extracellular matrix in mature connective tissues. To study regulatory mechanisms in phagocytosis, 2-μm fluorescent beads coated with either collagen (COL) or bovine serum albumin (BSA) were incubated with human gingival fibroblasts in vitro. For these studies single cell suspensions were prepared by trypsinization, and bead internalization and collagen receptor expression were assessed by flow cytometry. After 3-h incubations, up to 8-fold more cells internalized COL beads than BSA-coated beads. Increased collagen coating concentration was associated with elevated proportions of cells that internalized COL beads, and was observed also in the presence of competing fibronectin-coated beads. The number of beads per cell and the percent of phagocytic cells increased proportionally with higher bead loadings. At > 4 beads per cell a maximum of ∼︁80% of cells were phagocytic. Cells reacted with mAbs against the α1, α2, and α3 integrin subunits were, respectively, 5%, 98% and 93% positively stained above background controls. All cells that internalized COL beads exhibited α2 staining but there were large proportions of phagocytic cells that were not stained for α1. In unfixed cells, bead internalization caused an immediate reduction of surface staining of membrane-bound α2 by ∼︁55% which returned to control levels within 3 h, indicating that cell-surface α2 was internalized by phagocytosis. Preincubation of cells with up to 8 COL beads per cell reduced the proportion of phagocytic cells and the number of internalized beads after a second COL bead incubation 4 h later. To assess the relationship between the percent of phagocytic cells and α2 integrin levels, serum starvation and cycloheximide experiments were conducted. Compared to controls, serum starvation for 24 h induced a 3.2-fold increase of cells internalizing COL beads but did not alter α2 staining levels. In contrast, 3 h cycloheximide treatment reduced α2 staining to 60% of control levels and this treatment also inhibited COL bead internalization. GRGDTP peptide as well as mAbs against the α1 and α2 subunits significantly reduced internalization of COL beads by 1.8 to 2.6-fold, whereas GRGESP peptide and α3 mAb exerted no effect. Internalization of BSA beads was not affected by any of these treatments. Collectively, these data indicate that the α2 integrin, along with other, as yet unidentified components, is likely involved in COL bead internalization. The α2 integrin subunit is rapidly recycled or synthesized following a phagocytic load. In contrast, the α1 integrin is not directly required for phagocytosis but may regulate the internalization step. © 1996 Wiley-Liss, Inc.     

The attachment of nematocytes from the primitive invertebrate Hydra to fibronectin is specific and RGD-dependent.

The transient attachment of cells to components of the extracellular matrix is an important step in the complex molecular mechanisms involved in amoeboid cell locomotion. We have analyzed the attachment of nematocytes from the freshwater cnidarian Hydra to fibronectin which is a constituent of the mesoglea, the extracellular matrix, of the polyps. The percentage of attaching cells increased gradually in a concentration-dependent manner and reached a plateau value at a fibronectin concentration of 50 micrograms/ml. Attachment was inhibited by exposure of the fibronectin-coated surfaces to antibodies against the cell binding domain of fibronectin or by incubating the cells with peptides containing the recognition sequence Arg-Gly-Asp (RGD) known from vertebrate cells. This, together with data obtained by affinity chromatography, indicates that RGD-dependent binding to fibronectin, mediated by a receptor which possibly belongs to the integrin family, already occurs in Hydra, a member of an evolutionary low invertebrate phylum.     

Collagen can modulate cell interactions with fibronectin

We have examined the effects of soluble collagen on the function of fibronectin in baby hamster kidney (BHK) cells. Collagen and its purified alpha1(l) chain noncompetitively inhibited cell spreading on substrates precoated with fibronectin or a 75,000-D cell-binding fragment of fibronectin. Neither preincubation of cells with collagen followed by washing nor the addition of collagen to previously spread cells had any inhibitory effect on cell spreading, which indicates a requirement for the concurrent presence of collagen during the process of spreading. Treatment of collagen or alpha1(l) chain with collagenase abolished the inhibitory effect on fibronectin-mediated cell spreading. However, direct attachment of BHK cells to fibronectin-coated or 75,000-D fragment-coated substrates was not inhibited by collagen or by the alpha1(l) chain. Moreover, the binding of [3H]fibronectin or the 3'-75,000-D fragment to cell surfaces was not inhibited by the presence of soluble collagen, whereas soluble fibronectin inhibited binding. Although the binding of [3H]fibronectin-coated beads to BHK cell surfaces was also not inhibited by collagen, the phagocytosis of such beads was inhibited by the presence of collagen. On the other hand, soluble fibronectin partially inhibited the binding of fibronectin-coated beads but did not inhibit phagocytosis of the beads that did bind. The mechanism of the inhibition of fibronectin function by collagen and the possible interactions of two different kinds of receptors on the cell surface are discussed.     

The attachment of nematocytes from the primitive invertebrate Hydra to fibronectin is specific and RDG-dependent

The transient attachment of cells to components of the extracellular matrix is an important step in the complex molecular mechanisms involved in amoeboid cell locomotion. We have analyzed the attachment of nematocytes from the freshwater cnidarian Hydra to flbronectin which is a constituent of the mesoglea, the extracellular matrix, of the polyps. The percentage of attaching cells increased gradually in a concentration-dependent manner and reached a plateau value at a fibronectin concentration of 50 μg/ml. Attachment was inhibited by exposure of the fibronectin-coated surfaces to antibodies against the cell binding domain of fibronectin or by incubating the cells with peptides containing the recognition sequence Arg-Gly-Asp (RGD) known from vertebrate cells. This, together with data obtained by affinity chromatography, indicates that RGD-dependent binding to fibronectin, mediated by a receptor which possibly belongs to the integrin family, already occurs in Hydra, a member of an evolutionary low invertebrate phylum.     

Inhibition of gap-junctional intercellular communication and enhanced binding of fibronectin-coated latex beads by stimulation of DNA synthesis in quiescent 3T3-L1 cells

To clarify the modulation of intercellular communication via gap junctions, associated with the growth induction of quiescent 3T3-L1 cells, we investigated the gap-junctional intercellular communication in growth-stimulated cells that were able to bind fibronectin-coated beads. When quiescent 3T3-L1 cells were incubated with fibronectin-coated beads for the first 2 h after the addition of calf serum, 24.0% of the cells bound and phagocytosed beads. Among the cells with bound beads, the percentage of the cells labeled concurrently with bromodeoxyuridine was 63.7% when examined 13 h after the addition of calf serum. Transient reduction of dye-coupling, measured with Lucifer Yellow CH, was observed only in the cells with bound beads 2 h after addition of calf serum, but it was not observed in the cells without bound beads. When the quiescent cells were incubated with fibronectin-coated beads for 2 h from 4-6 h after the addition of calf serum, the percentage of cells with bound beads increased to 53.1%, but the decrease in dye-coupling among the cells with bound beads was slight. These results suggest that the induction of cell growth causes a transient reduction in gap-junctional intercellular communication in 3T3-L1 cells with bound fibronectin-coated beads.     

Particle size influences fibronectin internalization and degradation by fibroblasts

The application of nanotechnology for drug targeting underlines the importance of controlling the kinetics and cellular sites of delivery for optimal therapeutic outcomes. Here we examined the effect of particle size on internalization and degradation of surface-bound fibronectin by fibroblasts using polystyrene nanoparticles (NPs; 51 nm) and microparticles (MPs; 1 μm). Fibronectin was strongly bound by NPs and MPs as assessed by immuno-dot blot analysis (5.1 ±0.4×10^{– 5} pg fibronectin per μm² of NP surface; 4.2±±0.3×10^–5 pg fibronectin per μm² of MP surface; p>0.2). We estimated that ~193 fibronectin molecules bound to a MP compared with 0.6 fibronectin molecules per NP, indicating that ~40% of nanoparticles were not bound by fibronectin. One hour after incubation, fibronectin-coated NPs and MPs were rapidly internalized by Rat-2 fibroblasts. MPs and NPs were engulfed partly by receptor-mediated endocytosis as indicated by decreased uptake when incubated at 4 °C, or by depletion of ATP with sodium azide. Pulse-chase experiments showed minimal exocytosis of NPs and MPs. Internalization of NPs and MPs was inhibited by jasplakinolide, whereas internalization of MPs but not NPs was inhibited by latrunculin B and by integrin-blocking antibodies. Extraction of plasma membrane cholesterol with methyl β-cyclodextrin inhibited internalization of fibronectin-coated NPs but not MPs. Biotinylated fibronectin internalized by cells was extensively degraded on MPs but not NPs. Particle size affects actin and clathrin-dependent internalization mechanisms leading to fibronectin degradation on MPs but not NPs. Thus either prolonged, controlled release or an immediate delivery of drugs can be achieved by adjusting the particle size along with matrix proteins such as FN.     

12-O-tetradecanoylphorbol-13-acetate disrupts actin filaments and focal contacts and enhances binding of fibronectin-coated latex beads to 3T3-L1 cells

The effect of a tumor-promoting phorbol ester on the binding of fibronectin-coated beads to 3T3-L1 cells was studied to clarify the relationship between the binding of fibronectin to the cells, cell adhesion, and the organization of actin filaments. Interference-reflection microscopy revealed focal contacts of 3T3-L1 cells with the substratum. Stress fibers observed after rhodamine-phalloidin staining were well-developed in the cells. Treatment of the cells for 20 min with 12-O-tetradecanoylphorbol-13-acetate (TPA), but not with phorbol, disrupted focal contacts and caused a reorganization of stress fibers to generate actin ribbons. Treatment of the cells with TPA enhanced the binding of beads coated with human plasma fibronectin to the cells, as observed after incubation for 6 h with the beads. The TPA-induced increase in the percentage of cells with bound beads was dependent on the duration of treatment with TPA and on the concentration of TPA. Treatment of the cells with TPA also enhanced proliferation of cells in a dose-dependent manner. The enhancement of binding of the beads by TPA was suppressed by addition of an adhesion-inhibitory peptide (Gly-Arg-Gly-Asp-Ser-Pro). Treatment with TPA did not enhance nonspecific binding of beads coated with heat-denatured bovine serum albumin. Furthermore, treatment of the cells with phorbol did not enhance the binding of beads coated with fibronectin. These results suggest that TPA specifically enhances the binding of fibronectin-coated beads to 3T3-L1 cells, and that TPA-induced binding of the beads may be related to disruption of focal contacts and reorganization of actin filaments.     

Fibronectin-mediated binding and phagocytosis of polystyrene latex beads by baby hamster kidney cells

The binding and phagocytosis of fibronectin (pFN)-coated latex beads by baby hamster kidney (BHK) cells was studied as a function of fibronectin concentration and bead diameter. Cells were incubated with radioactive pFN-coated beads, and total bead binding (cell surface or ingested) was measured as total radioactivity associated with the cells. Of the bound beads, those that also were phagocytosed were distinguished by their insensitivity to release from the cells by trypsin treatment. In continuous incubations, binding of pFN-coated beads to cells occurred at 4 degrees C or 37 degrees C, but phagocytosis was observed only at 37 degrees C. In addition, degradation of 3H-pFN from ingested beads occurred at 37 degrees C, as shown by the release of trichloroacetic acid-soluble radioactivity into the incubation medium. When the fibronectin density on the beads was varied, binding at 4 degrees C and ingestion at 37 degrees C were found to have the same dose-response dependencies, which indicated that pFN densities that permitted bead binding were sufficient for phagocytosis to occur. The fibronectin density for maximal binding of ingestion was approximately 250 ng pFN/cm2. When various sized beads (0.085-1.091 micron), coated with similar densities of pFN, were incubated with cells at 4 degrees C, no variation in binding as a function of bead size was observed. Under these conditions, the absolute amount of pFN ranged from less than 100 molecules on the 0.085-micron beads to greater than 15,000 molecules on the 1.091-micron beads. Based upon these results it can be concluded that the critical parameter controlling fibronectin-mediated binding of latex beads by BHK cells is the spacing of the pFN molecules on the beads. Correspondingly, it can be suggested that the spacing between pFN receptors on the cell surface that is optimal for multivalent interactions to occur is approximately 18 nM. When phagocytosis of various sized beads was compared, it was found that the largest beads were phagocytosed slightly better (two fold) than the smallest beads. This occurred both in continuous incubations of cells with beads and when the beads were prebound to the cells. Finally, the kinetic constants for the binding of 0.085 microM pFN-coated beads to the cells were analyzed. There appeared to be approximately 62,000 binding sites and the KD was 4.03 X 10(-9) M. Assuming a bivalent interaction, it was calculated that BHK cells have approximately 120,000 pFN receptors/cell and the binding affinity between pFN and its receptor is approximately 6 X 10(-5) M.     

Pitfalls in ecto-5''-nucleotidase enzyme cytochemistry as demonstrated by the immunogold-labelling technique on macrophages

Summary We have used both the enzyme cytochemical method with lead nitrate as a capture agent and an immunological method at the electron microscope level to localize plasma membrane 5-nucleotidase in rat peritoneal resident macrophages during the initial interactions of latex beads or heat-killedEscherichia coli with the cell during phagocytosis. In macrophages at rest, cytochemical reaction product was evenly distributed along the external surface of the plasma membrane. However, when the cells were phagocytosing latex beads or bacteria, reaction product covered the entire surface of the adhering particles. To determine whether the apparent redistribution of 5-nucleotidase onto the adhering particle was fact or artifact, we localized 5-nucleotidase using a monoclonal antibody and an immunogold labelling technique. In macrophages binding or beginning to ingest bacteria, gold particles were distributed along the plasma membrane, except at the sites of cell-bacterium internalization. More significantly, the adhering bacteria were free of gold particles and therefore had no 5-nucleotidase on their surfaces. Latex beads proved to be unsuitable as a test particle because the gold particles stuck to them non-specifically. We conclude that the artifactual redistribution of lead-phosphate reaction product is a major drawback of enzyme cytochemical methods when used on cell surfaces and that the immunogold labelling technique is more reliable.     

Fibronectin-coated beads are endocytosed by cells and align with microfilament bundles

Carboxylated latex beads coated with fibronectin bind to the surfaces of NIL8 hamster cells. Similar beads coated with bovine serum albumin, gelatin or normal rabbit immunoglobulin do not bind to the cells, whereas beads coated with polylysine or rabbit anti-hamster immunoglobulin bind, as do fibronectin-coated beads. Surface-bound beads are endocytosed by the cells. This endocytosis is inhibited by N-ethyl maleimide or low temperatures. The endocytosed beads form arrays aligned with the microfilament bundles inside the cells and after extended incubations (18–24 h) become concentrated in the perinuclear region. These results suggest that, after phagocytosis of large particles, the endocytic vesicles align with microfilament bundles, as previously reported for coated pits involved in receptor-mediated endocytosis. The system described here offers possibilities for the analysis of membrane and transmembrane interactions involved in cell-substratum binding and phagocytosis.     

Enhanced binding of fibronectin-coated latex beads to quiescent 3T3-L1 cells is correlated with escape from growth arrest

The possible involvement of fibronectin receptors in growth stimulation was investigated by an analysis of fibronectin-coated latex bead binding to 3T3-L1 cells under various conditions. 3T3-L1 cells, growth-arrested in a medium with a low concentration of calf serum, bound few fibronectin-coated beads. After addition of serum at concentrations of 1.0% or higher, there was a rapid and transient increase in the number of cells with bound beads and a subsequent increase in the incorporation of bromodeoxyuridine (BrdU) into cell nuclei. Incorporation of BrdU was observed in about 60% of the cells with bound beads. Fibroblast growth factor and platelet-derived growth factor at concentrations of 5 ng/ml or higher also enhanced binding of fibronectin-coated beads to cells. Stimulation of bead binding by epidermal growth factor and insulin was weak. Fibroblast growth factor, but not epidermal growth factor, increased the incorporation of BrdU into nuclei. These results indicate a relationship between stimulation of cell proliferation in quiescent cells and increased binding by cells of fibronectin-coated latex beads.     

Cell-matrix entanglement and mechanical anchorage of fibroblasts in three-dimensional collagen matrices

Fibroblast-3D collagen matrix culture provides a physiologically relevant model to study cell–matrix interactions. In tissues, fibroblasts are phagocytic cells, and in culture, they have been shown to ingest both fibronectin and collagen-coated latex particles. Compared with cells on collagen-coated coverslips, phagocytosis of fibronectin-coated beads by fibroblasts in collagen matrices was found to be reduced. This decrease could not be explained by integrin reorganization, tight binding of fibronectin beads to the collagen matrix, or differences in overall bead binding to the cells. Rather, entanglement of cellular dendritic extensions with collagen fibrils seemed to interfere with the ability of the extensions to interact with the beads. Moreover, once these extensions became entangled in the matrix, cells developed an integrin-independent component of adhesion. We suggest that cell–matrix entanglement represents a novel mechanism of cell anchorage that uniquely depends on the three-dimensional character of the matrix.     

Evidence for the recycling nature of the fibronectin receptor of macrophages

Plasma fibronectin (pFN) has been shown to mediate phagocytosis of several types of artificial particles and tissue debris by macrophages. In the present investigation some of the dynamic aspects of this receptor-mediated cellular process have been studied. Plasma fibronectin did not bind specifically to fibronectin (FN)-receptors of rat peritoneal macrophages at either 4 degrees C or 37 degrees C. On the other hand, pFN aggregated on the surface of gelatin-coated latex beads (gLtx) and 125I-labeled pFN covalently coupled to latex beads (pFN-Ltx) bound strongly to macrophages at both temperatures. Both of these particles were also internalized at 37 degrees C. Treatment of macrophages by chymotrypsin, thermolysin, or trypsin in a protein-free tissue culture medium did not affect either of the above reactions; however, pronase treatment strongly reduced both the binding and internalization of the pFN-coated particles. The pronase-treated macrophage monolayers in time regained their ability to bind and internalize pFN-gLtx when incubated in fresh tissue culture medium. Such recovery, however, did not take place when the medium contained cycloheximide. On the other hand, phagocytosis of pFN-gLtx was not affected directly by cycloheximide with untreated macrophages; this suggests that the FN-receptor recycles during sustained phagocytosis. This assumption was substantiated by the observations that some of the established lysosomotropic amines--i.e., chloroquine, dansylcadaverine, and dimethyldansylcadaverine--caused total inhibition of internalization without affecting the binding of particles to macrophages. Furthermore, chloroquine protected the FN-receptors against destruction by pronase. Together these results suggest that macrophage receptors for FN are protein, present both on the cell surface and intracellularly, and recycle between the plasma membrane and intracellular sites during phagocytosis.     

Effects of mitogens and co-mitogens on the formation of small-cell colonies in primary cultures of rat hepatocytes

Degradation of collagen by fibroblast phagocytosis is an important pathway for physiological remodelling of soft connective tissues. Perturbations of this pathway may provide a mechanism for the development of fibrotic lesions. As collagen phagocytosis may be regulated by either a change of the proportions or the activity of phagocytic cells, we quantified phagocytosis with an in vitro model system. Collagen-coated fluorescent latex beads were incubated with human gingival fibroblasts and the fluorescence associated with internalized beads was measured by flow cytometry. Cells from normal tissues that had been incubated with beads for 3 hours contained a mean of 64% phagocytic cells; however, a small subpopulation (10% of phagocytic cells) contained more than threefold higher numbers of beads per cell than the mean. In contrast, cells from fibrotic lesions exhibited a large reduction of the proportions of phagocytic cells (mean = 13.8%) and there were no cells with high numbers of beads. On the basis of ³H-Tdr labeling, cells from fibrotic lesions that had internalized beads failed to proliferate, in contrast to phagocytic cells from normal tissues, which underwent repeated cell divisions. This result was not due to variations of cell cycle phase as there was no preferential internalization of beads during different phases of the cell cycle. The low phagocytic rate of cells from fibrotic lesions was also not due to asymmetric partitioning of phagosomes at mitosis as videocinemicrography of bead-labeled phagosomes in single, pre-mitotic cells demonstrated that > 90% of phagocytic cells equally partitioned beads to daughter cells. To investigate if inhibition of phagocytosis could be replicated in vitro, cells were incubated with the fibrosis-inducing drugs nifedipine or dilantin. These cultures exhibited marked (15–75%), dose-dependent reductions in the proportions of phagocytic cells, but there was no reduction in bead number per cell. Fibrotic lesions appear to contain fibroblasts with marked deficiencies in phagocytosis and the reduced phagocytic activity of these cells may contribute to unbalanced degradation and fibrosis. © 1993 Wiley-Liss, Inc.     

Serum-induced inhibition of the phagocytic activity of cultured macrophages IC-21

Fetal bovine serum has been shown to considerably inhibit phagocytosis of non-opsonized 2-μm fluorescent latex beads by cultured macrophages IC-21. Phagocytic activity was assessed using fluorescent microscopy and specially devised ImageJ plugins. Phagocytosis percent, PP (percentage of the bead-containing cells in the cell population under study), and phagocytosis index, PI (mean number of beads per cell in the bead-containing population), were about 2 times lower in the cells incubated in the presence of 10% serum as compared to the respective parameters for the cells incubated in serum-free medium (55 ± 5% vs. 92 ± 1% and 2.0 ± 0.2 vs. 4.3 ± 0.2 beads/cell). The effect of serum was dose-dependent. Albumin (10 mg/ml) did not mimic the effect of serum, suggesting that fatty acid extraction was not the cause of the serum-induced inhibition. Serum is a source of exogenous cholesterol, therefore we checked if cholesterol removal could stimulate phagocytosis. Cholesterol-sequestering agent methyl-β-cyclodextrin (mβCD) in concentrations of 5–7 mM indeed caused an increase of the phagocytic activity but at 10 mM exerted an inhibitory effect in serum-free medium. Connexin channel blocker carbenoxolone (CBX, 250–500μM) in most cases inhibited phagocytosis; the presence of serum or mβCD modulated the CBX effects. The data indicate an important role of serum in regulation of the macrophage phagocytic activity. Stimulating effect produced by serum removal may partly be accounted for by a decrease of cholesterol concentration, which in turn may alter the functioning of integral proteins involved in the mechanisms of phagocytosis.     

Design of a thermostable cell adhesion protein

The design principle of a thermostable functional protein has been proposed by demonstrating genetic engineering synthesis of a thermostable cell adhesion protein. The cell adhesive peptide sequence, Arg-Gly-Asp (RGD), was incorporated into the elastin-based polyhexapeptide, whose repeating unit is Ala-Pro-Gly-Val-Gly-Val (APGVGV). The resulting protein possesses cell adhesion activity approximately 80% of fibronectin. After autoclaving at 120°C for 20 min, the protein retained over 90% of cell adhesion activity, while the activity of autoclaved fibronectin decreased to 50%.     

Temperature dependency of induction of sexual agglutinability by α pheromone in the yeast Saccharomyces cerevisiae

When pheromone-pretreated cells of an inducible a strain of Saccharomyces cerevisiae carrying the inducible gene saa1 were incubated in a growth medium at 28°C, induction of sexual agglutinability began after a 10 min lag period. If the cells were incubated at 38°C during the lag period, no induction occurred even after incubation at 28°C. Contrary to this, if the cells were incubated at 28°C during the lag period, almost complete induction occurred, even after transfer to 38°C. Temperature shift experiments revealed that 5 min incubation at 28°C was necessary for the initiation of the temperature-sensitive period and further 5 min incubation for the completion of the period. The temperature-sensitive period was sensitive to phenylmethylsulfonyl fluoride.Non-common abbreviations PBS 10^-2 M phosphate buffer solution, pH 5.5 - PMSF phenylmethylsulfonyl fluoride     

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.     

Comparative particle-induced cytotoxicity toward macrophages and fibroblasts

The cytotoxicity caused by the debris resulting from wear of prostheses can produce major damage to tissues around the implant. We have compared particle internalization by macrophages and fibroblastsin vitro and analyzed cell death. J774.2 macrophages and L929 fibroblasts were incubated with 0.43 and 2.81 m alumina particles or 0.45 and 3.53 m polystyrene (PS) beads. Incubation of J774.2 cells with alumina particles of both sizes and 0.5 and 1.0 mg/ml PS beads significantly decreased cell numbers in a particle concentration-dependent manner. L929 cells were not affected by lower concentrations of 0.43 m alumina particles (which aggregate at high concentrations) and they internalized 0.45 m PS beads without any decrease in cell numbers. Particles were more cytotoxic for macrophages than for fibroblasts. Particles caused the size of both types of cells to increase in correlation with cytotoxicity. Trypan blue exclusion and lactate dehydrogenase release showed cell membrane leakage for both types of cells incubated with PS beads for 24 h. Apoptosis was assessed by annexin V–FITC, propidium iodide staining and assay of caspase 3 activity. Macrophage death appeared to depend on both necrosis, caused mainly by 3.53 m PS beads, and apoptosis, mainly due to 0.45 m PS beads. The release of the inflammatory cytokine IL-6 appears to be nonlinearly correlated with cytotoxicity. Thus, the size of the internalized particles affects macrophages and fibroblasts differently, and the increase in cell size can be used as a preliminary criterion of particle cytotoxicityin vitro.