Phagocytosis of beta-1,3-D-glucan-derivatized microbeads by mouse peritoneal macrophages involves three different receptors

Use of fungal derived polysaccharide-conjugated particles to probe Dectin-1 responses in innate immunity

The number of life-threatening fungal infections has risen in immunocompromised patients, and identification of the rules that govern an appropriate immune response is essential to develop better diagnostics and targeted therapeutics. The outer cell wall component on pathogenic fungi consists of β-1,3-glucan, and Dectin-1, a pattern recognition receptor present on the cell surface of innate immune cells, binds specifically to this carbohydrate. A barrier in understanding the exact immunological response to pathogen-derived carbohydrate epitopes is the presence of multiple types of carbohydrate moieties on fungal cell walls. To dissect the immunological mechanisms used to recognize pathogens, a system of "fungal like particles" was developed that consisted of polystyrene beads, which mimicked the three dimensional shape of the fungus, coated covalently with purified β-1,3-glucan derived from Saccharomyces cerevisiae. The morphology of the β-1,3-glucan layer was examined by immunofluorescence, flow cytometery, and immuno-transmission electron microscopy. The covalent linkages of the β-1,3-glucan to the polystyrene surface were stable after subjecting the beads to detergents. By pre-treating β-1,3-glucan beads with laminarinase, a specific β-1,3-gluconase, the reactivity of the anti-β-1,3-glucan antibody was abrogated in comparison to treatment with proteinase K indicating that the coating of these beads was predominantly β-1,3-glucan. TNF-α was also measured by stimulating bone-marrow derived macrophages with the β-1,3-glucan beads, and showed a dose dependent response compared to soluble β-glucan, insoluble β-1,3-glucan, uncoated beads, and soluble β-1,3-glucan mixed with uncoated beads. Finally, β-1,3-glucan beads were incubated with GFP-Dectin-1 expressing macrophages and imaged using confocal microscopy. β-1,3-beads were taken up within minutes and retained Dectin-1 recruitment to the phagosome as compared to uncoated beads. These data describe a unique fungal-like particle system that will permit immunologists to probe the critical steps in early recognition of pathogen-derived fungal carbohydrate antigens by innate immune cells.

Polysaccharides from Dioscorea batatas induce tumor necrosis factor-alpha secretion via Toll-like receptor 4-mediated protein kinase signaling pathways

The bioactive polysaccharides (named ZPF1) from yam ( Dioscorea batatas) were chemically determined, suggesting repeating beta-1,4-mannan as mainly having a feature of acetylation on C2-OH and C3-OH, around 28%. The ZPF1 participated in the stimulation of murine wild-type macrophages predominantly in tumor necrosis factor-alpha (TNFalpha). Toll-like receptor 4 is proved to be one of the cellular receptors in ZPF1-mediated TNFalpha secretion. Reactive oxygen species transmission and PI3-kinase are found necessary for regulating TNFalpha secretion by ZPF1 stimulation. Moreover, we found that extracellular signal-regulated kinase 1/2, Jun N-terminal kinase 1/2, and p38 mitogen-activated protein kinase play important roles in the regulation of TNFalpha secretion in ZPF1-stimulated macrophages.

Enhancing effects of new biological response modifier beta-1,3 glucan sulfate PS3 on immune reactions

Glucans have a long history as non-specific biological modulators; however, but the search for optimal chemical configuration is still on. The objective of this study was to evaluate intraperitoneal application of PS3, a sulfated derivative of a (1-->3)-beta-D-glucan isolated from sporophytes of Laminaria digitata. PS3 showed significant stimulation of phagocytic activity as well as potentiation of synthesis and release of IL-2 by splenocytes. In addition, PS3 increased NK cell-mediated killing of tumor cells both in vitro and in vivo. When combined, our observations suggest that PS3 is similarly effective as native non-sulfated (1-->3)-beta-D-glucan and is generally more active than lentinan.

The effects of five different glycans on innate immune responses by phagocytes of hybrid tilapia and Japanese eels Anguilla japonica

The aim of this study was to evaluate the immune responses in hybrid tilapia (Nile tilapia Oreochromis niloticus x Mozambique tilapia O. mossambicus) and Japanese eels Anguilla japonica after treatment with five glycans: barley, krestin, MacroGard, scleroglucan, and zymosan. The effects of the glycans on the innate immune responses of the fish were investigated using the phagocytic index (PI), lysozyme activity, complement opsonization, and activation assay. The results of the lysozyme assay demonstrated that the lysozyme activities increased after treatment with glycans. Moreover, based on the PI, treatment with each of the five glycans resulted in increased phagocytic activities in anterior kidney and peripheral blood phagocytes in both tilapia and Japanese eels. The opsonic effect of complement on phagocytosis in tilapia and Japanese eels were investigated using baker's yeast, which served as the activator in the classical complement pathway (CCP) and in the alternative complement pathway (ACP). Tilapia and Japanese eel sera that were treated with glycans greatly enhanced phagocytosis. The classical pathway--hemolytic complement titer (CH50) of Japanese eels treated with glycans was slightly increased in vitro and in vivo. While glycan treatment enhanced the CCP of both species in vitro and in vivo, the alternative pathway-hemolytic complement titer (ACH50) was only increased in vitro and in vivo in glycan-treated tilapia. Thus, it follows that the ACP must have been activated in tilapia treated with glycans. However, in Japanese eels, the ACH50 of the ACP activation assay was undetected in vitro or in vivo due to possible unknown factors in the Japanese eel serum that caused lysis of the rabbit red blood cells. Our study investigated the effects of glycans used to enhance phagocytosis and activate both of the complement pathways involved in stimulating the innate immune responses of Japanese eels and tilapia.

Effects of marine beta-1,3 glucan on immune reactions

Glucans have a long history as nonspecific biological modulators. A novel glucan-Phycarine-was isolated from sporophytes of Laminaria digitata. Phycarine showed significant stimulation of phagocytic activity as well as potentiation of synthesis and release of IL-1, IL-6 and TNF-alpha. In addition, Phycarine increased NK cell-mediated killing of tumor cells both in vitro and in vivo while acting via complement receptor type 3 (CR3) receptors.

Beta-glucan, extracted from oat, enhances disease resistance against bacterial and parasitic infections

The effect of beta-glucan, extracted from oats, on the enhancement of resistance to infections caused by Staphylococcus aureus and Eimeria vermiformis was studied in mice. In vitro study using macrophages isolated from the peritoneal cavity showed that beta-glucan treatment significantly enhanced phagocytic activity. In vivo study further demonstrated that beta-glucan treatment induced a significant (P<0.05) protection against the challenge with 5 x 10(8) of S. aureus in mice. Fecal oocyst shedding in the C57BL/6 mice infected with E. vermiformis was diminished by beta-glucan treatment by 39.6% in intraperitoneal and 28.5% in intragastric group compared to non-treated control. Patency period was shorter and antigen (sporozoites and merozoites) specific antibodies were significantly (P<0.05-0.01) higher in beta-glucan-treated group compared to non-treated control group. There were an increasing number of splenic IFN-gamma-secreting cells in glucan-treated group via intraperitoneal route, which might be responsible for the enhancement of the disease resistance. Glucan treatment was able to effectively change the lymphocytes population (Thy 1.2(+), CD4(+) and CD8(+) cells) in the mesenteric lymph nodes and Peyer's patches in mice infected with E. vermiformis. In conclusion, the oral or parenteral oat beta-glucan treatment enhanced the resistance to S. aureus or E. vermiformis infection in the mice.

Synergistic action of beta-glucan and platelets on interleukin-8 production by human peripheral blood leukocytes

The effects of human platelets on interleukin (IL)-8 production from human peripheral blood mononuclear cells (PBMCs) and polymorphonuclear leukocytes (PMNs) stimulated with the fungal (1-->3)-beta-D-glucan schizophyllan (SPG) were examined using ELISA. PBMCs/PMNs in the presence of platelets and SPG enhanced IL-8 production in comparison with those in the presence of either platelets or SPG. IL-8 production was dependent on the concentration of platelets and incubation time, and the activity reached the maximal level at 18 h of incubation. These activities were also observed with the addition of platelets prestimulated with SPG to PBMCs. Addition of SPG directly enhanced expression of P-selectin on platelet membrane surfaces. These results suggest that platelets play a key role in the cytokine production of leukocytes induced by fungal (1-->3)-beta-D-glucans and might be mediated, at least in part, by P-selectin.

Molecular weight dependency on the production of the TNF stimulated by fractions of rye (1-->3),(1-->4)-beta-D-glucan

Mixed-linkage (1-->3),(1-->4)-beta-D-glucan with a weight average molecular weight varying between 79,800 and 13,900 was purified from rye. These fractions were used for stimulation of human monocytes to produce tumour necrosis factor (TNF). A mixed-linkage beta-glucan with a weight average molecular weight of 18,900 was found to be the most potent immunostimulator.

Immunomodulatory effects of oat beta-glucan administered intragastrically or parenterally on mice infected with Eimeria vermiformis

The immunostimulatory effect of intragastrically or parenterally administered beta-(1-->3; 1-->4) glucan, extracted from oats (ObetaG), on disease resistance to Eimeria vermiformis was studied in C57BL/6 mice. Multiple administrations of ObetaG by intragastric or subcutaneous routes reduced fecal oocyst shedding compared to the non-treated control group. The administration of ObetaG by subcutaneous route resulted in higher levels of total serum immunoglobulins and antigen (sporozoite and merozoite)-specific immunoglobulins as compared with the non-treated group. To evaluate the effect of a single subcutaneous dose, groups of mice were treated with ObetaG 2 days before E. vermiformis infection, at the time of infection and at 2 or 6 days after infection. From day 11 post-infection the oocyst discharge was significantly diminished (P<0.05-0.01) in the ObetaG-treated groups, except in those treated 6 days after infection, as compared to the non-treated control group. The proliferative responses to E. vermiformis sporozoite antigen of lymphocytes isolated from the spleen were significantly increased (P<0.05) when ObetaG was administered 2 days before or at the time of E. vermiformis infection. Lymphocyte proliferative responses to merozoite antigen were not influenced by treatment. In conclusion, ObetaG appeared to up-regulate immune mechanisms and provide enhanced resistance against eimerian coccidiosis in mice.

Immunomodulatory activities of oat beta-glucan in vitro and in vivo

Previous studies have shown that beta-glucans extracted from yeast or fungi potentiate immune responses. In the present study, the immunomodulatory activities of beta-(1-->3,1-->4)-glucan, derived from oats, were investigated. The ability of oat beta-glucan (ObetaG) to stimulate IL-1 and TNF-alpha release from murine peritoneal macrophages and the murine macrophage cell line P338D1, was assessed. In vitro stimulation of macrophages with ObetaG resulted in the production of IL-1 in a dose and time-dependent manner, whereas only small amounts of TNF-alpha could be detected in the culture supernatants. ObetaG also induced the production of IL-2, IFN-gamma and IL-4 secretion in a dose-dependent manner in cultured spleen cells. The intraperitoneal administration of ObetaG in mice resulted in the accumulation of leucocytes, predominantly macrophages, in the peritoneal cavity. Furthermore, ObetaG was tested for its ability to enhance non-specific resistance to a bacterial challenge in mice. Survival of mice challenged with Staphylococcus aureus was enhanced by a single intraperitoneal administration of 500 microg of ObetaG 3 days prior to bacterial challenge. In conclusion, these studies demonstrated that ObetaG possesses immunomodulatory activities capable of stimulating immune functions both in vitro and in vivo.

Interferon-gamma inhibits endocytosis of soluble animated beta-1,3-D-glucan and neutral red in mouse peritoneal macrophages

We previously demonstrated that soluble animated beta-1,3-D-glucan (AG) is internalized after binding to a specific beta-glucan receptor on macrophages. Internalization, but not binding, of AG is reduced when the macrophages are treated with IFN-gamma. Because our data indicated that AG is taken up by macrophages through beta-glucan receptor-mediated endocytosis, we wanted to characterize further the inhibitory effect of IFN-gamma on endocytosis. We compared the internalization of AG and neutral red (NR). NR is internalized by macrophages through fluid-phase endocytosis. AG and NR showed a similar influx/efflux pattern. The initial rate of accumulation was much larger for AG than for NR, however, probably because of the involvement of the beta-glucan receptor in the uptake of AG. Internalized AG was associated with membranes of the endocytic vesicles and formed characteristic rings on confocal laser scanning microscopy (CLSM) images. Both the influx and efflux of AG and NR was inhibited by treatment of macrophages with IFN-gamma. Phorbol myristate acetate (PMA) added to the cell cultures increased the accumulation of AG and NR and reversed the inhibitory effect of IFN-gamma. The effect of PMA was dependent on functionally intact microfilaments and microtubules. CLSM showed that the accumulated AG was localized mostly in small vesicles (size < 2 microns) in IFN-gamma-treated cells, in large and small vesicles in untreated cells, and mostly in large vesicles (size > 2 microns) in PMA-treated cells. In conclusion, IFN-gamma inhibits both the beta-glucan receptor-mediated endocytosis of AG and the fluid-phase endocytosis of NR, probably by inhibiting the formation of large vesicles.

Quantification of bacterial phagocytosis by flow cytometry and spectrofluorimetry

Bacterial phagocytosis is a cardinal function of phagocytes. We describe a simple procedure to easily quantify this function using fluoresceinated bacteria. Non-ingested bacteria and those adsorbed to the cell membrane are eliminated by an enzymatic procedure. Only macrophages with ingested fluorescent bacteria are detected, thereby permitting an accurate quantification of the phagocytic process by both spectrofluorimetric measurement and flow cytometric analysis.

Specificity of a beta-glucan receptor on macrophages from Atlantic salmon (Salmo salar L.)

This study was undertaken to study the specificity of a beta-glucan receptor on Atlantic salmon macrophages. Previous in vitro studies have shown that Atlantic salmon macrophages express a receptor that rapidly recognizes and mediates uptake of nonopsonized beta-glucan particles. The ingestion of particles was shown to be inhibited by preincubating the macrophages with glucans containing beta-1,3-linkages, but not by glucans containing other linkages. In the present study we have shown that small oligomers from formolyzed beta-glucan particles, and linear beta-1,3-linked oligomers with a degree of polymerization (DP) > or = 3, were efficient inhibitors of uptake of glucan particles. Oligomers from beta-1,6-linked pustulan, or small size oligomers with linkages other than beta-1,3, were not able to inhibit uptake of glucan particles. The inhibitory effect of laminarin and laminariheptaose was abolished by degrading the nonreducing terminal ends by sodium periodate treatment. The inhibitory effect of laminarin was regained by a complete Smith degradation; that is, periodate oxidation followed by reduction and hydrolysis. Modification of the reducing end of laminariheptaose had no effect on its ability to inhibit uptake. Furthermore, it was shown that periodate-oxidized glucan particles were not taken up by salmon macrophages, and that the uptake was regained when the particles were hydrolyzed to recover the nonreducing terminal end. Lastly, it was shown that endo-beta-1,6-glucanase treatment of the yeast glucan particles did not reduce uptake, confirming that beta-1,6-linkages are not involved in the recognition. These results suggest that Atlantic salmon macrophages possess a receptor that may recognize even very short beta-1,3-linked glucosyl chains extending from yeast cell walls.

IFN-gamma inhibits internalization of soluble aminated beta-1,3-D-glucan by macrophages and thereby down-regulates the glucan induced release of TNF-alpha and IL-1 beta

We have previously shown that soluble animated beta-1,3-D-glucan (AG) and glucan-derivatized microbeads (GDM) bind to the specific beta-glucan receptor on mouse peritoneal macrophages. Phagocytosis of GDM by macrophages is mediated through the beta-glucan receptor. IFN-gamma which increases macrophage phagocytic capacity, also increased the phagocytosis of GDM. In the present study we show that IFN-gamma inhibits internalization of AG in macrophages in a dose- and time-dependent manner. The inhibitory effect of IFN-gamma was neutralized by treatment of the macrophages with cycloheximide. These results were confirmed by confocal laser scanning microscopy which showed that IFN-gamma treated cells incorporated less fluorescein-labelled AG than did untreated cells. IFN-gamma did not change the macrophage-binding capacity for AG showing that the inhibitory effect of IFN-gamma is not caused by decreased number of beta-glucan receptors on the cells. The stimulatory effect of AG on IL-1 beta and TNF-alpha release from macrophages was reduced by pretreatment of the cells with IFN-gamma. We conclude that the uptake of AG and GDM in macrophages, both mediated through the beta-glucan receptor, are differently regulated by IFN-gamma. The reduced internalization of AG after IFN-gamma treatment of macrophages, is probably responsible for the down-regulation of IL-1 and TNF-alpha secretion.

Aminated beta-1,3-D-polyglucose activates salmon pronephros macrophages in vitro

Salmon pronephros macrophages were stimulated in vitro using a novel immunomodulator, aminated beta-1,3-D-polyglucose. Activation of these cells was judged by the measurement of superoxide anion formation, pinocytotic activity, acid phosphatase activity and morphological criteria. Stimulated macrophages showed increased superoxide anion formation compared with unstimulated control cells as measured by reduction of Nitroblue tetrazoleum, and an increased level of acid phosphatase activity. Furthermore, stimulated macrophages showed increased pinocytotic activity and a significant increase in cell diameter and spreading.

A novel immunomodulator soluble aminated beta-1,3-D-glucan: binding characteristics to mouse peritoneal macrophages

We have previously reported that soluble aminated beta-1,3-D-glucan (AG), a potent immunomodulator, specifically inhibited binding and internalization of AG-coated microbeads (GDM) in mouse peritoneal macrophages. The present study was undertaken to determine parameters of AG binding to macrophages. For this purpose, AG was conjugated with tyraminyl cellobiose (TC), which can be radioiodinated. With this method the immunomodulator was labelled with a very high specific radioactivity, allowing sensitive measurements of binding. Maximal binding capacity was 0.33 micrograms [125I]TC-AG/10(6) cells. Binding was inhibited by TC-AG and AG, but not by mannose and mannan, showing that the receptor different from the mannose receptor was involved. Binding was reversible, with an initial association rate of 120 cpm/min, and a much faster initial dissociation rate of 680 cpm/min. Bound [125I]TC-AG was internalized. These findings suggest that both AG and GDM are bound and internalized via the same beta-glucan receptor in mouse peritoneal macrophages.

Recognition of yeast cell wall glucan by Atlantic salmon (Salmo salar L.) macrophages

Phagocytosis of yeast (Saccharomyces cerevisiae) glucan particles by Atlantic salmon (Salmo salar L.) pronephric macrophages was studied. The particles contained > 95% glucose linked through beta-1,3- and beta-1,6-glycosidic linkages. The macrophages rapidly phagocytized both native and opsonized glucan particles although the latter were taken up at a higher rate. Within 30 min, 40-60% of the macrophages had taken up > 1 native glucan particle. The uptake of native glucan particles could be inhibited by preincubating the macrophages with laminarin, a soluble beta-1,3-linked glucan, and a soluble yeast glucan made by partial formolysis of glucan particles. Soluble yeast glucan, on the other hand, did not inhibit uptake of serum opsonized glucan particles or sheep red blood cells, which showed that it did not interfere with phagocytosis in general or inhibit phagocytosis through complement receptors. Polyglucoses with glycosidic linkages other than beta-1,3, like dextran, glycogen, and pustulan or the polymannose mannan, showed little or no inhibition of phagocytosis of native glucan particles. Altogether these observations indicate that Atlantic salmon macrophages may have a specific receptor for yeast glucan. Studies with chelator- and heat-treated salmon serum showed that glucan particles were opsonized primarily by activation of the alternative complement pathway. However, the data indicate that serum components other than complement may also be involved in the opsonization of glucan particles.

Cytokines and PGE2 modulate the phagocytic function of the beta-glucan receptor in macrophages

Under serum-free conditions the beta-glucan receptor of mouse macrophages mediates phagocytosis of beta-1,3-D-glucan-coated microbeads (diameter 2 microns). IFN-gamma increases the phagocytic function of the beta-glucan receptor in a dose-dependent manner, giving the plateau level at 100 U/ml. Maximum activity appears 9 h after addition of IFN-gamma to the cells. The effect disappears within 24 h. The effect of IFN-gamma may be a result of augmented receptor synthesis since treatment with cycloheximide reduces the phagocytosis. IL-1 also increases the phagocytic function of the beta-glucan receptor giving a dose-dependent response and with the plateau level reached at 10 U/ml. Maximum activity is found 4 h after addition of IL-1 to macrophages. The effect disappears within 24 h. TNF does not alter the phagocytic function of the beta-glucan receptor, but TNF together with IL-1 prolongs the effect of IL-1. PGE2 reduces the phagocytic function of the beta-glucan receptor. Maximum reduction is achieved with 8 ng/ml. Time-course studies show the lowest phagocytic activity 9 h after addition of PGE2 to the cells.

Fate of intravenously injected aminated beta(1----3) polyglucose derivatized with 125I-tyraminyl cellobiose

Aminated beta(1----3)glucan (polyglucose, AG), a potent soluble immunomodulator, was radio-iodinated and traced after intravenous administration to rats. Since the glucose polymer cannot be 125I-labelled directly by conventional methods, the polysaccharide had to be substituted with an adduct which binds the radiolabel. To this end, tyraminyl cellobiose (TC) was coupled to amino groups of AG by means of cyanuric chloride. This procedure resulted in a degree of substitution corresponding to 3.6% (or 1 molecule of tyraminyl cellobiose being incorporated per 28 molecules of glucose). AG substituted with TC (TC-AG) could be labelled with 125I by conventional procedures. After intravenous administration of 125I-TC-AG the serum concentration dropped about 50% from 1 min to about 15 min after injection, while a further drop from 50% to about 25% was observed during the next 15-60 min. The finding that 60 min after injection most of the radioactivity was recovered in the kidneys and urine, together with the results from gel chromatography showing that the low Mw fraction of the injected material disappeared first from the circulation, suggests that the initial rapid phase of elimination is due mainly to glomerular filtration. The molecules that are too large for kidney excretion are taken up mainly by the liver (about 10% of injected dose) at a slower speed. This notion was supported by the finding that a preparation of high Mw glucan obtained by gel chromatography survived for a long period in the circulation, and was eliminated mainly by accumulation in liver, whereas a preparation of low Mw glucan was rapidly eliminated by glomerular filtration. Several days after injection the liver contained nearly 90% of the recovered radioactivity, whereas the kidneys and other organs contained only insignificant amounts. This indicates that radioactivity associated with the kidneys after 60 min reflects glomerular filtration, whereas radioactivity in liver results from uptake leading to lysosomal accumulation. Isolation of liver cells after injection disclosed that the radioactivity per cell was the same in Kupffer cells (KC) and liver endothelial cells (LEC), whereas the uptake per parenchymal cell (PC) was about 30% of the uptake per KC and LEC. It could be calculated that in the intact liver, the population of PC was responsible for 50% of the uptake, whereas the populations of LEC and KC contained 35% and 15%, respectively, of the total liver radioactivity. These findings raise the question whether not only KC, but also LEC and PC may be mediators of the immune responses caused by beta(1----3) polyglucose.