Potentiation of Antitumor Activity by Antibody Drugs and Mushroom-Derived ß-Glucans in Natural Killer Cell-Mediated Tumoricidal Activities against Non-Hodgkin's B-Cell Lymphoma.

ß-glucans are polysaccharides that activate innate immunity. We herein investigated whether P-glucans promote the immunological effects of antibody drugs against malignant tumor cells using human peripheral blood mononuclear cells (PBMCs). Rituximab bound to CD20-specific lymphoma and exhibited cytotoxic activity in the presence of human mononuclear cells, but not neutrophils. The addition of Sparassis crispa (cauliflower mushroom)-derived ß-glucan (SCG) and granulocyte macrophage colony-stimulating factor (GM-CSF) to co-cultures of PBMCs and Raji lymphoma cells further promoted antibody-dependent cell-mediated cytotoxicity (ADCC). The GM-CSF treatment increased ß-glucan receptor expression on adherent cells in PBMCs. A co-stimulation with GM-CSF and SCG of PBMCs induced an increase in the number of spreading cells and the activation of natural killer (NK) cells. The enhancement in ADCC was abolished by the removal of NK cells, indicating that SCG and GM-CSF increased ADCC against lymphoma by activating ß-glucan receptor-expressing cells in PBMCs and enhancing NK cell activity. The synergistic mechanisms of action of mushroom-derived ß-glucans and biopharmaceuticals, including recombinant cytokines and antibodies, in the treatment of malignant tumor cells provide important insights into the clinical efficacy of ß-glucans from mushrooms.

Jerveratrum-Type Steroidal Alkaloids Inhibit ß-1,6-Glucan Biosynthesis in Fungal Cell Walls.

The limited number of available effective agents necessitates the development of new antifungals. We report that jervine, a jerveratrum-type steroidal alkaloid isolated from Veratrum californicum, has antifungal activity. Phenotypic comparisons of cell wall mutants, K1 killer toxin susceptibility testing, and quantification of cell wall components revealed that ß-1,6-glucan biosynthesis was significantly inhibited by jervine. Temperature-sensitive mutants defective in essential genes involved in ß-1,6-glucan biosynthesis, including BIG1, KEG1, KRE5, KRE9, and ROT1, were hypersensitive to jervine. In contrast, point mutations in KRE6 or its paralog SKN1 produced jervine resistance, suggesting that jervine targets Kre6 and Skn1. Jervine exhibited broad-spectrum antifungal activity and was effective against human-pathogenic fungi, including Candida parapsilosis and Candida krusei. It was also effective against phytopathogenic fungi, including Botrytis cinerea and Puccinia recondita. Jervine exerted a synergistic effect with fluconazole. Therefore, jervine, a jerveratrum-type steroidal alkaloid used in pharmaceutical products, represents a new class of antifungals active against mycoses and plant-pathogenic fungi. IMPORTANCE Non-Candida albicans Candida species (NCAC) are on the rise as a cause of mycosis. Many antifungal drugs are less effective against NCAC, limiting the available therapeutic agents. Here, we report that jervine, a jerveratrum-type steroidal alkaloid, is effective against NCAC and phytopathogenic fungi. Jervine acts on Kre6 and Skn1, which are involved in ß-1,6-glucan biosynthesis. The skeleton of jerveratrum-type steroidal alkaloids has been well studied, and more recently, their anticancer properties have been investigated. Therefore, jerveratrum-type alkaloids could potentially be applied as treatments for fungal infections and cancer.

Binding Specificity of a New Artificial ß-Glucan Recognition Protein and Its Application to ß-Glucan Detection in Mushroom Extracts.

ß-1,3-D-glucan (BG) activates innate immunity and enhances immune responses. Fungi, such as mushrooms, produce a relatively large amount of BG, the structure and molecular weight of which varies depending on the species of fungi. This study was conducted to develop a detection probe for quantifying or detecting BG from fungi using BG-binding proteins. The binding properties of a new ß-glucan recognition protein (BGRP) against various BGs were compared. With reference to the amino acid sequences of BGRP in insects, an artificial BGRP (supBGRP) was designed with higher production efficiency using gene recombination technology. SupBGRP was produced in Escherichia coli with high efficiency, and its reactivity with BG from fungi was the highest among the BG-binding proteins examined. SupBGRP exhibited high reactivity with 1,6-branched BG and will be useful for the quantification and detection of fungal BG.

Possibility of Japanese Cedar Pollen Causing False Positives in the Deep Mycosis Test.

Because Japanese cedar pollen (JCP) contains beta-1,3-d-glucan (BG), there is concern that its lingering presence in the atmosphere, especially during its scattering period, may cause false positives in the factor-G-based Limulus amebocyte lysate (LAL) assay used to test for deep mycosis (i.e., G-test). Hence, we examined whether the LAL assay would react positively with substances contained in JCP by using the G-test to measure JCP particles and extracts. BG was purified from the JCP extract on a BG-specific affinity column, and the percentage extractability was measured using three different BG-specific quantitative methods. The G-test detected 0.4 pg BG in a single JCP particle and 10 fg from a single particle in the extract. The percentage extractability of JCP-derived BG was not significantly different among the three quantitative methods. As the JCP particles should technically have been removed during serum separation, they should be less likely to be a direct false-positive factor. However, given that the LAL-assay-positive substances in the JCP extract were not distinguishable by the three BG-specific quantitative methods, we conclude that they may cause the background to rise. Therefore, in Japan false positives arising from JCP contamination should be considered when testing patients for deep mycosis.

Open-Label Study of the Influence of Food Containing the Royal Sun Mushroom, Agaricus brasiliensis KA21 (Agaricomycetes), on ß-Glucan-Specific Antibody Production in Healthy Human Volunteers.

The edible mushroom Agaricus brasiliensis contains a large amount ß-glucan, which is mainly composed of a ß-1,6-glucan structure. In this study, we investigated the effect of A. brasiliensis strain KA21 on the anti-ß-glucan antibody titer in healthy humans and the role of antibodies as an immunomodulator. Twenty-two healthy volunteers were fed the dried fruiting body of A. brasiliensis (900 or 1500 mg/day) for 12 weeks. The anti-ß-glucan antibody titer in the serum was determined by enzyme-linked immunosorbent assay. Immunoglobulin G (IgG) against ß-glucan was significantly upregulated after intake of A. brasiliensis. Murine experiments demonstrated improvement of anti-ß-glucan antibody production after intraperitoneal injection of Agaricus-derived ß-glucan. To understand the role of antibody against ß-glucan in exclusion of pathogenic fungi, we examined the interaction between HL-60 cells and antibody-treated heat-killed Candida albicans. Flow cytometry analysis indicated the upregulation of Candida-positive HL-60 cells after treatment with human IgG, whereas the competitive assay demonstrated that the main epitope of Candida-reacted IgG was the ß-1,6-glucan structure. Binding between HL-60 and IgG-opsonized C. albicans was suppressed by anti-Fcγ receptor 1 (FcγRI) neutralizing antibody. Finally, using FcγRI-expressed cells with the nuclear factor of activated T-cell reporter assay, we demonstrated that higher titers of anti-ß-glucan IgG can induce stronger Fc receptor-mediated cell activation through the formation of an antibody-ß-glucan complex. In conclusion, oral ingestion of A. brasiliensis KA21 promotes anti-ß-glucan antibody production and may contribute to preventing fungal infection through the activation of immune cells by forming antibody-ß-glucan complexes via an FcγR-dependent pathway.

Latent 1,3-ß-D-glucan acts as an adjuvant for allergen-specific IgE production induced by Japanese cedar pollen exposure.

BACKGROUND: The pollen grains of several plant species contain 1,3-ß-D-glucan (BG). BG activates dendritic cells (DCs) and subsequently regulates the innate immune responses. Within Japan, the most common disease associated with type-I hypersensitivity is Japanese cedar pollinosis. However, the role of BG in Japanese cedar pollen (JCP) remains unclear. This study examined the localization and immunological effects of BG in JCP. METHODS: The localization of BG in JCP grain was determined by immunohistochemical staining using a soluble dectin-1 protein probe and a BG recognition protein (BGRP). The content of BG extracted from JCP was measured by a BGRP-based ELISA-like assay. The cytokine production by bone marrow-derived DCs (BMDCs) obtained from wild-type and BG receptor (dectin-1) knock-out mice was examined in vitro. The mice were intranasally administered JCP grains and the specific serum Ig levels were then quantified. RESULTS: BG was detected in the exine and cell wall of the generative cell and tube cell of the JCP grain. Moreover, BG in the exine stimulated production of TNF-α and IL-6 in the BMDCs via a dectin-1-dependent mechanism. Meanwhile, JCP-specific IgE and IgG were detected in the serum of wild-type mice that had been intranasally administered with JCP grains. These mice also exhibited significantly enhanced sneezing behavior. However, dectin-1 knock-out mice exhibited significantly lower JCP-specific IgE and IgG levels compared to wild-type mice. CONCLUSIONS: Latent BG in JCP can act as an adjuvant to induce JCP-specific antibody production via dectin-1.

Quantification of ß-Glucan from Culinary-Medicinal Mushrooms Using Novel Artificial ß-Glucan Recognition Protein.

(1->3)-ß-D-glucans (BGs), found in culinary-medicinal mushrooms, exhibit an immunostimulatory effect; hence, it is important to measure the content of BGs contained in mushrooms. BGs content in a mushroom extract was measured using a recombinant BG-binding protein, supBGRP, and compared with the existing BG assay using BGs antibody. The specificity of supBGRP enzyme immunoassay (EIA) was evaluated using a commercially available polysaccharide reagent. The supBGRP did not react to barley glucan, dextran, mannan, pustulan, and xylan, but reacted to sonifilan, and only slightly to curdlan. Among the BGs tested, supBGRP was most reactive to lentinan. The glucans were extracted using hot water and alkaline solution from the fruit body of the following edible mushrooms: Pleurotus ostreatus, Grifola frondosa, Lentinus edodes, Hypsizygus marmoreus, Flammulina velutipes, and Auricularia polytricha. All BGs extracted from edible mushrooms were detectable; in particular, the reactivity of supBGRP toward the alkaline-extracted fraction from Lentinus edodes was higher than that toward polyclonal antibody for BGs. The results suggest that supBGRP had a specific reaction to BG. The supBGRP seems to be superior to antibodies due to easy availability as a reagent and stability as a protein molecule for measurement of BGs.

Outdoor-Cultivated Royal Sun Medicinal Mushroom Agaricus brasiliensis KA21 (Agaricomycetes) Reduces Anticancer Medicine Side Effects.

We investigated whether outdoor-cultivated Agaricus brasiliensis (KA21) could reduce the side effects caused by the anticancer medicine 5-fluorouracil (5-FU). The adverse effects of 5-FU were analyzed in mice by orally administering the drug every day for 5 days. Leukopenia, diarrhea, body weight loss, anorexia, kidney injury, gastrointestinal tract injury, and hair loss were evaluated as side effects. We determined whether these side effects were reduced by the intake of outdoor-cultivated A. brasiliensis. The side effects were reduced in mice receiving the outdoor-cultivated A. brasiliensis but not in those receiving the indoor-cultivated A. brasiliensis. These results suggest that outdoor-cultivated A. brasiliensis is beneficial in reducing the side effects of the anticancer medicine and might, therefore, be useful in improving the quality of life of patients with cancer. Furthermore, because antioxidants have been reported to contribute to the suppression of the side effects of anticancer medicines, the antioxidant activities of different mushrooms were determined. The antioxidant activity of the outdoor-cultivated A. brasiliensis was the highest among all the tested mushrooms. These findings make it clear that the cultivation conditions of A. brasiliensis are important in suppressing the side effects of anticancer medicines. Strong antioxidant activity might be one of the mechanisms through which this pharmacological activity is mediated.

Quantification of Mushroom-Derived Soluble ß-1,6-Glucan Using the Function-Modified Recombinant ß-1,6-Glucanase.

Mushroom is one of the major sources of ß-glucan used in medical applications and traditional therapies. Thus, structure analysis and quantification of ß-glucan content is crucial to evaluate medicinal mushrooms. Most studies concerning mushroom-derived ß-glucan have been focused on ß-1,3-glucans. However, recent investigations suggest that ß-1,6 glucans have important roles for immunomodulating activity. Therefore, to elucidate the fine structure of various mushroom-derived ß-glucans, we recently developed a novel ß-1,6 glucan detection system using the function-modified recombinant ß-1,6-glucanase. In this study, we performed an ELISA-like assay using modified ß-1,6-glucanase and soluble dectin-1-Fc as the probes for ß-1,6-glucan and ß-1,3-glucan, respectively. Reactivity of ELISA to crude hot water extracts of edible mushrooms (Grifola frondosa, Agaricus bisporus, Pleurotus tuoliensis, P. eryngii, P. ostreatus, Hypsizygus marmoreus, and Lentinus edodes) was compared and L. edodes showed the strongest reactivity among them. An additional 19 different products of fresh L. edodes (shiitake mushroom) commercially available in Japan were also analyzed. This revealed limited differences in amounts of ß-1,6-glucan and ß-1,3-glucan in each shiitake mushroom. Furthermore, structural analysis of some purified ß-glucans derived from medicinal mushrooms was performed, and their action for inducing tumor necrosis factor-α production from the murine bone marrow-derived dendritic cells was investigated. We found relation between reactivity to modified ß-1,6-glucanase and its cytokine inducing activity. This assay could be useful for evaluating the strains of edible or medicinal mushrooms, which may be used as alternative medicines.

Protection against Gut Inflammation and Sepsis in Mice by the Autodigested Product of the Lingzhi Medicinal Mushroom, Ganoderma lingzhi (Agaricomycetes).

Ganoderma lingzhi (reishi) (GL) is a widely used medicinal mushroom in the treatment of several diseases, including metabolic syndrome and cancer. We recently performed autodigestion of GL and found enhanced release of hypotensive peptides and immunomodulating beta-1,3-glucan. In the present study, we examined the protective effects of G. lingzhi and its autodigested product (AD-GL) against gut inflammation and endogenous sepsis induced in mice by the oral administration of indomethacin (IND). Gut inflammation was assessed by measuring the lengths of the intestines and colon, and sepsis was evaluated by the survival period. G. lingzhi and AD-GL were mixed with animal feed (2.5%) that was available ad libitum during the experimental period. The murine model was established by the repeated oral administration of IND (once a day, 5 mg/kg from day 0). On day 3, the lengths of the small intestine and colon were measured, and the average lengths of the intestines were significantly shorter in the control and G. lingzhi-administered groups than in the AD-GL-administered group. This finding suggests that AD-GL protected against gut inflammation due to IND-induced ulceration and subsequent microbial translocation. Furthermore, the median numbers of survival days in the control group, the G. lingzhi group, and the AD-GL group were 5, 6, and 11, respectively. The concentrations of the inflammatory cytokines, tumor necrosis factor (TNF)-α and interleukin-6, in the blood were significantly reduced in the mice administered AD-GL. In the in vitro cell culture, G. lingzhi and AD-GL fractions released a significantly higher concentration of TNF-α from the spleen, and the splenocytes of mice administered AD-GL hot water extract showed a greater potential to produce cytokines in response to pathogen-associated molecular patterns. These results strongly suggest the protection of the gut mucosa from inflammation, and therefore the prevention of sepsis, by the administration of AD-GL. Autodigestion appears to be a promising protocol that enhances the usefulness of G. lingzhi as a functional food.

Immunoreactivity of the Cold Water Extract of Royal Sun Culinary-Medicinal Mushroom, Agaricus brasiliensis Strain KA21 (Agaricomycetes), Assessed by Immunoglobulin Preparations for Intravenous Injection.

The royal sun medicinal mushroom, Agaricus brasiliensis, is a health food material that helps to improve quality of life. A. brasiliensis has long been used as a tea by extraction with cold and hot water. Our group has been investigating the immunopharmacological activities of the A. brasiliensis KA21 strain, which is cultivated outdoors. We prepared cold water (AgCWE) and hot water (AgHWE) extracts of this strain. AgCWE contained a larger proportion of proteins, including enzymes, and showed a brownish color during the extraction process. By contrast, chemical and immunochemical analyses revealed that AgHWE contained large amounts of ß-1,3-/1,6-glucans. In an attempt to elucidate the immunochemical characteristics of AgCWE, reactivities to immunoglobulin (Ig) preparations for intravenous injection were analyzed and compared with standard materials. To characterize brownish high-molecular weight components, standard phenol compounds such as caffeic acid (CA), trans-ferulic acid (FA), and coumaric acid (CouA) were polymerized to brownish polymerized polyphenols (PPPs) (i.e., polymerized CA, polymerized FA, and polymerized CouA) by laccase or peroxidase. The results obtained revealed that intravenous Ig reacted with all PPPs and PPPs cross-reacted with AgCWE and AgHWE. The isotype of the anti-PPP antibody was found to be IgG1, in contrast to that of the ß-glucan antibody, which was mainly IgG2. These results strongly suggest that A. brasiliensis extracts contain immunoreactive components against various classes of Igs.

Enhanced Release of Immunostimulating ß-1,3- Glucan by Autodigestion of the Lingzhi Medicinal Mushroom, Ganoderma lingzhi (Agaricomycetes).

Ganoderma lingzhi is a widely used medicinal mushroom that has antioxidative effects, ameliorates insulin resistance, and improves quality of life in patients with metabolic syndrome. Potentiation of immunity is also a major function of G. lingzhi, and this has been applied in patients with cancer. Supplementing G. lingzhi into foods reduced the metastasis of cancer cells. ß-l,3-glucan is an important bioactive component of G. lingzhi. In this study we enhanced the solubilization ofimmunostimulating ß-l,3-glucan by autodigestion of G. lingzhi. Fruiting bodies of G. lingzhi were disrupted and suspended in distilled water, then autodigested at 37°C for 24 hours. The resulting suspension was dried by spray drying. To assess the solubilization of ß-l,3-glucan by autodigestion, cold and hot water extracts and sodium hydroxide extracts of G. lingzhi were prepared with and without autodigestion. Sodium hydroxide extracts were neutralized and dialyzed against distilled water. The resulting soluble and precipitated fractions were collected. Chemical, biochemical, and immunochemical characteristics of the extracts were compared. The yields of cold water extracts of autodigested and native G. lingzhi were significantly lower than the other extracts. Glucose was the major sugar component of the hot water extract, cold alkali extract (CAS), and the cold hydroxide extract insoluble in neutral aqueous condition (CASP) of the autodigested and native G. lingzhi. Nuclear magnetic resonance analysis revealed branched ß-glucans in the hot water extract and CAS of the autodigested and native G. lingzhi. By contrast, the CASP of the autodigested and native G. lingzhi comprised mainly mixtures of linear α-l,3-glucans and linear ß-l,3-glucans. Immunostimulation by ß-l,3-glucan was examined by limulus factor G activation, dectin-1 binding, and anti-ß-glucan antibody binding. Comparing relative activity, immunostimulating ß-l,3-glucan was detected in the hot water extract, rather than the CAS, of autodigested and native G. lingzhi. Immunostimulating of ß-glucan was also detected in the cold water extract of the autodigested G. lingzhi. These findings demonstrate that autodigestion is a useful processing protocol for enhancing the usefulness of G. lingzhi as a functional food.

Immunochemical Cross-Reactivity of ß-Glucan in the Medicinal Plant, Sasa veitchii (Japanese Folk Medicine Kumazasa), and Medicinal Mushrooms.

Fungal ß-glucan is a representative pathogen-associated molecular pattern from mushroom, yeast, and fungi and stimulates innate as well as acquired immune systems. This ß-glucan is widely applied in functional food to enhance immunity. Humans and animals generally become sensitized to this ß-glucan and gradually produce specific antibodies to ß-glucans. The extracts of plants have been used as folk medicine and are reported to possess various biological activities that are beneficial for human health, such as antitumor, antiallergic, and anti-inflammatory activities. In the present study, the immunochemical cross-reactivity of Sasa extract and fungal ß-glucan was analyzed. We found that the anti-ß-glucan antibody in human sera strongly cross-reacted with the Sasa extract. This result strongly suggested that plant extracts modulate the immunostimulating effects of medicinal mushrooms. The cooperative effects of plants and mushrooms may be an important issue for functional foods.

Specificity of the Immunomodulating Activity of Sasa veitchii (Japanese Folk Medicine Kumazasa) to Fungal Polysaccharides.

Many plant extracts are used as well-known folk medicines and exhibit various biological activities that are beneficial to human health. These extracts contain polysaccharides, and some are pathogen-associated molecular patterns (PAMPs) that stimulate innate as well as acquired immune systems. In the present study, the cooperative effects of PAMPs and bamboo water-soluble methanol precipitation (BWMP) in a macromolecular fraction of the hot water extract of Sasa veitchii (in Japanese folk medicine, known as Kumazasa; family Poaceae) were analyzed in vitro using the spleen or bone marrow cells of mice. The splenocytes of male DBA/2 and C57BL/6 mice were cultured with BWMP in the presence or absence of PAMPs, and responses were assessed by measuring cytokines. BWMP inhibited the production of interferon gamma (IFN-γ) by not only toll like receptors (TLRs), but also the C-type lectin receptors (CLRs) dectin-1 and dectin-2. BWMP also inhibited the autologous production of IFN-γ in the splenocyte culture. These results suggested that BWMP may inhibit the signaling pathways of PAMPs, but not ligand-receptor interactions. In contrast, BWMP did not inhibit the production of cytokines by dendritic cells. These results indicated that the inhibition of IFN-γ by BWMP was mediated through the cell-to-cell interactions of splenic cells during cultivation.

Oral administration of soluble ß-glucan preparation from the cauliflower mushroom, Sparassis crispa (Higher Basidiomycetes) modulated cytokine production in mice.

Soluble ß-glucan preparation from the cold NaOH extract of Sparassis crispa (SCG) is a six-branched 1,3-ß-D-glucan that is a major cell-wall structural component in fungi. Leukocytes from DBA/2 mice are highly sensitive to SCG, producing cytokines in vitro. We previously reported that the intraperitoneal (i.p.) administration of ß-glucan decreased cytokine induction by SCG in vitro in DBA/2 mice. In this study, we examined the effects of the oral (p.o.) administration of polysaccharide fractions extracted from S. crispa, using hot water (SCHWE), a ß-glucan from S. crispa, to DBA/2 mice on cytokine induction by SCG in the spleen in vitro. The level of induction of IFN-γ and GM-CSF by SCG was significantly increased in SCHWE-treated mice. This activity was more clearly observed when chlorpromazine was administered as a pretreatment in SCHWE-treated mice. The production of GM-CSF, IFN-γ, and IL-6 by immune cells in Peyer's patches was higher in SCHWE-treated mice than in control mice. These results suggest that orally administered ß-glucan may modulate cytokine induction by SCG in the spleen through the activation of Peyer's patches.

Analysis of the titer and reactivity of antibody/ies against fungal cell wall ß-glucans in human sera.

The aim of this work was to characterize an antibody response to ß-glucan (BG), a major component of the fungal cell wall, at each isotype in human sera. The titer and reactivity of the anti-human BG antibody were examined using enzyme-linked immunosorbant assay plates coated with Candida soluble cell wall ß-glucan as a standard antigen. The antibody was detected using anti-human immunoglobulin (Ig) G, IgM, and IgA. Its major class was IgG in all subjects. The antibody titer varied significantly. The anti-BG antibody showed greater reactivity to ß-glucans derived from pathogenic fungi than monoglycosyl-branched ß-glucans derived from mycelia culture medium. In addition, it was suggested that the anti-BG IgM antibody was bound relatively strongly to the ß1,3-glucan backbone and the anti-BG IgG antibody to ß1,6-glucan. The anti-BG antibody plays a variety of roles, according to class, in the host's response to fungi. We propose a new index of human response to ß-glucan that effects the understanding of the response to ß-glucan in humans.

Disruption of actin cytoskeleton enhanced cytokine synthesis of splenocytes stimulated with beta-glucan from the cauliflower medicinal mushroom, Sparassis crispa Wulf.:Fr. (higher Basidiomycetes) in vitro.

Beta-glucan (BG) is a representative pathogen-associated molecular pattern (PAMP) produced by pathogenic fungi. SCG is a BG obtained from Sparassis crispa, which stimulates splenocytes in DBA/2 mice to produce cytokines, such as GM-CSF, IFN-γ, and TNF-α. In the present study, we analyzed the molecular mechanism of SCG-mediated cytokine synthesis using cytocharasin D (CytD), an inhibitor of actin polymerization. It was found that GM-CSF and TNF-α synthesis of splenocytes stimulated with SCG, but not with lipopolysaccharide, was significantly enhanced in the presence of CytD. CRDO, partially hydrolyzed linear 1,3-BG curdlan, stimulated splenocytes of DBA/2 mice slightly to produce cytokines. CRDO, acting as an antagonist in the presence of SCG, changed to a strong agonist in the presence of CytD. CytD also enhanced cytokine synthesis of bone marrow-derived dendritic cells. Taken together, cytokine productivity of BG was significantly dependent on molecular weight, and CytD treatment is useful to enhance the sensitivity for analyzing the immunostimulating activity of BG in vitro.

A concise method using nuclear magnetic resonance spectroscopy to determine the source of the ß-glucan extracted from various mushrooms.

ß-glucan prepared from mushrooms is used in both modern medicine and traditional oriental therapies because of its potent immunomodulatory properties. The effects of ß-glucan depend on its structure and origin. Therefore, elucidating the structure and source of ß-glucan is crucial for its use in food therapy and medicine. In this study, we performed NMR analysis of ß-glucan preparations from various mushrooms in order to determine their structure and source. Our results show that NMR spectroscopy can be used to determine the type of mushrooms from which a ß-glucan is derived on the basis of the structure of the ß-glucan. We believe that this method will help promote the use of ß-glucan in clinical settings and as a health food additive.

Effect of Sasa veitchii extract on immunostimulating activity of ß-glucan (SCG) from culinary-medicinal mushroom Sparassis crispa Wulf.:Fr. (higher Basidiomycetes).

Fungal ß-glucan is a representative pathogen-associated microbial pattern (PAMP) from mushroom, yeast, and fungi, and stimulates innate as well as acquired immune systems. It is a widely used functional food to enhance immunity. Such plant extracts have been known as folk medicines and reported to show various biological activities beneficial to human health, such as anti-tumor, anti-allergic, and anti-inflammatory activities. In the present study, the cooperative effect of bamboo water-soluble methanol precipitation (BWMP), a macromolecular fraction of the hot-water extract of Sasa veitchii (Japanese folk medicine Kumazasa), and the ß-glucan from the medicinal mushroom Sparassis crispa (SCG) was analyzed in vitro using DBA/2 mice. The splenocytes from male DBA/2 mice were cultured with BWMP in the presence of SCG, and the responses were assessed by measuring cytokines. BWMP suppressed IFN-γ and GM-CSF production by SCG, but not TNF-α production. To analyze the specificity of the reaction, similar experiments were conducted with BWMP in the presence of bacterial lipopolysaccharide (LPS); however, none of the cytokines were inhibited. Cytokine production of splenocytes by SCG was suggested to be largely dependent on the binding of lymphocytes with dendritic cells. Functions of BWMP were also analyzed by mixed lymphocyte reaction, and IFN-γ production was suppressed. These findings suggested that BWMP modulated the cell-to-cell contact induced by SCG and inhibited cytokine production. It is strongly suggested that the plant extracts modulate the immunostimulating effects of medicinal mushrooms. Cooperative effects of plants and mushrooms would be an important issue for functional foods.

Characterization of blood beta-1,3-glucan and anti-beta-glucan antibody in hemodialysis patients using culinary-medicinal Royal Sun Agaricus, Agaricus brasiliensis S. Wasser et al. (Agaricomycetideae).

Beta-glucan is a major component of fungal cell walls and shows various immunopharmacological activities including antitumor activity. Previously, we detected anti-beta-glucan antibody in human sera. Anti-beta-glucan antibody participates in the immune response to fungal cell wall beta-glucan. Patients on dialysis are at high risk of infection including fungal infections. We examined the plasma beta-glucan level and the titer of anti-beta-glucan antibody in dialysis patients. We measured plasma beta-1,3-glucan concentrations with the limulus G test and anti-beta-glucan antibody titers by ELISA with Candida beta-glucan-coated plates. We also examined the influence of the period of dialysis and the kind of dialysis membrane. The patients were positive for beta-1,3-glucan in their plasma. The anti-beta-glucan antibody titer was lower in the dialysis patients than in healthy volunteers. Long-term dialysis patients showed lower anti-beta-glucan antibody titers than short-term dialysis patients. No significant difference was found between the kinds of dialysis membrane. The titer of anti-beta-glucan antibody as recognition molecule of beta-glucan was low in dialysis patients compared with healthy volunteers. This is likely to be one factor explaining the sensitivity to infection of the dialysis patients. An appropriate application of culinary-medicinal mushroom such as Agaricus brasiliensis has potential for the prevention of fungal infection in dialysis patients.