An increased number of CD4+CD25+ cells induced by an oral administration of Lactobacillus plantarum NRIC0380 are involved in antiallergic activity.

BACKGROUND: Our previous study showed that an oral administration of Lactobacillus plantarum NRIC0380 inhibited immunoglobulin E (IgE) production in a murine model, and that orally administered NRIC0380 induced CD4+CD25+ Foxp3+ T, i.e. regulatory T (Treg), cells in the spleen and Peyer's patch of mice. Although it has been reported that Treg cells might suppress the allergic symptoms, the involvement of the cells in the antiallergic activity of lactic acid bacteria has not been clearly demonstrated. We therefore examined in detail the antiallergic activity of Treg cells obtained from mice that had been fed NRIC0380. METHODS: Treg cells were obtained from mice that had been fed NRIC0380. The T cell-suppressive effect of the cells was analyzed by coculturing the cells with splenocytes of ß-lactoglobulin-immunized mice and ß-lactoglobulin. The effects of the Treg cells on the IgE production and cutaneous anaphylaxis reaction were then analyzed by transferring the cells into another mouse. RESULTS: The Treg cells obtained from the mice that had been fed NRIC0380 showed similar T cell-suppressive activity to those cells obtained from the control mice. The Treg cells obtained from the mice fed NRIC0380 significantly inhibited the IgE production and active cutaneous anaphylaxis reaction when transferred into another mouse that was subsequently immunized with the antigen. Furthermore, the Treg cells also significantly suppressed the passive cutaneous anaphylaxis reaction when cotransferred with the IgE antibody into another mouse. CONCLUSIONS: The induction of Treg cells by the oral administration of NRIC0380 would be involved in the antiallergic activity of NRIC0380.

Induction of ALDH activity in intestinal dendritic cells by Lactobacillus plantarum NRIC0380.

Lactic acid bacteria have been reported to have various immune-regulating activities. We also found in the previous study that the oral administration of heat-killed Lactobacillus plantarum NRIC0380 induced CD4(+)CD25(+)Foxp3(+) cells (Treg cells). We examine in this present study the influence of NRIC0380 on the function of intestinal dendritic cells (DCs) in vitro and in vivo. The aldehyde dehydrogenase (ALDH) activity was significantly induced in DCs obtained from the mesenteric lymph node (MLN) by culturing with NRIC0380. The oral administration of NRIC0380 also significantly increased ALDH-positive DCs in MLN. NRIC0380 significantly enhanced the production of TGF-ß from MLN cells in vitro. These effects were not apparent in cells from the Peyer's patch (PP) and spleen (SPL). NRIC0380 also significantly enhanced the expression of B7-H1 on DCs of all organs in vitro. The effects of NRIC0380 on DCs, especially those located in MLN, might be involved in its function to induce Treg cells.

Synthesis and macrophage activation of lentinan-mimic branched amino polysaccharides: curdlans having N-Acetyl-d-glucosamine branches.

N-Acetyl-d-glucosamine branches were incorporated at the C-6 position of curdlan, a linear ß-1,3-d-glucan, and the resulting nonnatural branched polysaccharides were evaluated in terms of the immunomodulation activities in comparison with lentinan, a ß-1,3-d-glucan having d-glucose branches at C-6. To incorporate the amino sugar branches, we conducted a series of regioselective protection-deprotections of curdlan involving triphenylmethylation at C-6, phenylcarbamoylation at C-2 and C-4, and detriphenylmethylation. Subsequent glycosylation with a d-glucosamine-derived oxazoline, followed by deprotection gave rise to the branched curdlans with various substitution degrees. The products exhibited remarkable solubility in both organic solvents and water. Their immunomodulation activities were determined using mouse macrophagelike cells, and the secretions of both the tumor necrosis factor and nitric oxide proved to be significantly higher than those with lentinan. These results conclude that the amino sugar/curdlan hybrid materials are promising as a new type of polysaccharide immunoadjuvants useful for cancer chemotherapy.

Branched chitins as nonnatural immunomodulatory biopolymers: secretions of TNF-alpha and NO by direct stimulation of macrophages.

In view of the interesting properties of branched polysaccharides occurring in nature, biological activities of nonnatural branched chitins having beta-1,6-N-acetyl-D-glucosamine branches on the poly(beta-1,4-N-acetyl-D-glucosamine) backbone have been studied. The immunostimulatory activities of the branched chitins were determined and compared with those of lentinan, a beta-1,3-D-glucan having beta-1,6-D-glucose branches, using the mouse macrophagelike cell line RAW264.7 in vitro. The secretions of the tumor necrosis factor and nitric oxide proved to be significantly higher with the branched chitins than with lentinan. Moreover, when interferon-gamma was used in conjunction with the branched chitins on macrophage treatment, a marked augmentation of nitric oxide production was observed. These results are interpreted as the direct stimulation of macrophages by the branched chitins, and the distinctive activities suggest the possibility of developing new types of polysaccharide antitumor agents.

Cell adsorption and selective desorption for separation of microbial cells by using chitosan-immobilized silica.

Cell adsorption and selective desorption for separation of microbial cells were conducted by using chitosan-immobilized silica (CIS). When chitosan was immobilized onto silica surfaces with glutaraldehyde, bacterial cells adsorbed well and retained viability. Testing of the adsorption and desorption ability of CIS using various microbes such as Escherichia coli, Aeromonas hydrophila, Pseudomonas aeruginosa, Bacillus subtilis, Micrococcus luteus, Staphylococcus aureus, Staphylococcus epidermidis, Lactobacillus casei, Streptococcus mutans, Streptococcus sobrinus, Streptococcus salivarius, Saccharomyces cerevisiae, Saccharomyces ludwigii, and Schizosaccharomyces pombe revealed that most microbes could be adsorbed and selectively desorbed under different conditions. In particular, recovery was improved when L-cysteine was added. A mixture of two bacterial strains adsorbed onto CIS could also be successfully separated by use of specific solutions for each strain. Most of the desorbed cells were alive. Thus, quantitative and selective fractionation of cells is readily achievable by employing chitosan, a known antibacterial material.

Nonnatural branched polysaccharides: synthesis and properties of chitin and chitosan having disaccharide maltose branches.

Synthesis and properties of chitin and chitosan derivatives having beta-maltoside branches at C-6 have been studied. Chitosan was first transformed into an organosoluble acceptor having a reactive group only at C-6, 3-O-acetyl-2-N-phthaloyl-6-O-trimethylsilylchitosan. Glycosylation with an ortho ester from d-maltose was performed successfully at room temperature in dichloromethane in the presence of trimethylsilyl trifluoromethanesulfonate as the catalyst. The degree of substitution could be controlled by the reaction conditions and was up to 0.56. Full deprotection gave chitosan with maltoside branches, and the subsequent N-acetylation resulted in the formation of the corresponding chitin derivative. The introduced disaccharide unit improved hydrophilic properties considerably compared to monosaccharide units as confirmed by high solubility in water and moisture absorption and retention ability. The enzymatic degradability and antimicrobial activity were moderate probably because of the bulky nature of the branches.

Chemoselective protection of the amino groups of chitosan by controlled phthaloylation: facile preparation of a precursor useful for chemical modifications.

A simple and convenient procedure for chemoselectively protecting the amino groups of chitosan has been developed to provide N-phthaloyl-chitosan that is indispensable as a soluble N-protected precursor for further controlled modification reactions of chitosan. Although the conventional N-phthaloylation of chitosan in N,N-dimethylformamide was accompanied by partial phthaloylation of the hydroxy groups, the addition of a small amount of hydroxy-containing compounds effectively suppressed the O-phthaloylation. Of some compounds examined, water proved particularly suitable, resulting in the formation of chemoselectively N-phthaloylated chitosan without any appreciable O-phthaloyl groups. The resulting N-phthaloyl-chitosan was found to be crystalline despite the presence of a bulky substituent. A solubility test indicated that N-phthaloyl-chitosan exhibited considerable affinity for organic solvents.