UNIPROT:P43026 - FACTA Search

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Query: UNIPROT:P43026 (lipopolysaccharide)
62,215 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Previous studies in our laboratory suggested that Lactobacillus acidophilus strain DDS-1 (LA1) has a suppressive effect on chemically induced tumors in experimental animals. In an effort to understand the possible mechanisms underlying this effect, we investigated the ability of LA1 to induce the production of interleukin-1 alpha (IL-1 alpha) and tumor necrosis factor-alpha (TNF-alpha), which have potent cytocidal and cytostatic effects on tumor cells. The mouse macrophage cell line RAW264.7 was incubated with live or heat-killed cells of four strains of L. acidophilus or Bifidobacterium bifidum. Escherichia coli was used as a source of lipopolysaccharide that is known to induce the above cytokines. The amount of the cytokines present in the culture fluid was quantitated by an enzyme-linked immunosorbent assay. LA1 induced the production of higher levels of IL-1 alpha and TNF-alpha than other lactobacilli and bifidobacteria. Stimulation of the production of the cytokines was not due to the lipopolysaccharide (LPS) component, since LPS at concentrations equivalent to, or 100-fold greater than, that of LA1 induced only negligible amounts of IL-1 alpha and TNF-alpha. These results reveal that non-LPS component(s) of LA1 stimulate(s) the production of IL-1 alpha and TNF-alpha by macrophages, indicating that this organism stimulates the production of immunologic factors.
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PMID:Nonlipopolysaccharide component(s) of Lactobacillus acidophilus stimulate(s) the production of interleukin-1 alpha and tumor necrosis factor-alpha by murine macrophages. 929 Jan 17

When used in commercial fermented dairy products, bifidobacteria may enhance immunity by stimulating cytokine secretion by leukocytes. To assess whether interaction between bifidobacteria and leukocytes promote cytokine production, we cultured RAW 264.7 cells (macrophage model) and EL-4.IL-2 thymoma cells (helper T-cell model) in the presence of 14 representative strains of heat-killed bifidobacteria. In unstimulated RAW 264.7 cells, all bifidobacteria induced pronounced increases (up to several hundred-fold) in the production of tumor necrosis factor-alpha compared with that of controls. Interleukin-6 production by unstimulated cells also increased significantly, but less than did tumor necrosis factor-alpha. Upon concurrent stimulation of RAW 264.7 cells with lipopolysaccharide, production of tumor necrosis factor-alpha and interleukin-6 were both enhanced between 1.5- to 5.8-fold and 4.7- to 7.9-fold, respectively, when cultured with 10(8) bifidobacteria/ml. In unstimulated EL-4.IL-2 cells, bifidobacteria had no effect on the production of interleukin-2 or interleukin-5. Upon stimulation of EL-4.IL-2 with phorbol-12-myristate-13-acetate, there were variable increases in interleukin-2 secretion (up to 2.4-fold for 10(6) Bifidobacterium Bf-1/ml) and interleukin-5 secretion (up to 4.6-fold for 10(8) B. adolescentis M101-4). The results indicated that, even when variations among strains were considered, direct interaction of most bifidobacteria with macrophages enhanced cytokine production, but the effects on cytokine production by the T-cell model were less marked. Interestingly, the 4 bifidobacteria strains used commercially for diary foods showed the greatest capacity for cytokine stimulation. The in vitro approaches employed here should be useful in future characterization of the effects of bifidobacteria on gastrointestinal and systemic immunity.
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PMID:Differential cytokine production in clonal macrophage and T-cell lines cultured with bifidobacteria. 940 65

The effects of four commercial strains of Streptococcus thermophilus used in yogurt manufacturing on cytokine production were evaluated by using a macrophage model (RAW 264.7 cells) and a T-helper-cell model (EL4.IL-2 thymoma cells) and compared to immunologically active strains of Lactobacillus bulgaricus, Bifidobacterium adolescentis, and Bifidobacterium bifidum. All cytokines (TNF-alpha and IL-6 in RAW 264.7 cells and IL-2 and IL-5 in EL4.IL-2 cells) were affected by heat-killed S. thermophilus in a strain- and dose-dependent fashion. Organisms of all three genera induced significant increases in IL-6 production by the macrophage line ranging from 31- to 192-fold, with S. thermophilus St 133 showing the greatest activity. The four S. thermophilus strains also strongly induced TNF-alpha production (from 135- to 176-fold). IL-6 and, to a lesser extent, TNF-alpha production were also increased when the macrophages were costimulated with lipopolysaccharide and cells of the three groups of lactic acid bacteria. Upon concurrent stimulation of EL4.IL-2 cells with phorbol 12-myristate-13-acetate, seven of the eight strains displayed significant enhancement of IL-2 and IL-5 production, with S. thermophilus being most effective. Taken together, the S. thermophilus strains stimulated macrophage and T-cell cytokine production to a similar or greater extent than did the species of Bifidobacterium and Lactobacillus. These and previous results lend further support to the contention that lactic acid bacteria, in a concentration-dependent manner, can differentially induce cytokine production in macrophages, but that the effects on T cells required a costimulatory signal and were less remarkable.
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PMID:Stimulation of cytokine production in clonal macrophage and T-cell models by Streptococcus thermophilus: comparison with Bifidobacterium sp. and Lactobacillus bulgaricus. 967 70

Bifidobacteria have been previously shown to stimulate immune function and this may be mediated by macrophages. The RAW 264.7 cell line was used here as a macrophage model to assess the effects of human and commercial Bifidobacterium isolates on the production nitric oxide (NO), hydrogen peroxide (H2O2) and the cytokines IL-6 and tumor necrosis factor (TNF)-alpha. Thirty three Bifidobacterium strains differentially stimulated the production of H2O2 NO, TNF-alpha, and IL-6 in a dose-dependent manner in 24-h cultures. In the presence of lipopolysaccharide (LPS) the effects of bifidobacteria on NO and H2O2 were masked and were less pronounced at the later stage of incubation. Co-stimulation of macrophages with both LPS and Bifidobacterium increased the production of IL-6 synergistically. In contrast, LPS reduced the ability of the bifidobacteria-induced macrophages to produce TNF-alpha. Our results demonstrated that both human and commercial Bifidobacterium strains can stimulate H2O2, NO, TNF-alpha, and IL-6 production, and this effect was strain-dependent. The in vitro approaches employed here should be useful in further characterization of the effects of bifidobacteria on gastrointestinal and systemic immunity.
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PMID:Potentiation of hydrogen peroxide, nitric oxide, and cytokine production in RAW 264.7 macrophage cells exposed to human and commercial isolates of Bifidobacterium. 1010 Sep 3

To determine the role of bifidobacteria in the systemic and mucosal antibody response, we examined the direct modulatory effect of bifidobacteria on the synthesis of antibodies by murine spleen B cells. Whole spleen B cells were cultured with Bifidobacterium bifidum or Clostridium perfringens (Welch's bacilli, negative control), and antibody synthesis was measured by ELISA and enzyme-linked immunospot assay. The B. bifidum, but not C. perfringens, substantially increased total secretion of major immunoglobulin (Ig) isotypes and the number of IgA-secreting cells. In addition, B. bifidum increased proliferation of spleen cells by threefold, and C. perfringens had little to diminishing effect on the cells. These results indicate that B. bifidum increased Ig synthesis through its mitogenic influence on B cells. Further, B. bifidum induced spleen B cells to be reactive to transforming growth factor-beta 1 and interleukin-5 and resulted in increased surface IgA expression (approximately threefold) and total IgA production (> 20-fold) but not increased production of IgM and IgG2a isotypes. Together, these studies indicate that B. bifidum can act as a lipopolysaccharide-like polyclonal activator for B cells. Furthermore, that bifidobacteria enable B cells to respond to transforming growth factor-beta 1 and interleukin-5 for the IgA production has important implications for the primary defense against pathogens in the gastrointestinal tract.
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PMID:Bifidobacterium bifidum exhibits a lipopolysaccharide-like mitogenic activity for murine B lymphocytes. 1050 45

Consumption of lactic acid bacteria (LAB) has been suggested to confer a range of health benefits including stimulation of the immune system and increased resistance to malignancy and infectious illness. In the present study, the effects of feeding Lactobacillus rhamnosus (HN001, DR20), Lactobacillus acidophilus (HN017) and Bifidobacterium lactis (HN019, DR10) on in vivo and in vitro indices of natural and acquired immunity in healthy mice were examined. Mice were fed daily with L. rhamnosus, L. acidophilus or B. lactis (10(9) colony forming units) and their immune function was assessed on day 10 or day 28. Supplementation with L. rhamnosus, L. acidophilus or B. lactis resulted in a significant increase in the phagocytic activity of peripheral blood leucocytes and peritoneal macrophages compared with the control mice. The proliferative responses of spleen cells to concanavalin A (a T-cell mitogen) and lipopolysaccharide (a B-cell mitogen) were also significantly enhanced in mice given different LAB. Spleen cells from mice given L. rhamnosus, L. acidophilus or B. lactis also produced significantly higher amounts of interferon-gamma in response to stimulation with concanavalin A than cells from the control mice. LAB feeding had no significant effect on interleukin-4 production by spleen cells or on the percentages of CD4+, CD8+ and CD40+ cells in the blood. The serum antibody responses to orally and systemically administered antigens were also significantly enhanced by supplementation with L. rhamnosus, L. acidophilus or B. lactis. Together, these results suggest that supplementation of the diet with L. rhamnosus (HN001), L. acidophilus (HN017) or B. lactis (HN019) is able to enhance several indices of natural and acquired immunity in healthy mice.
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PMID:Enhancement of natural and acquired immunity by Lactobacillus rhamnosus (HN001), Lactobacillus acidophilus (HN017) and Bifidobacterium lactis (HN019). 1074 96

The possibility that intestinal microflora contribute to the pathogenesis of autoimmune diseases has raised issues regarding the safety of probiotic organisms, especially those with immunostimulating properties, in individuals with such immune dysfunctions. In this study, the effect of consumption of probiotic lactic acid bacteria (LAB) strains Lactobacillus rhamnosus HN001(HN001) and Bifidobacterium lactis HN019 (HN019) on the induction and progression of experimental autoimmune thyroiditis (EAT) was investigated in CBA/CaH (H-2k) mice. HN001 or HN019 in skim milk were fed to mice daily (1-1.5 x 10(8) cfu/mouse/day) for 5 to 9 weeks. A mild form of EAT was induced by subcutaneous injection of mouse thyroglobulin (MTg) with either Freund's adjuvant (complete and incomplete, CFA and IFA) or lipopolysaccharide (LPS). The proliferative responses of spleen lymphocyte to MTg stimulation in vitro and the presence (and degree) of mononuclear cell infiltration in thyroid gland tissues were examined to assess the development and severity of EAT. The levels of serum anti-MTg antibodies (IgG1 and IgG2a) and spleen weight index were determined to detect the presence of autoimmune responses of mice receiving MTg. Results showed that 8 weeks after immunization, 16.67-50% of the mice developed mild EAT with lymphocyte infiltration in the thyroid glands. Probiotic feeding did not induce full-blown EAT. There were no differences in spleen weight index or the proliferative spleenocytes in response to PMA between mice that received MTg alone and mice that received MTg and probiotic LAB strains.
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PMID:Immunostimulatory probiotic Lactobacillus rhamnosus HN001 and Bifidobacterium lactis HN019 do not induce pathological inflammation in mouse model of experimental autoimmune thyroiditis. 1608 70

Bifidobacteria are assumed to exert colonization resistance to enteric pathogens. We associated C3H germfree mice with either Bifidobacterium longum or Escherichia coli or both strains and studied how they settled in the gut and the lymphoid organs as well as their effect on mucus composition. Within 24 hE. coli colonized the gut of germfree or B. longum ex-germfree mice. In contrast,B. longum was established in the intestine of E. coli ex-germfree mice only 1 month after inoculation whereas it colonized the germfree gut within 24 h. Although B. longum did not exert colonization resistance to E. coli, the establishing of bifidobacteria in the gut partly prevented changes in the E. coli cell wall. After colonization of the germfree or B. longum mono-associated mice, E. coli lipopolysaccharide exhibited a higher concentration of Kdo and the O-antigen side chain disappeared. A reduction in Kdo content was observed within 1 month in E. coli-B. longum diassociated mice whereas it remained at a high level in E. coli mono-associated mice. Association in a second step with B. longum led to Kdo reduction. Changes in E. coli LPS might be related to mucus modification. Inoculation of either bacterium led to a slow increase in mucus protein content which was however twice as high after E. coli implantation. Inoculation of B. longum in a second step led to a reduction in protein content before B. longum colonized the intestine at a high level suggesting that the protein concentration in the mucus was controlled by the host itself. A new glycoprotein of 200-230 kDa detected during the period preceeding colonization seemed to be broken down by B. longum. The resulting end product might participate in the restoration of E. coli LPS. Finally,B. longum inoculation led to the disappearance of E. coli from kidneys, liver, spleen and lung. The organs were cleared of E. coli before B. longum highly colonized the intestine suggesting that high intestinal colonization by B. longum was not required. Regulation of E. coli invasion seemed to depend on the ability of B. longum to stimulate the immune system.
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PMID:Bifidobacteria and human health: regulatory effect of indigenous bifidobacteria on Escherichia coli intestinal colonization. 1688 77

Modification of intestinal microbiota early in life by administration of probiotic bacteria may be a potential approach to prevent allergic disease. To select probiotic bacteria for in vivo purposes, we investigated the capacity of probiotic bacteria to interact with neonatal dendritic cells (DC) and studied the ensuing T cell polarizing effect. Immature DC were generated from cord blood-derived monocytes and maturation was induced by maturation factors (MF), lipopolysaccharide (LPS) plus MF and Bifidobacterium bifidum, B. infantis, Lactobacillus salivarius, Lactococcus lactis alone or combined with MF. After 12 days of co-culture with DC and Staphylococcus aureus enterotoxin B (SEB) as antigenic stimulus, cytokine production by autologous T cells was determined by intracellular cytokine staining. Additionally, cells were stimulated with CD3 and CD28 monoclonal antibodies and cytokines were measured in supernatants by multiplex assay. The probiotic strains induced partial maturation of DC. Full maturation of DC was induced for all strains tested when MF was added. The percentage of interleukin (IL)-4 producing T cells was lower in T cell cultures stimulated with B. bifidum matured DC compared to MF and LPS matured DC, which coincided with a higher percentage of interferon (IFN)-gamma-producing T cells. Furthermore, T cells stimulated by B. bifidum matured DC produced significantly more IL-10 compared to MF matured DC. Selected species of the Bifidobacterium genus prime in vitro cultured neonatal DC to polarize T cell responses and may therefore be candidates to use in primary prevention of allergic diseases.
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PMID:Selection of probiotic bacteria for prevention of allergic diseases: immunomodulation of neonatal dendritic cells. 1752 19

Patients with irritable bowel syndrome (IBS) may have a low grade immune activation. However, little is known about the properties of B cells of IBS patients. We therefore investigated activation level and antigen presenting phenotype of blood B cells of IBS patients. We also examined B-cell responses to lipopolysaccharide (LPS) and probiotic bacteria. Blood samples were obtained from 74 IBS patients and 30 healthy subjects. Peripheral blood mononuclear cells were isolated and stimulated with LPS or an UV-light inactivated bacterial cocktail consisting of the probiotic Gram-positive strains; Lactobacillus paracasei ssp. paracasei 19, Lactobacillus acidophilus La5, Bifidobacterium lactis B612. The phenotype of CD19(+) B cells was investigated by flow cytometry before and after 72 h cell culture. Furthermore, IBS symptom severity was assessed. B cells isolated from blood of IBS patients displayed an amplified activation level as demonstrated by increased cell surface expression of IgG, and also the costimulatory molecules CD80 and CD86. Expression of antigen presenting HLA-DR and costimulatory molecule CD40 on B cells was, however comparable in IBS patients and controls. B cells of IBS patients displayed an impaired ability to increase expression of CD80, but not CD86, in response to both LPS as well as probiotic bacteria stimulations. To conclude, blood B cells of IBS patients have an increased activation level. Bacterial component induced expression of the costimulatory molecule CD80, regarded as important for tolerance induction, is impaired. These data suggest that B-cell antigen presentation in IBS patients is associated with altered capacity of providing costimulation to T cells.
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PMID:B-cell activation in patients with irritable bowel syndrome (IBS). 1922 63

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