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Modification of immune response in mice by ciprofloxacin.

Some studies have suggested that the addition of ciprofloxacin to in vitro cultures of mitogen-stimulated lymphocytes exerts inhibitory effects on cell cycle progression and immunoglobulin (Ig) secretion. We tested the effects of this drug on some immunity parameters in BALB/c mice. Mice treated intraperitoneally with ciprofloxacin (10 mg/kg of body weight per day) for 3 consecutive days and immunized with sheep erythrocytes 24 h after the last injection showed significant suppression of hemolytic IgG-forming cells, whereas the response of IgM-forming cells remained unchanged. When treatment lasted 7 days the response of antibody-forming cells was not modified. When the 3-day treatment was started at 24 h after immunization with sheep erythrocytes, the response of IgM-forming cells was increased, whereas the response of IgG-forming cells was suppressed. Delayed-type hypersensitivity to sheep erythrocytes was significantly suppressed in animals that received the 3-day treatment with ciprofloxacin and were immunized subcutaneously 24 h after the last injection. In vitro proliferation of lymphocytes from ciprofloxacin-treated mice in response to either lipopolysaccharide or concanavalin A was also suppressed. Leukopenia and an increase in the level of granulocyte-macrophage colony-forming cells in bone marrow were also observed in ciprofloxacin-treated mice. These results, together with those from other reports, suggest that modification of the biological responses by ciprofloxacin is a complex phenomenon that may be influenced by several factors.

Biological Response Modifier Activity of an Exopolysaccharide from Paenibacillus jamilae CP-7

ABSTRACT An extracellular polysaccharide was purified from culture supernatants of Paenibacillus jamilae CP-7, a gram-positive bacillus that was isolated from compost prepared with olive mill wastewaters. The extracellular polysaccharide was produced under aerobic conditions in a medium containing olive mill wastewaters (80% [vol/vol]). This exopolymer had a low level of acute toxicity when it is administered to BALB/c mice by the intraperitoneal route. Interesting immunomodulatory effects were detected when mice were given 10 mg of exopolysaccharide per kg of body weight; the proliferative responses of splenocytes to B-cell and T-cell mitogens were suppressed, the in vitro levels of production of gamma interferon and granulocyte-macrophage colony-stimulating factor by unstimulated and lipopolysaccharide-stimulated splenocytes were enhanced, and the levels of resistance to the intracellular pathogen Listeria monocytogenes was increased in mice. Also, the exopolysaccharide was able to induce lymphocyte proliferation in vitro. We conclude thatP. jamilae produces an exopolysaccharide with interesting immunomodulatory properties.

Telithromycin inhibits the production of proinflammatory mediators and the activation of NF-κB in in vitro-stimulated murine cells

Telithromycin is a ketolide antibiotic with anti-inflammatory properties. To investigate the mechanisms of these effects, we examined the in vitro immunomodulatory activity of telithromycin on murine splenocytes and the murine macrophage cell line RAW 264.7. Spleen cells from BALB/c-untreated mice and RAW 264.7 macrophages were cultured in the presence of telithromycin. Proliferation and apoptosis (colorimetric assay), and cytokine production (enzyme immunoassay) of spleen cells in response to lipopolysaccharide and concanavalin A (Con A), and nitric oxide (NO) (colorimetric assay) and cytokine production by lipopolysaccharide-stimulated RAW 264.7 cells were determined. Telithromycin moderately enhanced lymphocyte proliferation in response to lipopolysaccharide and Con A, and enhanced apoptosis induced by camptothecin in mitogen-stimulated splenocytes. Con A-induced IFN-gamma production was suppressed and lipopolysaccharide-induced IL-10 production was increased in spleen cell cultures with telithromycin. Lipopolysaccharide-induced secretion of NO and tumor necrosis factor-alpha (TNF-alpha) was suppressed by telithromycin in RAW 264.7 cultures. Lipopolysaccharide-induced activation of NF-kappaB transcription factor and TNF-alpha promoter in RAW 264.7 macrophages transitorily transfected with luciferase reporter constructs was also inhibited by the ketolide. The suppressive effect of telithromycin on NF-kappaB activation was confirmed by Western blot and enzyme immunoassay. These results suggest that telithromycin exerts anti-inflammatory activity mediated by the inhibition of activation of NF-kappaB.

Experimental Infection of Mice with Yersinia enterocolitica Serotype O9 by Oral and Parenteral Routes: Spreading and Enterotropism of Virulent Yersiniae

Abstract. An isogenic pair of Yersinia enterocolitica serotype O9 strains, with and without virulence plasmid, was used to study the plasmid role in the infection of BALB/c mice by oral, intraperitoneal, and intravenous routes. The plasmid-bearing strain, but not its plasmid-less derivative, caused enteric infection after challenge by all three routes. The virulence plasmid did not influence the peritoneal clearance of yersiniae, but only the plasmid-bearing yersiniae were able to move from the peritoneal cavity to the bloodstream, and thus they spread to spleen and liver. Moreover, plasmid-bearing yersiniae were able to move from the liver to the gallbladder, and they shed in bile into the intestine. Western blot analysis of antibody responses to chromosomally encoded outer membrane proteins revealed similar patterns with sera from mice challenged with each one of the two strains by intraperitoneal route. In contrast, only the plasmid-bearing strain elicited an antibody response to these antigens in mice challenged by oral route. Although mice experimentally infected with plasmid-bearing O9 yersiniae developed an enteric infection, irrespective of the inoculation route, differences between the first steps in infection by oral and parenteral routes may be important, especially when the infection model is used as an approach to study the yersinia-host interactions.

A Lactobacillus plantarum strain isolated from kefir protects against intestinal infection with Yersinia enterocolitica O9 and modulates immunity in mice.

Lactobacillus plantarum C4, previously isolated from kefir and characterized as a potential probiotic strain, was tested for its protective and immunomodulatory capacity in a murine model of yersiniosis. The inoculation of BALB/c mice with a low pathogenicity serotype O9 strain of Yersinia enterocolitica results in a prolonged intestinal infection with colonization of Peyers patches. Pretreatment with C4 was without effect on fecal excretion of yersiniae, but shortened the colonization of Peyers patches. This protective effect was associated with pro-inflammatory status in the intestinal mucosa (TNF-α production in infected mice was increased by C4) and an increase in total IgA secretion. At a systemic level, C4 did not promote a pro-inflammatory response, although production of the immunoregulatory cytokine IFN-γ was enhanced. These findings suggest that L. plantarum C4 can increase resistance to intestinal infections through its immunomodulatory activity.

In Vivo Immunomodulation by Mycoplasma fermentans Membrane Lipoprotein

The immunomodulatory effects of Mycoplasma fermentans-derived membrane lipoprotein (LAMPf) in BALB/c mice were examined. When injected intraperitoneally into mice, LAMPf induced a transitory splenomegaly followed by a suppression of the spleen cell proliferation in response to concanavalin A, whereas responses to lipopolysaccharide and to LAMPf were unchanged. The intravenous injection of a large dose of LAMPf induced leukopenia and granulocyte-macrophage colony-stimulating factor (GM-CSF) activity in serum. A synthetic analogue of its N-terminal lipopeptide with ability to activate macrophages (MALP-2) was also able to induce GM-CSF in serum. Interestingly, GM-CSF induction by a low dose of MALP-2 was not associated with significant leukopenia. These data revealed that the in vitro moduline properties of mycoplasmal lipoproteins and lipopeptides correlate with interesting in vivo immunomodulatory effects.

Intestinal infection of BALB/c mice with Yersinia enterocolitica O9 causes major modifications in phenotype and functions of spleen cells

Yersinia enterocolitica serotype O9 may cause a persistent intestinal infection with few or no symptoms in humans and in BALB/c mice. The present study demonstrated profound alterations in the immune status of BALB/c mice infected with Y. enterocolitica O9. Infected mice developed splenomegaly and phenotypic analysis of spleen cells revealed increases in CD3+ total T cells, CD4+ helper T cells, CD8+ cytotoxic T cells and CD11b+ phagocytic cells. Spleen cells from infected mice exhibited impaired responses to mitogens and suppressed the proliferation of normal splenocytes in response to mitogens. Suppression of responses to concanavalin A and heat-killed yersiniae was associated with increased production of gamma interferon and reactive nitrogen intermediates. Y. enterocolitica-infected mice resisted challenge with a lethal dose of the intracellular pathogen Listeria monocytogenes. These findings suggest that infection of mice with Y. enterocolitica O9 induces gamma-interferon-secreting cells that promote macrophage activation, mediating resistance to infection with L. monocytogenes, and macrophage production of reactive nitrogen intermediates, which results in in vitro inhibition of lymphocyte response to mitogens.

Immunomodulation by Yersinia enterocolitica: comparison of live and heat-killed bacteria

This study compared the immunomodulating properties of viable and killed Yersinia enterocolitica O9 in BALB/c mice. At 10 days after infection by the intragastric route, ex vivo assays showed a suppression of spleen cell proliferation in response to Salmonella lipopolysaccharide, concanavalin A and heat-killed yersiniae. Mice infected with Y. enterocolitica O9 for 10 days resisted the challenge with a lethal dose of Listeria monocytogenes. In contrast, intravenous administration of heat-killed yersiniae did not modify the ability of spleen cells to proliferate in response to lipopolysaccharide or concanavalin A, and proliferation in response to killed yersiniae was significantly increased. By 3 days after administration of a single dose of heat-killed yersiniae, the resistance of mice to L. monocytogenes challenge was significantly increased. Our findings show profound differences in immunomodulation by viable and heat-killed yersiniae, but suggest that killed yersiniae retain interesting immunomodulating properties.