Manuela Puliti

In vitro production of tumor necrosis factor by murine splenic macrophages stimulated with mannoprotein constituents of Candida albicans cell wall.

Mannoprotein components from Candida albicans were investigated for their ability to induce production of tumor necrosis factor (TNF) by cultured splenocytes from naive or Candida-infected mice. Two chromatographically separated mannoproteins preparations, designated F1 and F2, were as able as the heat-inactivated Candida cells to induce the production of TNF from splenocytes of naive animals. In addition, they caused a significant augmentation of basic TNF secretion by splenocytes of Candida-infected animals. Experiments using plastic and/or nylon wool adherence, as well as treatments with antibodies depleting T or NK cells, consistently indicated that most if not all TNF was produced by splenic macrophages. In cultures of splenocytes from Candida-infected mice, mannoprotein addition also stimulated interferon-gamma (IFN-gamma) production by Thy 1.2 positive cells. Depletion of these cells or addition of anti-IFN-gamma antibodies abolished IFN production and reduced TNF secretion by adherent cells to the levels found in the cultures of mannoprotein-stimulated spleen cells from naive mice. These data add further evidence to the immunomodulatory properties possessed by some cell wall constituents of the human commensal microorganism C. albicans and suggest that IFN-gamma is endowed with a regulatory role in TNF production by mouse macrophages in vitro.

Role of nitric oxide and melanogenesis in the accomplishment of anticryptococcal activity by the BV-2 microglial cell line

In the present paper, we investigated the involvement of cryptococcal melanogenesis and macrophage nitric oxide (NO) production in the accomplishment of anticryptococcal activity by microglial effector cells, using the murine cell line BV-2. We demonstrate that the constitutive levels of anticryptococcal activity exerted by BV-2 cells is significantly enhanced upon interferon gamma plus lipopolysaccharide treatment. The phenomenon, which occurs with no enhancement of phagocytic activity, is associated with the production of high levels of NO and is abolished by addition of NG-monomethyl-L-arginine. Comparable patterns of results are observed employing either unopsonized or opsonized microbial targets, the latter microorganisms being markedly more susceptible to BV-2 cell antimicrobial activity. Furthermore, melanization of Cryptococcus neoformans significantly reduces its susceptibility to BV-2 antimicrobial activity, regardless of the fact that activated macrophages or opsonized microorganisms have been employed. In conclusion, our results provide evidence that NO-dependent events are involved in the fulfillment of anticryptococcal activity by activated microglial cells and that fungal melanization is a precious escamotage through which C. neoformans overcomes host defenses.

Variation in the Group B Streptococcus CsrRS Regulon and Effects on Pathogenicity

CsrRS (or CovRS) is a two-component regulatory system that controls expression of multiple virulence factors in the important human pathogen group B Streptococcus (GBS). We now report global gene expression studies in GBS strains 2603V/R and 515 and their isogenic csrR and csrS mutants. Together with data reported previously for strain NEM316, the results reveal a conserved 39-gene CsrRS regulon. In vitro phosphorylation-dependent binding of recombinant CsrR to promoter regions of both positively and negatively regulated genes suggests that direct binding of CsrR can mediate activation as well as repression of target gene expression. Distinct patterns of gene regulation in csrR versus csrS mutants in strain 2603V/R compared to 515 were associated with different hierarchies of relative virulence of wild-type, csrR, and csrS mutants in murine models of systemic infection and septic arthritis. We conclude that CsrRS regulates a core group of genes including important virulence factors in diverse strains of GBS but also displays marked variability in the repertoire of regulated genes and in the relative effects of CsrS signaling on CsrR-mediated gene regulation. Such variation is likely to play an important role in strain-specific adaptation of GBS to particular host environments and pathogenic potential in susceptible hosts.

Severity of Group B Streptococcal Arthritis Is Correlated with β-Hemolysin Expression

Septic arthritis is a clinical manifestation of group B streptococcal (GBS) infection in neonates and adults. To examine the potential role of GBS beta-hemolysin in joint injury, mice were infected with 2 wild-type strains or with nonhemolytic (NH) or hyperhemolytic (HH) variants derived by transposon mutagenesis. Compared with mice infected with the parent strains, mice infected with the NH mutants had decreased mortality and bacterial proliferation. A reduced LD(50) and a higher microbial load were obtained in mice infected with the HH mutants. Greater degrees of joint inflammation and damage were observed in the HH mutant-infected animals than in those infected with the parental strains. NH mutant-infected mice manifested only a mild and transient arthritis. Systemic and local levels of interleukin-6 mirrored the observed differences in virulence and severity of arthritis. These data support a direct correlation of GBS beta-hemolysin expression with mortality and severity of articular lesions.

Regulatory role of interleukin-10 in experimental group B streptococcal arthritis

ABSTRACT Intravenous inoculation of CD-1 mice with 107 CFU of type IV group B Streptococcus (GBS) results in a high incidence of diffuse septic arthritis , associated with high levels of systemic and local production of interleukin-1β (IL-1β) and IL-6. In this study, the role of the anti-inflammatory cytokine IL-10 in the evolution of GBS systemic infection and arthritis was evaluated. IL-10 production was evident in sera and joints of GBS-infected mice. Neutralization of endogenous IL-10 by administration of anti-IL-10 antibodies (1 mg/mouse) at the time of infection resulted in worsening of articular lesions and 60% mortality associated with early sustained production of IL-6, IL-1β, and tumor necrosis factor alpha (TNF-α). The effect of IL-10 supplementation was assessed by administering IL-10 (100, 200, or 400 ng/mouse) once a day for 5 days, starting 1 h after infection. Treatment with IL-10 had a beneficial effect on GBS arthritis, and there was a clear-cut dose dependence. The decrease in pathology was associated with a significant reduction in IL-6, IL-1β, and TNF-α production. Histological findings showed limited periarticular inflammation and a few-cell influx in the articular cavity of IL-10-treated mice, confirming clinical observations. In conclusion, this study provides further information concerning the role of IL-10 in regulating the immune response and inflammation and calls attention to the potential therapeutic use of IL-10 in GBS arthritis.

Role of macrophages in experimental group B streptococcal arthritis

Septic arthritis is a clinical manifestation of group B Streptococcus (GBS) infection in both neonates and adults. Because macrophages are known to participate in tissue injury, the role of this cell population in GBS‐induced arthritis was investigated. Mice were rendered monocytopenic by administration of etoposide, a drug that selectively depletes the monocyte/macrophage population and then injected with GBS (1 × 107 colony‐forming units per mouse). Appearance of arthritis, mortality, GBS growth in the organs, and local and systemic cytokine production were examined. Etoposide‐treated mice had a significantly less severe arthritis than control animals. Histopathological analysis of the joints confirmed clinical observations. Decreased joint levels of the proinflammatory cytokines interleukin 1 (IL‐1) beta and IL‐6 accompanied the less severe development of arthritis in monocytopenic mice. In contrast, mortality was increased in the etoposide‐treated mice compared with controls. Monocytopenic mice exhibited elevated bacterial load in the blood and kidneys at all time points exam‐ined. These results indicate that lack of macrophages leads to less severe joint lesions, but also results in impaired clearance of bacteria, and consequent enhancement of mortality rates.

Toll-Like Receptor 2 Deficiency Is Associated with Enhanced Severity of Group B Streptococcal Disease

ABSTRACT Group B streptococcus (GBS) has been recognized as an ever-growing cause of serious invasive infections in nonpregnant adults, in particular, in association with severe underlying diseases. The most common manifestations include primary bacteremia, urinary tract infections, pneumonia, meningitis, peritonitis, and osteoarticular infections. Toll-like receptor-2 (TLR2) mediates host responses to gram-positive bacteria. TLR2 function was investigated in murine GBS-induced sepsis and arthritis in wild-type (wt) and TLR2-deficient (TLR2−/−) mice. Mice were infected with different doses of GBS (107, 5 × 106, or 106 CFU per mouse). Mortality, appearance of arthritis, GBS growth in the organs, and local and systemic cytokine and chemokine production were examined. TLR2−/− mice showed earlier and higher mortality rates and increased incidence and severity of arthritis than wt mice at all the infecting doses employed. Histopathological analysis of the joints confirmed clinical observations. TLR2−/− mice exhibited a higher microbial load in blood, kidneys, and joints than wt animals. In vitro experiments performed with peritoneal polymorphonuclear cells and macrophages showed a significantly lower bactericidal ability of cells from TLR2−/− mice. Increased systemic and local levels of interleukin-1β (IL-1β), IL-6, tumor necrosis factor alpha, macrophage inflammatory protein-1α (MIP-1α), and MIP-2 accompanied the more severe development of sepsis and arthritis in TLR2−/− mice. In conclusion, the lack of TLR2 was associated with an impaired host resistance to GBS infection, likely due to a diminished bacterial clearing and a consequent enhanced inflammatory response.

Glucuronoxylomannan, the major capsular polysaccharide of Cryptococcus neoformans, inhibits the progression of group B streptococcal arthritis.

ABSTRACT Glucuronoxylomannan (GXM), the principal constituent of the Cryptococcus neoformans capsule, modulates the inflammatory response of human monocytes in vitro. Here we examine the efficacy of GXM as a novel anti-inflammatory compound for use against experimental septic arthritis. Arthritis was induced in mice by the intravenous injection of 8 × 106 CFU of type IV group B streptococcus (GBS). GXM was administered intravenously in different doses (50, 100, or 200 μg/mouse) 1 day before and 1 day after bacterial inoculation. GXM treatment markedly decreased the incidence and severity of articular lesions. Histological findings showed limited periarticular inflammation in the joints of GXM-treated mice, confirming the clinical observations. The amelioration of arthritis was associated with a significant reduction in the local production of interleukin-6 (IL-6), IL-1β, macrophage inflammatory protein 1α (MIP-1α), and MIP-2 and an increase in systemic IL-10 levels. Moreover, peritoneal macrophages derived from GXM-treated mice and stimulated in vitro with heat-inactivated GBS showed a similar pattern of cytokine production. The present study provides evidence for the modulation of the inflammatory response by GXM in vivo and suggests a potential therapeutic use for this compound in pathologies involving inflammatory processes.

Influence of interferon-γ administration on the severity of experimental group B streptococcal arthritis

OBJECTIVE To assess the effect of interferon-gamma (IFNgamma) administration on the evolution of systemic infection and septic arthritis induced by group B streptococci (GBS) in mice. METHODS CD1 mice were inoculated intravenously with arthritogenic strain 1/82 of type IV GBS. Exogenous murine IFNgamma or anti-IFNgamma monoclonal antibodies were administered intravenously either 2 hours (-2 hours) before or 18 hours after infection with 1 x 10(7) GBS. Mice were monitored daily for survival and for signs of arthritis. In a subsequent set of experiments, mice were killed at selected times for examination of bacterial clearance, joint histopathology, and cytokine production. RESULTS Mortality in mice treated with IFNgamma at -2 hours was 100%, compared with 20% in those treated at 18 hours and with 40% in controls. As indicated by the arthritis score, mice treated with IFNgamma at -2 hours developed early and more severe arthritis, whereas those treated at 18 hours had milder arthritis compared with infected controls. Less severe joint pathology in the mice treated with IFNgamma at 18 hours correlated with low levels of interleukin-6 (IL-6) and IL-1beta and a low bacterial load in the joints, whereas rapid onset and worsening of articular lesions in those treated at -2 hours corresponded to early and sustained levels of IL-6. CONCLUSION The findings of this study demonstrate that the effects mediated by IFNgamma on GBS-induced arthritis may be detrimental or beneficial, depending on the time of administration of IFNgamma in relation to infection with the antigen.

A low virulent strain of Candida albicans enhances brain anticryptococcal defenses: characterization of the local immune reaction by RT-PCR and histochemical analysis

Here we studied the involvement of PCA-2, a low-virulent strain of Candida albicans known to act as a potent stimulating agent in the development of cryptococcal meningoencephalitis. To this purpose, mice received saline or PCA-2 intracerebrally 7 days before lethal local challenge with Cryptococcus neoformans. We found that, following C. neoformans challenge, PCA-2-treated but not saline-treated mice exhibited (a) delayed brain colonization, (b) enhanced median survival times, (c) massive local immune reaction consisting of abundant astrocytes, microglial and inflammatory cells, and (d) a peculiar trend of cytokine gene expression, including high steady-state levels of interleukin (IL)-1 beta and tumor necrosis factor alpha transcripts, fluctuating levels of interferon gamma and inducible nitric oxide synthase mRNA and lately detectable IL-6 gene expression. PCA-2-mediated immunostimulating properties were partially impaired by aminoguanidine or pentoxifylline treatment, further strengthening the conclusion that soluble mediators, including proinflammatory cytokines and nitric oxide, are important defense elements against cryptococcal meningoencephalitis.