Comparative mutagenicity and genotoxicity of particles and aerosols emitted by the combustion of standard vs. rapeseed methyl ester supplemented bio-diesel fuels: impact of after treatment devices: oxidation catalyst and particulate filter.

Diesel exhausts are partly responsible for the deleterious effects on human health associated with urban pollution, including cardiovascular diseases, asthma, COPD, and possibly lung cancer. Particulate fraction has been incriminated and thus largely investigated for its genotoxic properties, based on exposure conditions that are, however, not relevant for human risk assessment. In this paper, original and more realistic protocols were used to investigate the hazards induced by exhausts emitted by the combustion of standard (DF0) vs. bio-diesel fuels (DF7 and DF30) and to assess the impact of exhaust treatment devices (DOC and DPF). Mutagenicity and genotoxicity were evaluated for (1) resuspended particles ("off line" exposure that takes into account the bioavailability of adsorbed chemicals) and for (2) the whole aerosols (particles+gas phase components) under continuous flow exposure ("on line" exposure). Native particles displayed mutagenic properties associated with nitroaromatic profiles (YG1041), whereas PAHs did not seem to be involved. After DOC treatment, the mutagenicity of particles was fully abolished. In contrast, the level of particle deposition was low under continuous flow exposure, and the observed mutagenicity in TA98 and TA102 was thus attributable to the gas phase. A bactericidal effect was also observed in TA102 after DOC treatment, and a weak but significant mutagenicity persisted after DPF treatment for bio-diesel fuels. No formation of bulky DNA-adducts was observed on A549 cells exposed to diesel exhaust, even in very drastic conditions (organic extracts corresponding to 500 µg equivalent particule/mL, 48 h exposure). Taken together, these data indicate that the exhausts issued from the bio-diesel fuels supplemented with rapseed methyl ester (RME), and generated by current diesel engines equipped with after treatment devices are less mutagenic than older ones. The residual mutagenicity is linked to the gas phase and could be due to pro-oxydants, mainly for RME-supplemented fuels.

Subsarcolemmal and interfibrillar mitochondria display distinct superoxide production profiles.

Cardiac subsarcolemmal mitochondria (SSM) and interfibrillar mitochondria (IFM) subpopulations display distinct biochemical, morphological, and functional characteristics. Moreover, they appear to be differently influenced during cardiac pathologies or toxic injuries. Although mitochondrial reactive oxygen species seem to play a critical role in cardiac function and diseases, limited information exists about the superoxide production characteristics of these mitochondrial subpopulations. In this work, using direct measurement of superoxide by electron paramagnetic resonance, we showed that differences in superoxide production profiles were present between cardiac IFM and SSM, in terms of intensity and major sites of superoxide generation. In SSM incubated with glutamate plus malate as substrates, the total observed superoxide levels were significantly higher than those observed with IFM, with an important contribution of the NADH-oxidizing site of complex I (site If) and the quinol-oxidizing site of complex III (site IIIQ0). In both IFM and SSM, succinate leads to similar rates of total superoxide levels with a substantial role for contribution of reverse electron transfer. Finally, using two spin probes with different membrane permeabilities, our data on complex III showed direct intra- and extra-mitochondrial superoxide release whereas complex I- and II-dependent superoxide were exclusively released inside the mitochondria, confirming previous studies. Feasibility of this approach to measure intra- and extra-mitochondrial superoxide levels and to characterize distinct superoxide production profiles of cardiac IFM and SSM has been demonstrated.

Methylated CpG-containing plasmid activates the immune system.

Bacterial DNA differs from mammalian DNA by the presence of unmethylated cytosine-phosphate-guanosine (CpG) motifs. The immunostimulatory properties of a DNA vaccine have been suspected to be associated with these motifs. The aim of this study was to assess the inactivation of the immunostimulatory potential of a plasmid after methylation of its CpG motifs. We constructed two identical non-coding plasmids, and one of these was de novo methylated on its CG sequences. A single administration of recombinant antigen with methylated or unmethylated CpG-containing plasmid was performed in mice. As expected, only unmethylated CpG-containing plasmid enhanced the specific immune response. However, a study of in vivo activation of Langerhans' cells and analysis of mRNA synthesis indicated that both the plasmids promoted cell emigration and cytokine induction. These data highlight that a methylated CpG-containing plasmid is not inert and carries immunomodulatory properties. The results further emphasize the necessity to definitively identify the mode of action of plasmids used for DNA vaccination.

Adjuvant activity of free Bordetella pertussis filamentous haemagglutinin delivered by mucosal routes.

The development of safe and potent mucosal adjuvants remains a major objective in vaccinology. The potential usefulness of filamentous haemagglutinin (FHA) of Bordetella pertussis as an adjuvant was assessed in a mouse model. The glutathione-S-transferase of Schistosoma mansoni (Sm28GST) was used for intranasal administration, while the gut-resistant keyhole limpet haemocyanin (KLH) was administrated by the oral route. For both antigens, coadministration with FHA increased antigen-specific immunoglobulin titres. This adjuvant effect did not require chemical cross-linking or direct interaction between FHA and the antigen tested. FHA also behaved as an adjuvant by the subcutaneous route, indicating that its adjuvanticity is not restricted to binding to mucosal surfaces. The FHA-induced adjuvanticity was also observed in mice with high anti-FHA antibody titres as a result of antipertussis vaccination, indicating that pre-existing anti-FHA antibodies do not impair FHA adjuvanticity. No mRNA coding for proinflammatory cytokines was induced in the lungs after intranasal FHA administration. However, an increase in the levels of mRNAs coding for B7-1, transforming growth factor (TGF)-beta and major histocompatibility complex (MHC)-II was detected in the lungs after FHA administration. Although the molecular mechanisms of the FHA-induced adjuvanticity remain to be elucidated, the data presented here indicate that this adhesin, already assessed for human use as a pertussis vaccine constituent, represents a promising adjuvant to improve the humoral immune response when given by mucosal routes.

CpG motifs induce Langerhans cell migration in vivo.

Cytosine-guanosine (CpG) oligonucleotide (CpG-oligo) sequences are immunostimulatory motifs that are present in bacterial DNA and their presence in plasmids might contribute to the immune response generated by DNA vaccination. The cell targets of CpG motifs in vivo have not been characterized yet. In this report we assessed the in vivo effects of CpG motifs on Langerhans cells (LC) migration. We showed that intradermal injection of 10 microg of CpG-containing oligonucleotides in mouse ear induced the local depletion of LC within 2 h of exposure as shown by CD11c and Ia immunohistological staining. To demonstrate that LC depletion was due to LC migration, CpG oligonucleotides were injected into the explants ex vivo, and the CD11c(+) cells emigrating from the cultured isolated skin within medium were evaluated by immunostaining and FACS analysis. Our findings demonstrate that CpG motifs induce LC/dendritic cell (DC) migration out of the skin. To assess whether CpG motifs may act directly on LC/DC to induce their emigration we next analyzed the effects of CpG motifs in vitro on the expression of adhesion molecules involved in LC/DC migration. The results of these experiments show that alpha(6) integrins, E-Cadherin, ICAM-1, CD11b and CD11c were differentially regulated upon CpG-oligo treatment of immortalized DC. CpG treatment (10 microg/ml for 8 h) resulted in a 100% increase in ICAM-1 staining intensity, a 50% decrease in E-Cadherin staining and a 25% decrease in alpha(6) integrins staining, while no changes in the levels of CD11b and CD11c expression were recorded. Changes in adhesion molecule expression were mirrored by concomitant changes in the cell morphology that included cell depolarization, the appearance of filopods and loss of adherence. This study provides the first in vivo evidence that CpG motifs signal the migration of LC from the epidermis.

The house dust mite allergen, Dermatophagoides pteronyssinus, promotes type 2 responses by modulating the balance between IL-4 and IFN-gamma.

A common property of allergens is their potential to generate type 2 cytokine responses. To understand the mechanisms involved in this phenomenon, we have evaluated the polarizing potential of a major allergen, Dermatophagoides pteronyssinus 1 (Der p 1), in an heterologous immunization system using the glutathione S-transferase of the parasite Schistosoma mansoni (Sm28-GST) as immunogen. In previous studies, we showed that immunization with the Sm28-GST emulsified in CFA induced a nonpolarized immune response. In contrast, when alum was used as adjuvant, a type 2 immune response was induced against Sm28-GST. Using this experimental model, we examined whether the administration of Der p 1 together with Sm28-GST influenced the nonpolarized and/or the Th2 profiles induced by the CFA or the alum immunization, respectively. Our results showed that the introduction of Der p 1 in the CFA immunization protocol was associated with diminished anti-Sm28-GST IgG2a Ab titers, reduced IFN-gamma mRNA expression, and frequency of IFN-gamma-producing cells. In contrast, the introduction of Der p 1 in the alum protocol did not affect IL-4 or Ig isotype responses. The effect of Der p 1 was specific, since coimmunization with tetanus toxin fragment C did not affect the profile of the response against Sm28-GST. Furthermore, inactivation of Der p 1 reduced its ability to modify the immune response profile, suggesting that its protease activity played an important role in deviating the immune response. Our results suggest that the Der p 1 has the ability to modify the profile of an immune response by modulating the balance between the polarizing cytokines IL-4 and IFN-gamma.

Infection with Salmonella typhimurium modulates the immune response to Schistosoma mansoni glutathione-S-transferase.

Immune response polarization is controlled by several factors, including cytokines, antigen-presenting cells, antigen dose, and others. We have previously shown that adjuvants and live vectors play a critical role in polarization. Thus, immunization with the Schistosoma mansoni 28-kDa glutathione-S-transferase (Sm28-GST) in aluminum hydroxide induced a type 2 cytokine profile and the production of immunoglobulin G1 (IgG1)- and IgE-specific antibodies. In contrast, mice infected with recombinant Salmonella typhimurium expressing Sm28-GST developed a type 1 cytokine profile and produced IgG2a-specific antibodies against Sm28-GST and Salmonella antigens. In this study, to determine if S. typhimurium not expressing Sm28-GST would still influence the type of the response against this antigen, we compared the profiles of the immune responses generated against Sm28-GST administered in alum in mice infected and not infected with S. typhimurium. Infected mice generated both IgG1 and IgG2a antibodies against Sm28-GST, while noninfected mice produced only IgG1 anti-Sm28-GST antibodies. Moreover, interleukin-4 (IL-4) mRNA expression in infected mice was near background levels, while gamma interferon (IFN-gamma) mRNA expression in coinfected mice was significantly higher than in mice immunized with Sm28-GST in alum only. However, after antigen-specific stimulation in vitro with Sm28-GST, levels of IL-4 and IFN-gamma cytokine production were similar in the two groups of mice. These results suggest that (i) the immune milieu produced during an infection may modify the response against an irrelevant antigen and (ii) isotype switching may be influenced by the cytokine environment of a bystander immune response, even though the specific antigen-driven cytokine production is not modified. Thus, the isotypic profile is not always an absolute reflection of the cytokines produced by antigen-specific Th cells.

T-cell responsiveness towards various synthetic peptides of the P28 antigen in rat and mouse models during Schistosoma mansoni infection.

It has recently been demonstrated that the Schistosoma mansoni P28 antigen can induce a strong protective immunity after direct immunization in various experimental models. T lymphocytes from Fischer rats immunized with the recombinant P28 antigen were cultured in vitro in the presence of seven synthetic peptides derived from the amino acid sequence of the P28. The most significant and reproducible proliferation was obtained with the 24-43 and 115-131 synthetic peptides. In order to analyze whether these located determinants were also exposed to the host's immune system during the natural S. mansoni infection or after immunization with crude antigenic extracts of various development stages of the parasite, the T-cell responsiveness of infected or immunized Fischer rats and BALB/c mice was tested towards these synthetic peptides. The results showed that, in both permissive (mouse) and non-permissive (rat) hosts, 24-43 and 115-131 synthetic peptides are recognized during the course of infection and that there is a dynamic variation of this recognition. These peptides are also recognized by T cells educated against crude antigenic extracts of different developmental stages of the parasite which contained the native form of the P28 molecule. Taken together, the results indicated that these synthetic peptides derived from the recombinant P28 antigen can activate T lymphocytes educated against the native P28 molecule during the development and maturation of the parasite in their hosts. Therefore, they might be useful for the construction of synthetic vaccines against schistosomiasis.

Protective immunity in mice vaccinated with the Schistosoma mansoni P-28-1 antigen.

The P28-1 Ag induces a strong protective immunity toward Schistosoma mansoni infection in various experimental models. T lymphocytes of mice immunized with the recombinant P28-1 Ag were stimulated in vitro by schistosome Ag of different development stages and by three P28-1 Ag-derived synthetic peptides. The most significant stimulation was achieved with the 24-43 peptide. The use of two fragments of this peptide showed that the P28-1 T lymphocyte specificity concerned essentially the NH2 terminal sequence of the 24-43 peptide. Moreover, T lymphocytes specific for the 24-43 peptide were stimulated by both schistosome Ag and the recombinant P28-1 protein. The passive transfer of (Th + Ts) lymphocytes recovered from P28-1 Ag-immunized mice increased the IgG response to P28-1 and its peptides during infection but did not protect against a challenge infection, such as the passive transfer of anti-P28-1 sera. In contrast, P28-1 specific Th cell lines maintained in culture for 2 mo, passively transferred a strong protection (50%) to infected mice. Supernatants of P28-1-specific T cells obtained after stimulation with the corresponding Ag, were able to confer cytotoxic properties to platelets and macrophages. The presence of IFN-gamma for the cytotoxicity mediated by platelets and macrophage activating factor for the cytotoxicity mediated by macrophages in these supernatants is in a large part responsible for the parasite killing observed. Finally, a preliminary immunogenetic approach with H-2 congenic mice on BALB background showed that the P28-1 Ag T cell response was under the control of the MHC and that the H-2b haplotype determined a low response to P28-1 Ag and its peptides while H-2d and k haplotypes determined high responders.

Role of serine proteases of Schistosoma mansoni in the regulation of IgE synthesis.

The regulation of the IgE response by schistosomula-released products (SRP) was studied either in vitro with rat and human cell cultures or in vivo by injection into rats of SRP with an unrelated allergen at primary or secondary immunization. The results obtained in vitro showed that non-dialysable factors present in SRP potentiate the IgE synthesis by rat and human cells. This enhancing effect was supported by molecules with serine protease activities. On the other hand, the inhibition or depletion of SRP in serine proteases induced a weak synthesis of IgM by rat cells in vitro. The injection of SRP into rats on day 0 with an unrelated allergen led to a potentiation of total IgE production, but an inhibition of specific IgE response. In contrast, a marked elevation of specific IgE response was obtained when SRP was injected upon secondary immunization. Serine proteases of SRP were partly responsible for this potentiative effect.