Salmonella porins induce a sustained, lifelong specific bactericidal antibody memory response
SummaryWe examined the ability of porins from Salmonella enterica serovar typhi to induce a long-term antibody response in BALB/c mice. These porins triggered a strong lifelong production of immunoglobulin G (IgG) antibody in the absence of exogenous adjuvant. Analysis of the IgG subclasses produced during this antibody response revealed the presence of the subclasses IgG2b, IgG1, IgG2a and weak IgG3. Despite the high homology of porins, the long-lasting anti-S. typhi porin sera did not cross-react with S. typhimurium. Notably, the antiporin sera showed a sustained lifelong bactericidal-binding activity to the wild-type S. typhi strain, whereas porin-specific antibody titres measured by enzyme-linked immunosorbent assay (ELISA) decreased with time. Because our porin preparations contained the outer membrane proteins C and F (OmpC and OmpF), we evaluated the individual contribution of each porin to the long-lasting antibody response. OmpC and OmpF induced long-lasting antibody titres, measured by ELISA, which were sustained for 300 days. In contrast, although OmpC induced sustained high bactericidal antibody titres for 300 days, postimmunization, the bactericidal antibody titre induced by OmpF was not detected at day 180. These results indicate that OmpC is the main protein responsible for the antibody-mediated memory bactericidal response induced by porins. Taken together, our results show that porins are strong immunogens that confer lifelong specific bactericidal antibody responses in the absence of added adjuvant.
Heat shock protein 70 down-regulates the production of toll-like receptor-induced pro-inflammatory cytokines by a heat shock factor-1/constitutive heat shock element-binding factor-dependent mechanism
BackgroundHeat shock protein 70 (Hsp70) is an intracellular chaperone protein with regulatory and cytoprotective functions. Hsp70 can also be found in the extracellular milieu, as a result of active secretion or passive release from damaged cells. The role of extracellular Hsp70 is not fully understood. Some studies report that it activates monocytes, macrophages and dendritic cells through innate immune receptors (such as Toll-like receptors, TLRs), while others report that Hsp70 is a negative regulator of the inflammatory response. In order to address this apparent inconsistency, in this study we evaluated the response of human monocytes to a highly purified recombinant Hsp70.MethodsHuman peripheral blood monocytes were stimulated with Hsp70, alone or in combination with TLR agonists. Cytokines were quantified in culture supernatants, their mRNAs were measured by RT-PCR, and the binding of transcription factors was evaluated by electrophoretic mobility shift assay (EMSA). Kruskal-Wallis test or one-way or two-way ANOVA were used to analyze the data.ResultsThe addition of Hsp70 to TLR-activated monocytes down-regulated TNF-α as well as IL-6 levels. This effect was independent of a physical interaction between Hsp70 and TLR agonists; instead it resulted of changes at the TNF-α gene expression level. The decrease in TNF-α expression correlated with the binding of HSF-1 (heat shock transcription factor 1, a transcription factor activated in response to Hsp70) and CHBF (constitutive HSE-binding factor) to the TNF-α gene promoter.ConclusionExtracellular Hsp70 negatively regulates the production of pro-inflammatory cytokines of monocytes exposed to TLR agonists and contributes to dampen the inflammatory response.
TLR2 and TLR4 signaling shapes specific antibody responses to Salmonella typhi antigens
-B cells into B-celldeficient mice revealed a direct effect of TLR4 on B cells for the primary IgM response, whereas stimulation of B cells via TLR2 was important for IgG production. Furthermore, S. typhi porins were found to efficiently elicit maturation of CD11c 1 conventional DC.Taken together, S. typhi porins represent not only a suitable B-cell antigen for vaccination, but exhibit potent TLR-dependent stimulatory functions on B cells and DC, which help to further enhance and shape the antibody response. 126It has been proposed that TLR provide a third signal together with antigen recognition through the BCR and cognate T cell help to achieve the maximal activation of B cells and class switch recombination [10][11][12]. Likewise, during antiviral immune responses, TLR7 and TLR9 modulate the antibody response by regulating class switch recombination [13,14]. These findings provided insight into the importance of particular TLR signals on antibody responses against viral antigens. During bacterial infections, particular TLR such as TLR4 and TLR2 are triggered [15]; however, their participation in the antibody response against bacterial antigens and their mechanism of action have remained largely unexplored.Current protective vaccines against pathogens induce long-lasting neutralizing antibody responses [16]. Recent studies have shown that efficient B-cell immunity using vaccination with model antigens can only be achieved when the antigen is applied in conjunction with appropriate TLR stimulation [17]. However, this view has been challenged in a study by Nemazee and colleagues [18], who showed that antigen-induced antibody responses can be generated in the absence of TLR signaling. A major drawback in these previous studies is the use of typical model antigens such as trinitrophenolhemocyanin, keyhole limpet hemocyanin or ovalbumin, which may not behave like vaccine preparations or pathogen-derived antigens. In the current study, we have analyzed the importance of TLR signaling in the antibody responses against a Salmonella enterica serovar Typhi (S. typhi) porins' preparation. Porins are the most abundant proteins found in the outer membrane of Gram-negative bacteria; they assemble in trimers and achieve concentrations of up to 10 5 molecules per cell [19]. Porins purified from WT S. typhi (hereafter porins' preparation) consist of a mixture of two proteins: outer membrane protein C (OmpC) and F (OmpF), which assemble as homotrimers [20][21][22]. These antigens are highly immunogenic, both in mice and humans [20,23,24]. Immunization of mice with a preparation of S. typhi porins elicits a lifelong antibody response and protection against S. typhi challenge [22]. Furthermore, it has been shown that sera of patients in the acute and convalescent phases of typhoid fever contain IgM and IgG antibodies that mainly recognize porins [25,26] (Fig. 1C). Likewise, in TRIF À/À mice, IgG2a/c, IgG2b and IgG3 subclasses were reduced; however, IgG3 titers were only mildly affected (Fig. 1C). These results indicate that TLR ...
Translating innate response into long‐lasting antibody response by the intrinsic antigen‐adjuvant properties of papaya mosaic virus
SummaryIdentifying the properties of a molecule involved in the efficient activation of the innate and adaptive immune responses that lead to long-lasting immunity is crucial for vaccine and adjuvant development. Here we show that the papaya mosaic virus (PapMV) is recognized by the immune system as a pathogen-associated molecular pattern (PAMP) and as an antigen in mice (Pamptigen). A single immunization of PapMV without added adjuvant efficiently induced both cellular and specific long-lasting antibody responses. PapMV also efficiently activated innate immune responses, as shown by the induction of lipid raft aggregation, secretion of pro-inflammatory cytokines, up-regulation of co-stimulatory molecules on dendritic cells and macrophages, and long-lasting adjuvant effects upon the specific antibody responses to model antigens. PapMV mixed with Salmonella enterica serovar Typhi (S. typhi) outer membrane protein C increased its protective capacity against challenge with S. typhi, revealing the intrinsic adjuvant properties of PapMV in the induction of immunity. Antigen-presenting cells loaded with PapMV efficiently induced antibody responses in vivo, which may link the innate and adaptive responses observed. PapMV recognition as a Pamptigen might be translated into long-lasting antibody responses and protection observed. These properties could be used in the development of new vaccine platforms.
S almonella T yphi O mpS 1 and O mpS 2 porins are potent protective immunogens with adjuvant properties
Summary Salmonella enterica serovar Typhi (S. Typhi) is the causal agent of typhoid fever, a disease that primarily affects developing countries. Various antigens from this bacterium have been reported to be targets of the immune response. Recently, the S. Typhi genome has been shown to encode two porins – OmpS1 and OmpS2 – which are expressed at low levels under in vitro culture conditions. In this study, we demonstrate that immunizing mice with either OmpS1 or OmpS2 induced production of specific, long‐term antibody titres and conferred protection against S. Typhi challenge; in particular, OmpS1 was more immunogenic and conferred greater protective effects than OmpS2. We also found that OmpS1 is a Toll‐like receptor 4 (TLR4) agonist, whereas OmpS2 is a TLR2 and TLR4 agonist. Both porins induced the production of tumour necrosis factor and interleukin‐6, and OmpS2 was also able to induce interleukin‐10 production. Furthermore, OmpS1 induced the over‐expression of MHC II molecules in dendritic cells and OmpS2 induced the over‐expression of CD40 molecules in macrophages and dendritic cells. Co‐immunization of OmpS1 or OmpS2 with ovalbumin (OVA) increased anti‐OVA antibody titres, the duration and isotype diversity of the OVA‐specific antibody response, and the proliferation of T lymphocytes. These porins also had adjuvant effects on the antibody response when co‐immunized with either the Vi capsular antigen from S. Typhi or inactivated 2009 pandemic influenza A(H1N1) virus [A(H1N1)pdm09]. Taken together, the data indicate that OmpS1 and OmpS2, despite being expressed at low levels under in vitro culture conditions, are potent protective immunogens with intrinsic adjuvant properties.
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