Secretion of parasite-specific immunoglobulin G by purified blood B lymphocytes from immune individuals after in vitro stimulation with recombinant Plasmodium falciparum merozoite surface protein-119 antigen

Differential Downstream Effects of Cd40 Ligation Mediated by Membrane or Soluble CD40L and Agonistic Ab: A Study on Purified Human B Cells

With the addition of various cytokines, the CD40-CD40 ligand (CD40L) system can act as a T-helper cell surrogate to permit B lymphocytes to produce large amounts of polyclonal Ig. In the present study, we tested six CD40-CD40L stimulation models: (i, ii) soluble agonistic 89 and G28.5 mAbs; (iii, iv) ‘89’ and ‘G28.5’ bound via their Fc fragments on CDw32-transfected mouse fibroblasts; (v) purified, soluble, trimeric human CD40L molecules (sCD40L); and (vi) human CD40L expressed by a CD40L-transfected mouse fibroblastic cell line (LCD40L). Target B cells consisted of purified blood and tonsillar CD19+ lymphocytes cultured in the presence of CD40 stimuli and IL-2 and IL-10, added at the onset of each B cell culture. A) There was differential expression of CD69, CD80 and CD86 exposure to sCD40L and LCD40L was ensued by the strongest % MFI changes over control. B) In blood B cells, mAbs and sCD40L induced IgA, IgM and IgG production almost equally well; LCD40L proved less efficient. In contrast, in tonsil B cells, LCD40L induced significantly more IgA, IgG 1, IgG3and IgM production than other signals. Using certain CD40/CD40L stimuli to model in vitro Ig production, a system used regularly in many laboratories, may affect the interpretation based on the cell type and on the CD40/CD40L system used.

Short-lived IFN-γ effector responses, but long-lived IL-10 memory responses, to malaria in an area of low malaria endemicity

Immunity to malaria is widely believed to wane in the absence of reinfection, but direct evidence for the presence or absence of durable immunological memory to malaria is limited. Here, we analysed malaria-specific CD4+ T cell responses of individuals living in an area of low malaria transmission in northern Thailand, who had had a documented clinical attack of P. falciparum and/or P. vivax in the past 6 years. CD4+ T cell effector memory (CD45RO+) IFN-γ (24 hours ex vivo restimulation) and cultured IL-10 (6 day secretion into culture supernatant) responses to malaria schizont antigens were detected only in malaria-exposed subjects and were more prominent in subjects with long-lived antibodies or memory B cells specific to malaria antigens. The number of IFN-γ-producing effector memory T cells declined significantly over the 12 months of the study, and with time since last documented malaria infection, with an estimated half life of the response of 3.3 (95% CI 1.9-10.3) years. In sharp contrast, IL-10 responses were sustained for many years after last known malaria infection with no significant decline over at least 6 years. The observations have clear implications for understanding the immunoepidemiology of naturally acquired malaria infections and for malaria vaccine development.

Identification and characterization of myeloma-associated antigens in Trichinella spiralis

To investigate the presence of myeloma-associated antigens in Trichinella spiralis and their anti-tumor effect, cross-immune responses between antigens of the myeloma cell SP2/0 versus positive sera to T. spiralis, and antigens of T. spiralis versus positive sera to myeloma cell SP2/0 were determined using T. spiralis and myeloma specific enzyme-linked immunosorbent assays (ELISA). The myeloma-associated antigens in T. spiralis were separated by ultrafiltration and 2-D electrophoresis, and the amino acid sequences and molecular weights were determined by spectrometry. An obvious reaction was found between a 33 kDa antigen and positive sera, and the major component of the antigen was tropomyosin (TM), which is an surface acidic protein with 284 amino acids. Mice were immunized with TM to determine the anti-tumor effect in vivo. The results showed that CD4(+), CD8(+) T lymphocyte, and CD19(+) B lymphocyte were significantly increased (P<0.05). The anti-tumor effects were significantly different between mice immunized with the antigens or adjuvant alone (P<0.05), while the difference between mice immunized with antigens and whole T. spiralis was not significant (P>0.05). The results indicated that TM identified in this study may play a role in eliciting cross-protective immunity.

Schistosomiasis coinfection in children influences acquired immune response against Plasmodium falciparum malaria antigens

Background

Malaria and schistosomiasis coinfection frequently occurs in tropical countries. This study evaluates the influence of Schistosoma haematobium infection on specific antibody responses and cytokine production to recombinant merozoite surface protein-1-19 (MSP1-₁₉) and schizont extract of Plasmodium falciparum in malaria-infected children.

Methodology

Specific IgG1 to MSP1-₁₉, as well as IgG1 and IgG3 to schizont extract were significantly increased in coinfected children compared to P. falciparum mono-infected children. Stimulation with MSP1-₁₉ lead to a specific production of both interleukin-10 (IL-10) and interferon-γ (IFN-γ), whereas the stimulation with schizont extract produced an IL-10 response only in the coinfected group.

Conclusions

Our study suggests that schistosomiasis coinfection favours anti-malarial protective antibody responses, which could be associated with the regulation of IL-10 and IFN-γ production and seems to be antigen-dependent. This study demonstrates the importance of infectious status of the population in the evaluation of acquired immunity against malaria and highlights the consequences of a multiple infection environment during clinical trials of anti-malaria vaccine candidates.

[Platelets cytokines and their effects on platelet transfusion]

Platelets have long been confined to haemostasis only. However, novel functions for platelets have been identified recently. Those non-nucleated cells indeed participate to inflammation and also they produce and release numerous factors with known immunomodulatory functions. Among those factors are cytokines and chemokines and the like, such as soluble CD40-Ligand (CD154), which are key molecules in that they bridge innate and adaptative immunity; sCD40L is active on T cells, B cells, monocytes and macrophages, dendritic cells and endothelial cells lining the blood vessels. This means that when a platelet concentrate is transfused to a recipient, a huge amount of cytokines and chemokines is also infused. In this state of the art review, we will present arguments on the role of platelet secretory products in modulating cellular parameters of immunity, and--very likely--in altering functions of those immune cells upon encounters while infusing platelets in blood recipients. We aimed at summarizing data that have been made available on the issue of cytokines/chemokines released by stored platelets prior to delivery. We will focus on the suspected role of the CD40/CD40L tandem in postplatelet transfusion reactions or incidents. We will present recent data on the role of pathogen inactivators on the docking and/or release of cytokines/chemokines by platelets.

Isotype profiles of anti-gp160 antibodies from HIV-infected patients in plasma and culture supernatants

We studied isotype profiles of anti-HIV antibodies (Ab) in HIV-1-infected African patients with high viral loads and major B cell dysfunction. We focussed on IgG1, IgG3, and IgA as these classes and subclasses tend to support neutralizing functions against HIV. Total IgG1, IgG3 and IgA were detected in the plasma of both HIV-1-infected and HIV-negative African individuals, but there was significantly more IgG3, a rare subclass, in HIV-1-infected patients (P < 0.05). Anti-HIV-gp160 specific antibodies were detected in sera from nearly all HIV-1-infected individuals tested, but not in HIV- individuals: 10/10, 9/10 and 8/10 individuals displayed specific IgG1, IgG3 and IgA, respectively. In the corresponding PBMC cultures carried out in the presence of IL-10 and IL-2, there was specific IgG1 and IgA in 5/10, and 3/10, respectively, but no IgG3 was detected. When HAART-treated European HIV-infected PBMC cultures were tested using the same protocol, specific IgG3 was detected in 4/10 cultures, and was unaffected by the addition of soluble CD40L molecules. The present study thus shows that, despite lymph node disorganization in HIV-infected drug-naïve Africans, these individuals retain the ability to produce HIV-specific IgG1, IgG3 and IgA. However, the specific mechanisms controlling the selective production of IgG3, probably the most potent subclass and a potential target of immuno-intervention, warrants further investigation.

Identification of a polyclonal B-cell activator in Plasmodium falciparum

Polyclonal B-cell activation and hypergammaglobulinemia are prominent features of human malaria. We report here that Plasmodium falciparum-infected erythrocytes directly adhere to and activate peripheral blood B cells from nonimmune donors. The infected erythrocytes employ the cysteine-rich interdomain region 1alpha (CIDR1alpha) of P. falciparum erythrocyte membrane protein 1 (PfEMP1) to interact with the B cells. Stimulation with recombinant CIDR1alpha induces proliferation, an increase in B-cell size, expression of activation molecules, and secretion of immunoglobulins (immunoglobulin M) and cytokines (tumor necrosis factor alpha and interleukin-6). Furthermore, CIDR1alpha binds to Fab and Fc fragments of human immunoglobulins and to immunoglobulins purified from the sera of different animal species. This binding pattern is similar to that of the polyclonal B-cell activator Staphylococcus aureus protein A. Our findings shed light on the understanding of the molecular basis of polyclonal B-cell activation during malaria infections. The results suggest that the var gene family encoding PfEMP1 has evolved not only to mediate the sequestration of infected erythrocytes but also to manipulate the immune system to enhance the survival of the parasite.

Class and subclass selection in parasite-specific antibody responses

Antibodies are characteristically induced in many parasitic infection processes. The class and subclass of the antibody response is instrumental because each isotype has a distinct biological function. It is thus crucially important for an infected individual to mount the most appropriate secondary antibody response--that is the response that has the best chance of clearing the infection and/or controlling disease. This represents a fundamental of vaccine strategies. Immuno-epidemiological surveys and in vitro models of antibody production have helped to understand some of the goals which should be achieved when designing antiparasitic vaccines.

Regulation of antigen-specific immunoglobulin G subclasses in response to conserved and polymorphic Plasmodium falciparum antigens in an in vitro model

Cytophilic antibodies (Abs) play a critical role in protection against Plasmodium falciparum blood stages, yet little is known about the parameters regulating production of these Abs. We used an in vitro culture system to study the subclass distribution of antigen (Ag)-specific immunoglobulin G (IgG) produced by peripheral blood mononuclear cells (PBMCs) from individuals exposed to P. falciparum or unexposed individuals. PBMCs, cultivated with or without cytokines and exogenous CD40/CD40L signals, were stimulated with a crude parasite extract, recombinant vaccine candidates derived from conserved Ags (19-kDa C terminus of merozoite surface protein 1 [MSP1(19)], R23, and PfEB200), or recombinant Ags derived from the polymorphic Ags MSP1 block 2 and MSP2. No P. falciparum-specific Ab production was detected in PBMCs from unexposed individuals. PBMCs from donors exposed frequently to P. falciparum infections produced multiple IgG subclasses when they were stimulated with the parasite extract but usually only one IgG subclass when they were stimulated with a recombinant Ag. Optimal Ab production required addition of interleukin-2 (IL-2) and IL-10 for all antigenic preparations. The IgG subclass distribution was both donor and Ag dependent and was only minimally influenced by the exogenous cytokine environment. In vitro IgG production and subclass distribution correlated with plasma Abs to some Ags (MSP1(19), R23, and MSP2) but not others (PfEB200 and the three MSP1 block 2-derived Ags). Data presented here suggest that intrinsic properties of the protein Ag itself play a major role in determining the subclass of the Ab response, which has important implications for rational design of vaccine delivery.

Acquired immune responses to Plasmodium falciparum merozoite surface protein-1 in the human fetus

Infants born in areas of stable malaria transmission are relatively protected against severe morbidity and high density Plasmodium falciparum blood-stage infection. This protection may involve prenatal sensitization and immunologic reactivity to malaria surface ligands that participate in invasion of red cells. We examined cord blood T and B cell immunity to P. falciparum merozoite surface protein-1 (MSP-1) in infants born in an area of stable malaria transmission in Kenya. T cell cytokine responses to the C-terminal 19-kDa fragment of MSP-1 (MSP-1(19)) were detected in 24 of 92 (26%) newborns (4-192 IFN-gamma and 3-88 IL-4-secreting cells per 10(6)/cord blood lymphocytes). Peptide epitopes in the N-terminal block 3 region of MSP-1 also drove IFN-gamma and/or IL-13 production. There was no evidence of prenatal T cell sensitization to liver-stage Ag-1. A total of 5 of 86 (6%) newborns had cord blood anti-MSP-1(19) IgM Abs, an Ig isotype that does not cross the placenta and is therefore of fetal origin. The frequency of neonatal B cell sensitization was higher than that indicated by serology alone, as 5 of 27 (18%) cord blood samples contained B cells that produced IgG when stimulated with MSP-1(19) in vitro. Neonatal B cell IgG responses were restricted to the Q-KNG allele of MSP-1(19), the major variant in this endemic area, whereas T cells responded to all four MSP-1(19) alleles evaluated. In utero sensitization to MSP-1 correlated with the presence of malaria parasites in cord blood (chi(2) = 20, p < 0.0001). These data indicate that prenatal sensitization to blood-stage Ags occurs in infants born in malaria endemic areas.

Sensitivity and specificity of isolated antigen fromPlasmodium falciparum culture supernatant

Immunological sensitivity and specificity properties of isolated Plasmodium falciparum (GPL) antigen from culture supernatant have been measured and compared with malarial antigens and non malarial filtered paper blood sera for potency and efficacy. Latex bead coded GPL, Pf and RESA antigens immunoreaction properties of human filter paper blood samples (FPB) were studied by laser light scattering immunoassay (LIA) and Enzyme linked immunoabsorbent assay (ELISA) techniques. Results of GP. antigen sensitivity study by LIA method showed a very high malaria antibody binding response (MABR) i.e. 6% compared with 78% with RESA and 88% Pf antigens. Malaria detection by ELISA method also found similar results. Specificity study of GPL antigen for different non malarial filter paper blood sera (NMFS) showed no immunoreaction however Pf and RESA antigen showed few positive immunological responses. These results suggest that sensitivity and specificity properties of isolated GPL antigen is better than other antigens.

Experimental IgG antibody production in vitro by peripheral blood and tonsil surface gamma+ B lymphocytes from Plasmodium falciparum-immune West Africans

Antigen reactive B cells in tonsil specimens from teenagers from a region moderately exposed to P. falciparum were capable of being differentiated in vitro and producing specific immunoglobulin (Ig)G in up to 33% of individual experiments. Mononuclear cells or purified (s)gamma+ CD19+ B cells from peripheral blood or tonsil specimens from P falciparum-immune Senegalese subjects produced antigen-specific IgG upon appropriate stimulation in vitro. One fraction of this IgG was produced de novo by differentiated B cells and another fraction was likely bound on the surface of circulating or resident CD19+ sgamma+ B cells which were found in significantly greater numbers in individuals from rural Senegal as compared to nonimmune European controls. This study further documents the baseline levels of in vitro driven anti-P. falciparum IgG antibody production by mononuclear cells from blood and tonsils in immune populations exposed to P. falciparum differentially. Furthermore, this study demonstrates the relevance and potential utility of tonsils as a source of B lymphocytes to characterize further specific antibody responses to P. falciparum antigens in immune populations.

Immune responses to Plasmodium falciparum-merozoite surface protein 1 (MSP1) antigen, II. Induction of parasite-specific immunoglobulin G in unsensitized human B cells after in vitro T-cell priming with MSP119

A baculovirus recombinant antigen corresponding to the C-terminal 19 000 MW fragment of Plasmodium falciparum merozoite surface protein 1 (MSP119), has been used to prime T cells from individuals with no previous exposure to malaria, to provide help for the induction of a parasite specific antibody response in vitro. Although MSP119 alone could induce a small but detectable T-cell response, which included interleukin-4 (IL-4) secretion, this response was significantly increased by the presence of IL-2. In addition, IL-4 was shown to synergize with IL-2 for the induction of antigen-specific T-cell responses. If interferon-gamma (IFN-gamma), IL-12, or neutralizing anti-IL-4 antibody was present at the time of priming, the T-cell responses were abolished. Parasite-specific immunoglobulin G (IgG) could be detected after secondary restimulation with MSP119, IL-10 and anti-CD40 monoclonal antibody in cultures containing MSP119 primed T cells, autologous B cells, IL-2 and IL-4. No antibody was secreted in the absence of primed T cells in this B-cell culture assay. These data show that recombinant MSP119, a leading malaria vaccine candidate, can prime non-immune human lymphocytes under defined in vitro experimental conditions, which include regulatory cytokines and/or other costimulatory molecules. This is a complementary approach for exploring immunogenic mechanisms of potential vaccine candidates such as P. falciparum antigens in humans.