Identification of larval cross-reactive and egg-specific antigens involved in granuloma formation in murine schistosomiasis mansoni

Dynamics of Host Immune Response Development During Schistosoma mansoni Infection

Schistosomiasis is a disease of global significance, with severity and pathology directly related to how the host responds to infection. The immunological narrative of schistosomiasis has been constructed through decades of study, with researchers often focussing on isolated time points, cell types and tissue sites of interest. However, the field currently lacks a comprehensive and up-to-date understanding of the immune trajectory of schistosomiasis over infection and across multiple tissue sites. We have defined schistosome-elicited immune responses at several distinct stages of the parasite lifecycle, in three tissue sites affected by infection: the liver, spleen, and mesenteric lymph nodes. Additionally, by performing RNA-seq on the livers of schistosome infected mice, we have generated novel transcriptomic insight into the development of schistosome-associated liver pathology and fibrosis across the breadth of infection. Through depletion of CD11c+ cells during peak stages of schistosome-driven inflammation, we have revealed a critical role for CD11c+ cells in the co-ordination and regulation of Th2 inflammation during infection. Our data provide an updated and high-resolution account of how host immune responses evolve over the course of murine schistosomiasis, underscoring the significance of CD11c+ cells in dictating host immunopathology against this important helminth infection.

Chronic schistosome infection leads to modulation of granuloma formation and systemic immune suppression

Schistosome worms have been infecting humans for millennia, but it is only in the last half century that we have begun to understand the complexities of this inter-relationship. As our sophistication about the inner workings of every aspect of the immune system has increased, it has also become obvious that schistosome infections have broad ranging effects on nearly all of the innate and adaptive immune response mechanisms. Selective pressures on both the worms and their hosts, has no doubt led to co-evolution of protective mechanisms, particularly those that favor granuloma formation around schistosome eggs and immune suppression during chronic infection. The immune modulatory effects that chronic schistosome infection and egg deposition elicit have been intensely studied, not only because of their major implications to public health issues, but also due to the emerging evidence that schistosome infection may protect humans from severe allergies and autoimmunity. Mouse models of schistosome infection have been extremely valuable for studying immune modulation and regulation, and in the discovery of novel aspects of immunity. A progression of immune reactions occurs during granuloma formation ranging from innate inflammation, to activation of each branch of adaptive immune response, and culminating in systemic immune suppression and granuloma fibrosis. Although molecular factors from schistosome eggs have been identified as mediators of immune modulation and suppressive functions of T and B cells, much work is still needed to define the mechanisms of the immune alteration and determine whether therapies for asthma or autoimmunity could be developed from these pathways.

Induction of type 2 responses by schistosome worms during prepatent infection

During natural schistosome infection, the induction of T helper type 2 (Th2) responses has been ascribed to parasite eggs, because exposure of the host to this life-cycle stage elicits a polarized Th2 response to egg antigens. In the present study, we show that schistosome worms also elicit systemic, antigen-specific type 2 responses during prepatent infection, before egg deposition begins. CD4(+) T cells producing interleukin (IL)-4 were induced by both male and female worms during single-sex infections, demonstrating that this response is independent of exposure to eggs. The Th2 response was accompanied by production of immunoglobulin E and the sensitization of circulating basophils to produce additional IL-4 in response to schistosome antigens. Together, our data show that schistosome worms establish an immunologic milieu where CD4(+) T cells and basophils are both primed to produce IL-4 before eggs are laid, suggesting that worms play a role in establishment of the Th2 response that is critical for host survival and parasite transmission.

Experimental models of Schistosoma mansoni infection

Experimental models of Schistosoma mansoni infections in mammals have contributed greatly to our understanding of the pathology and pathogenesis of infection. We consider here hepatic and extrahepatic disease in models of acute and chronic infection. Experimental schistosome infections have also contributed more broadly to our understanding of granulomatous inflammation and our understanding of Th1 versus Th2 related inflammation and particularly to Th2-mediated fibrosis of the liver.

The Schistosoma mansoni egg-derived r38 peptide-induced Th1 response affects the synchronous pulmonary but not the asynchronous hepatic granuloma growth

The p38 peptide derived from Schistosoma mansoni egg-antigens (SEA) is a preferential inducer of the Th1 response. In the present study, we investigated whether induction of a p38-specific Th1 or Th2 response can influence granuloma development in infected or sensitized mice. Mice sensitized with SEA/IL-12 3 weeks after infection but before worm oviposition commenced developed Th1 cytokine responses and had significantly reduced hepatic granuloma size. Similar immunization with p38/IL-12 induced a strong peptide-specific Th1, mixed SEA-specific Th1/Th2 responses without effect on hepatic granuloma development. Presentation of p38 with alum or alum/IL-12 mixture enhanced Th2 cytokine responses and hepatic granuloma sizes. In the synchronized pulmonary model, sensitization of naïve mice with p38/IL-12 induced a strong Th1 cytokine production to p38 and SEA, led to a moderate increase in granuloma growth at days 4 and 8 following egg injection and actually promoted the resolution of the lesion by day 16. Sensitization with p38 in alum induced Th2 cytokine production and generated the largest granulomas whereas the p38/alum/IL-12 sensitized group showed intermediate results in cytokine production and granuloma growth. Thus, in infected mice, the p38 induced strong Th1 response was insufficient to cross-regulate the evolving Th2 environment that generated large granulomas.

Kupffer Cells from Schistosoma mansoni-Infected Mice Participate in the Prompt Type 2 Differentiation of Hepatic T Cells in Response to Worm Antigens

Infection with Schistosoma mansoni, a portal vein-residing helminth, is well known to generate life cycle-dependent, systemic immune responses in the host, type 1 deviation during the prepatent period, and type 2 polarization after oviposition. Here we investigated local immunological changes in the liver after infection. Unlike splenocytes, hepatic lymphocytes from infected mice during the prepatent period already produced a higher amount of IL-4 and a lesser amount of IFN-γ than those from uninfected mice. Hepatic lymphocytes, particularly conventional T cells, but not NK1.1+ T cells, promptly produced IL-4 in response to worm products, soluble worm Ag preparation (SWAP), whenever presented by Kupffer cells from infected mice. The hepatic lymphocytes that had been stimulated with SWAP presented by infected mice-derived Kupffer cells produced a huge amount of IL-4, IL-13, and IL-5 as well as little IFN-γ in response to immobilized anti-CD3 mAb. Kupffer cells from uninfected mice produced IL-6 and IL-10, but not IL-12 or IL-18, in response to SWAP stimulation and gained the potential to additionally produce IL-4 and IL-13 after the infection. These results suggested that prompt type 2 deviation in the liver after the infection might be due to the alteration of Kupffer cells that induces SWAP-mediated type 2-development of hepatic T cells.

Polarization of the immune response to the single immunodominant epitope of p38, a major Schistosoma mansoni egg antigen, generates Th1- or Th2-type cytokines and granulomas

In schistosomiasis mansoni, helminth eggs secrete soluble egg antigens (SEA) that induce T-cell-mediated granulomatous tissue responses. The cloned 38-kDa peptide (p38) of SEA was shown to induce and elicit Th1-type responsiveness in H-2(k) mice. Subsequently, the immunodominant T-cell epitope (P4) of p38 was shown to elicit pulmonary granuloma formation and Th1-type cytokine production in sensitized or infected mice. Here, we report that the immune response to p38 or P4 can be polarized to a Th1 or Th2 profile when the peptides are presented intraperitoneally in soluble recombinant interleukin-12 (IL-12) or alum adjuvant, respectively. The Th1 or Th2 profile was verified by cytokine secretion, enzyme-linked spot assay, and antibody isotype characterization. Importantly, the polarized immune response generated two types of pulmonary granulomas around injected P4-coated beads. The type 1 granulomas were smaller and contained mononuclear cells and occasional thin strands of deposited collagen. In contrast, the type 2 lesions were larger and contained mononuclear cells, large numbers of eosinophils, and several thick bands of deposited collagen. By reverse transcription-PCR cytokine, message in the type 1 granuloma-bearing lungs was found for gamma interferon, tumor necrosis factor alpha, and inducible nitric oxide synthase but not for IL-4 or IL-5. Conversely, lungs with type 2 granulomas had message only for IL-4 and IL-5. These results show that in the proper cytokine environment, the response to a strong Th1 inducer peptide can be deviated to a Th2 profile.

Schistosoma mansoni: genetic restriction and cytokine profile of the CD4 + T helper cell response to dominant epitope peptide of major egg antigen Sm-p40

Granuloma formation in schistosomiasis is mediated by MHC class II-restricted CD4 + T helper lymphocytes sensitized to egg antigens. We previously reported that C3H mice, which develop large granulomas, display strong CD4 + T helper cell responses to the major egg antigen Sm-p40. Moreover, all members of a panel of egg antigen-specific T cell hybridomas responded to the Sm-p40 antigen. Given the significance of the Sm-p40 molecule in the C3H T cell repertoire against schistosomal egg antigens, the current work was undertaken to map its immunogenic epitopes, using a library of 15 synthetic overlapping 30-mer peptides. The dominant epitope recognized by polyclonal CD4 + Th cells was located in peptide 10 (amino acids 229-258); subdominant epitopes were detected in peptides 8 (amino acids 179-208) and 12 (amino acids 279-308). The anti-Sm-p40 T cell hybridomas variously responded to any one of the same three stimulatory peptides. Furthermore, studies with various mouse strains demonstrated that a strong anti-Sm-p40 response was restricted by H-2(k). Interestingly, the cells responding to peptide 10 and to the Sm-p40 antigen only secreted IL-2 and IFN-gamma, but not IL-4 and IL-10, indicating that they are entirely of the Th-1-type, a subset with demonstrated capacity to mediate egg granuloma formation. The identification of dominant epitopes within key egg antigens offers opportunities for desensitization of the CD4 + Th cells that mediate pathology in schistosomia sis.

Identification of the Immunodominant T Cell Epitope of p38, a Major Egg Antigen, and Characterization of the Epitope-Specific Th Responsiveness During Murine Schistosomiasis Mansoni

A recently cloned major Schistosoma mansoni egg Ag p38 induced and elicited strong Th1-type responsiveness in mice of H-2k haplotype. Now, we have identified the immunodominant T cell epitope of p38 and analyzed the dynamics of epitope-specific Th responsiveness during murine schistosomiasis mansoni. Overlapping recombinant and synthetic peptides that encompassed the full-length 354 amino acid of p38 were tested for proliferation and cytokine production in peptide- or p38-sensitized mice. The immunodominant T cell epitope of p38 that elicited pulmonary granuloma formation was localized within peptide P4 (amino acids 235–249). The P4-specific cytokine response of splenocytes that had been sensitized s.c. with p38, P4 or soluble egg Ags in IFA, or i.p. with 3000 eggs was predominantly as the Th1 type, with strong IL-2 and IFN-γ, but trace amounts of IL-4 and IL-5 secretion. At 6.5 wk of infection, splenocytes and mesenteric lymph node cells responded to p38/P4 peptides with predominantly Th1-type responsiveness. This response did not switch to a Th2-type pattern from 8 wk onwards; rather, it underwent down-modulation. Moreover, the hepatic granuloma lymphocytes at 6.5 wk responded to p38/P4 predominantly with Th1-type cytokine production, indicating that they participate in early granuloma formation. From 8 wk onwards an immune deviation to the p38-specific response was observed that was manifested by rising IgG1, IgE, and IgG2a Ab production as opposed to declining Th1- and Th2-type cytokine secretion.

Differential antigen recognition by T cell populations from strains of mice developing polar forms of granulomatous inflammation in response to eggs of Schistosoma mansoni

In humans, infection with schistosome helminths can lead to dissimilar forms of clinical disease. Likewise, in the experimental mouse system, identical infection protocols with Schistosoma mansoni cause a more severe granulomatous disease in the C3H strain than in the C57BL/6 strain. To address this difference, we developed panels of schistosomal egg antigen (SEA)-specific T cell hybridomas to compare the responses of C3H and C57BL/6 mice to the major egg antigen p40. All derived C3H T cell hybridomas, despite being clonally distinct and restricted by either I-Ak or I-Ek, responded to recombinant fragment 15-1 of the p40 antigen, while none of the C57BL/6 T cell hybridomas did. Consistent with the observed monoclonal T cell responses, polyclonal lymph node cells from schistosome-infected C3H mice reacted strongly to fragment 15-1, which contrasted sharply with the weak response displayed by the C57BL/6 strain. Moreover, studies with congenic mice demonstrated that the strong CD4+ T cell response to fragment 15-1 was under major histocompatibility complex control and segregated with the H-2k haplotype. These findings suggest that a dominant T cell response against a major egg antigen may represent a risk factor for the development of severe disease.

A cloned major Schistosoma mansoni egg antigen with homologies to small heat shock proteins elicits Th1 responsiveness

In schistosomiasis mansoni, soluble egg antigens of the worm induce chronic T-cell-mediated granulomatous tissue responses. Since the first preparation of crude soluble egg antigen extract, a dearth of highly purified antigens has hampered the identification of granuloma inducer molecules. Here we report that a cloned 38-kDa egg polypeptide (r38) with homologies to small heat shock proteins is a strong immunogen. The recombinant and the sodium dodecyl sulfate-polyacrylamide gel electrophoresis separated and eluted native 38-kDa (p38) polypeptides, used in microgram amounts and unaided by adjuvant, sensitized mice for a Th1-type immune response, with strong interleukin-2 (IL-2) and gamma interferon secretion but no IL-4 and IL-10 secretion. Extensive cross-reactivity between these two polypeptides was evident. THis pattern was confirmed by reverse transcription-PCR that showed strong IL-2 and gamma interferon message expression but trace amounts of IL-4 message expression in r38-sensitized splenocytes. In mice, the polypeptide induced pulmonary mononuclear granuloma formation around antigen-coupled beads or worm eggs. We propose that the superior immunogenicity of r38 is linked to its relatedness to small heat shock proteins and that the 38-kDa polypeptide may induce the Th1 cytokine responses observed during the early development phase of the egg-induced granuloma.

Electrophoretic differentiation of soluble egg antigens from Schistosoma mansoni isolates using SDS-PAGE

In order to detect intraspecies differences among isolates of Schistosoma mansoni from different geographical regions, soluble egg antigens (SEAs) of three isolates were characterized using SDS-PAGE. SEAs were prepared from eggs of a South African (SA), Eastern Caprivian (EC) and Puerto Rican (PR) isolate, separated by SDS-PAGE, stained and the molecular masses of constituent polypeptides determined. Protein profiles differed for all three isolates with the number of polypeptides varying from 25 for the PR isolate to 27 for the EC and SA isolates. Molecular masses of the polypeptides fall within the range of 12.0 kDa to 97.9 kDa. The EC and SA isolates shared ten common polypeptides, the PR and SA isolates five and the PR and EC isolates two. Only a 30.8 kDa and a 12.0 kDa polypeptide were common to all three isolates. These differences may, to some extent, account for regional variations in the morbidity of intestinal schistosomiasis reported for different geographical isolates of S. mansoni.

Evaluation of the effect of Sm28GST-derived peptides in murine hepatosplenic schistosomiasis: interest of the lipopeptidic form of the C-terminal peptide

Among the synthetic peptides derived from the 28-kDa Schistosoma mansoni glutathione S-transferase (Sm28GST), immunization with the C-terminal peptide comprising amino acid residues 190-211 induced a reduction in splenomegaly, in the number of hepatic eggs and in hepatic fibrosis in mice infected by Schistosoma mansoni. The absence of antibodies specific for the Sm28GST or for the 190-211 peptide observed in our conditions of immunization with this peptide argued in favour of the involvement of cellular-dependent mechanisms in the reduction in hepatic pathology. This was confirmed by the passive transfer of 190-211 peptide-specific T-cell enriched spleen cells which reproduced the protective effect conferred by immunization with the 190-211 peptide. These 190-211 peptide-specific cells produced little IL4 and high levels of IFN-gamma, a potent inhibitor of collagen synthesis. Furthermore, the use of a lipopeptidic form of the 190-211 peptide significantly improved the reduction in hepatic pathology obtained with the uncoupled peptide and induced a durable protective response. These results provide encouraging information for the possible use of synthetic peptides in the immunoprophylaxis of Schistosomiasis.

Protective effect of rSm28GST-specific T cells in schistosomiasis: role of gamma interferon

Immunization with a single dose of 50 micrograms of recombinant Schistosoma mansoni 28-kDa glutathione-S-transferase (rSm28GST) was able to induce a reduction in the worm burden, the number of eggs, and the degree of hepatic fibrosis as quantified by the measurement of collagen content in the liver of S. mansoni-infected mice. No relationship was found between anti-Sm28GST immunoglobulin G and immunoglobulin A titers and the levels of protection obtained. Adoptive transfers of Sm28GST-specific total, CD4+, or CD8+ T cells reproduced the protective effect obtained with the recombinant molecule. Moreover, experiments studying in vivo T-cell depletion demonstrated that anti-CD4- or anti-CD8-treated mice showed a significant decrease in the protective effect conferred, suggesting a role of the two T-cell subpopulations in the expression of Sm28GST-mediated protection against hepatic damage. Sm28GST-specific cells produced little interleukin-4 and high levels of gamma interferon. Treatment of immunized mice with anti-gamma interferon antibody totally suppressed the Sm28GST-induced protective effect and led to the rapid death of infected animals, suggesting a role for this cytokine in the expression of the protective immunity obtained after immunization with rSm28GST.

Utilization of fractionated soluble egg antigens reveals selectively modulated granulomatous and lymphokine responses during murine schistosomiasis mansoni

Worm eggs deposited in the livers and intestines of Schistosoma mansoni-infected mice secrete soluble egg antigens (SEA) and induce T cell-mediated circumoval granulomas. In the present study, we fractionated crude SEA by sodium dodecyl sulfate-polyacrylamide gel electrophoresis and tested the fractions for granuloma elicitation and lymphokine production at different stages of the infection. SEA fraction-coupled beads were used to elicit artificial pulmonary granulomas. Acutely infected mice responded with granulomas to seven fractions (less than 21-, 25- to 30-, 32- to 38-, 60- to 66-, 70- to 90-, 93- to 125-, and greater than 200-kDa fractions) of SEA, whereas chronically infected mice responded to four fractions (60- to 66-, 70- to 90-, 93- to 125-, and greater than 200-kDa fractions). In response to both crude and fractionated SEA, granuloma T cells produced high levels of gamma interferon at the preacute (6-week) stage of infection, but production subsequently diminished. Interleukin-2 (IL-2) and IL-4 production peaked at the acute (8-week) stage of infection and concurrently decreased at the chronic (20-week) stage. At the acute stage of the infection, the granulomagenic SEA fractions also elicited IL-2 and IL-4 production; at the chronic stage, IL-2 production and, to a lesser degree, IL-4 production corresponded to SEA fractions that elicited granulomas. Isolated SEA proteins from the 32- to 38-kDa fraction demonstrated differential lymphokine responses: predominant gamma interferon and IL-2 production was elicited by the 32-kDa fraction, whereas the 35- and 38-kDa proteins elicited predominant gamma interferon and IL-4 production. However, all three proteins elicited granuloma formation. The present study reveals changes in granulomatous responses to SEA fractions during the acute and chronic stages of the infection as well as distinct phases of gamma interferon, IL-2, and IL-4 lymphokine production throughout the infection. Based on these results, it is concluded that granuloma formation and IL-2 and IL-4 production are interrelated.