The cellular and humoral immune response to Schistosoma mansoni infections in inbred rats: I. Mechanisms during initial exposure

Fischer rats were infected with Schistosoma mansoni by exposure to cercariae. The effects of animal age at exposure and the size of that exposure were determined by quantitation of subsequent worm burdens. Optimal conditions for assay of protection mediated by cells or serum transferred from exposed donors were ascertained. The major initial protective immune response to infection was mediated by thymusdependent lymphocytes as demonstrated by discrete subpopulation cell transfer experiments. Simultaneously harvested serum enhanced worm survival and obviated the protective effects of transferred cells when serum and cells were given concomitantly. Subsquently, host immunity became dependent on antibody formation. In the chronic phase of infection, a small number of surviving parasites coexisted with antibody which specifically interacted with schistosomal antigens but did not protect in transfer experiments. These studies suggest a form of immunologic enhancement with antibody modulation of cellular immunity as possible components of the immune response to both acute and chronic schistosomiasis.     

The immune response to Schistosoma mansoni infections in inbred rats. VI. Regulation by T cell subpopulations

These studies assess the roles of subpopulations of T lymphocytes in inducing and modulating resistance to Schistosoma mansoni. CDF rats were depleted of RT 7.1+ (anti-Pan-T), W3/25+ (anti-T helper/inducer), or OX8+ (anti-T suppressor) cells by the in vivo administration of monoclonal antibodies (mAb). The development of parasites and immunity to challenge by S. mansoni were compared with results in undepleted normal and congenitally athymic rats. Discrete subpopulations of T lymphocytes were adoptively transferred to ascertain effects upon parasite development and the protective immune response. In vitro studies, involving utilizing cocultivation of cell subpopulations +/- cyclosporin A, were utilized to dissect mechanisms. Depletion of T lymphocytes by anti-RT7.1 mAb and anti-W3/25 mAb resulted in augmented initial worm development, suboptimal resistance, and decreased antibody and delayed-type hypersensitive reactivity directed against schistosome antigens. Depletion with OX8 mAb produced opposite effects. The adoptive transfer of T cell subpopulations produced concordant results with T cell regulation expressed B cell-dependent effector mechanisms. The coadoptive transfer of cells resulted in the suppression of resistance afforded by the W3/25+ cells by OX8+ cells, which could be augmented in vitro by cyclosporin A. Thus, protective immunity to S. mansoni in rats is regulated by discrete subpopulations of T lymphocytes. The findings suggest the possibility of selective immune regulation of resistance based on the manipulation of specific T cell subpopulation.     

Neonatal exposure to idiotype induces Schistosoma mansoni egg antigen-specific cellular and humoral immune responses.

Exposure of neonatal mice to appropriate, cross-reactive Id (CRI) preparations alters immune responsiveness, ameliorates pathology, and prolongs survival of animals upon subsequent Schistosoma mansoni infection. However, because schistosome infections profoundly affect host immunobiology, which responses are effected by neonatal Id exposure alone and which responses are influenced by infection is unclear. To directly examine the schistosome soluble egg Ag (SEA)-specific immune responses altered by CRI exposure, neonatal mice were injected with CRI-expressing (CRI+) SEA-specific Ab preparations, SEA-specific Abs that did not express CRI (CRI-), or normal mouse Ig. At 9 wk of age, only mice that were neonatally exposed to CRI+ anti-SEA Abs displayed significant SEA-specific IgG serum levels and spleen cell proliferative responses. SEA-stimulated spleen cells from these CRI+-exposed mice also produced IFN-gamma, although not at significantly higher levels than mice receiving CRI- Id or normal mouse Ig. If CRI+-exposed mice were also injected with SEA at 8 wk of age, the 9-wk IFN-gamma responses were significantly higher than those of the other neonatal injection groups. The presence of both CRI and anti-CRI in the sera of animals neonatally injected with CRI, but receiving no exposure to S. mansoni Ags or infection, suggested a functional idiotypic network led to these responses. These data demonstrate that appropriate idiotypic exposure induces B and T cell responsiveness to the Ag recognized by the Id and support the hypothesis that neonatal idiotypic exposure can be an important immunoregulatory factor in schistosomiasis.     

Schistosoma mansoni heat shock protein 70 elicits an early humoral immune response in S. mansoni infected baboons

A study was undertaken to search for DNA recombinant Schistosoma mansoni proteins responsible for eliciting an antibody response from the host at a very early phase after infection. A S. mansoni adult worm cDNA expression library was screened using pooled sera from baboons with four weeks of infection. Based on their specific reactivity with the S. mansoni infected sera and no reactivity when tested against the pre-infection sera from the same baboons, four clones were selected for further studies. Sequence analysis revealed that they were homologous to the S. mansoni heat shock protein 70 (hsp70). The insert sizes of the four selected clones varied from 1150 to 2006 bp. The preliminary characterization for antibody reactivity against a panel of baboon sera showed that the longest clone was the most reactive, eight out of eight acute and three out of four chronic sera reacting positively to this clone. The shortest clone was the least reactive. Our results suggest that the S. mansoni hsp70 elicits an early and strong antibody response in baboons and that antibodies to this protein can be detected in chronically infected animals. Therefore S. mansoni hsp70 may be a valid target for immunodiagnosis. However further studies are needed to identify the portion of the hsp70 that best fits the requirements for a valuable diagnostic antigen.     

Immunologic response of athymic rats to Schistosoma mansoni infection. II. Antibody-dependent mechanisms of resistance

The responses of congenitally athymic rats to Schistosoma mansoni were compared to thymic reconstituted, heterozygous littermate controls, and inbred Fischer rats. The mechanisms of the impaired resistance of athymic rats to initial exposure and re-exposure to S. mansoni were investigated by the study of various parameters of antibody response. The uninfected athymic animals demonstrated normal levels of total IgM but reduced levels of total IgG2a and IgE. After infection with S. mansoni, the immunoglobulin increases in athymic rats were less than those observed in heterozygote control rats. In addition, the level of anti-S. mansoni IgG antibody, utilizing ELISA assay, was reduced. Furthermore, the functional avidity of the IgG2a antibody, which was produced by the athymic animals, was significantly lower than that of control heterozygote and Fischer animals. Similarly, the levels of IgE and IgG2a anaphylactic antibodies were reduced in the congenitally athymic animals. After thymic reconstitution and exposure to S. mansoni of the congenitally athymic animals, all of these parameters became similar to the analogous value obtained from exposed heterozygous and homozygous animals. In vitro studies of antibody-dependent cell-mediated cytotoxicity (ADCC) activity indicated that the antibody response of the congenitally athymic animals was characterized by significant reductions in IgE-macrophage-mediated, IgG-eosinophil-mediated, and IgE-eosinophil-mediated cytotoxicity directed against schistosomula. These results, coupled with previously reported in vivo observations, that athymic animals produced antibody that was less capable of transferring resistance in adoptive-challenge experiments, suggest that the mechanisms of impaired resistance in the congenitally athymic rat may involve the failure to develop adequate, functional ADCC mechanisms. As such, these studies suggest a relationship between in vivo resistance and possible in vitro mechanisms of that resistance.     

Defective vaccine-induced immunity to Schistosoma mansoni in P strain mice. II. Analysis of cellular responses

Cellular immune responses against larval and adult schistosome antigens were studied in attenuated cercariae-vaccinated P and C57BL/6 mice to define differences correlating with the inability of P mice to develop vaccine-induced resistance to challenge Schistosoma mansoni infection. Vaccinated P mice failed to demonstrate delayed hypersensitivity upon skin-testing with soluble worm antigens, whereas mice of the highly resistant strain C57BL/6 developed a significant 24-hr response to worm antigens in vivo. Also, when schistosome antigens were injected i.p., vaccinated P mice failed to exhibit an activated macrophage response in vivo, whereas vaccinated C57BL/6 mice developed macrophages with significant larvicidal and tumoricidal activity at the site of specific antigen challenge. Immune sera from either vaccinated C57BL/6 or P mice were equally effective at opsonizing the schistosomula targets in the larvicidal assay. In vitro analyses of cellular defects revealed that although T lymphocytes from vaccinated P mice showed blastogenic responses to schistosome antigens that were similar in magnitude and kinetics to those of cells from the C57BL/6 animals, T cells from C57BL/6 mice produced higher levels of macrophage-activating lymphokines (LK), including gamma-interferon. Macrophages from control C57BL/6 mice were also more responsive to activation by LK than macrophages from P mice were, as assessed by stimulation of these cells to kill skin-stage schistosomula in vitro. These two aspects of cellular dysfunction in P mice had the combined effect of rendering P macrophages incapable of activation by LK from mice of their own strain, whereas macrophages from C57BL/6 mice were strongly activated by LK from vaccinated C57BL/6 mice in the same assays. Thus, a correlation exists between T lymphocyte/macrophage dysfunction and lack of resistance to challenge infection in vaccinated P mice, which suggests that delayed hypersensitivity response plays a major role in the immunity to S. mansoni infection that is induced by exposure to radiation-attenuated cercariae.     

Induction of protective immunity against Schistosoma mansoni by a nonliving vaccine. II. Response of mouse strains with selective immune defects

The efficacy of a new vaccination procedure against Schistosoma mansoni, involving intradermal injection of nonliving antigen combined with the bacterial adjuvant Mycobacterium bovis strain bacillus Calmette Guérin, was tested in several strains of mice. Development of protection against subsequent infection was compared with in vivo skin test reactivity and in vitro humoral reactivity to soluble and surface-associated schistosome antigens. Significant levels of resistance and immune response were displayed by many inbred mouse strains, including C57BL/6J, C3H/HeN, and CBA/J, as well as outbred Swiss-Webster mice. However, no definite correlation was observed between the level of any particular immune response and the level of resistance to challenge S. mansoni infection. Development of protective immunity was also examined in mice with various immune defects, to determine whether these responses are relevant to resistance in this model. Animals with defective specific immediate hypersensitivity response due to deficiencies in IgE (SJL/J) or mast cell (W/Wv) production displayed strong resistance as a result of immunization. Likewise, mice bearing the lpsd (C3H/HeJ) or xid (CBA/N) mutations, affecting cellular or humoral response to certain thymus-independent antigens, developed significant levels of resistance after immunization. A/J mice, with defects in cellular recognition of bacterial endotoxin as well as deficiencies in natural killer cell activity and complement function, also showed significant protective immunity. Thus, these reactivities do not appear to be essential to the resistance against S. mansoni induced by the nonliving vaccine. Two nonresponder strains were identified, P and BALB/c. P mice were defective in specific delayed hypersensitivity response as well as resistance to infection. However, BALB/c mice showed no obvious immune deficiencies at the time of challenge. These results agreed with previous findings in mice immunized by exposure to radiation-attenuated cercariae with one exception; BALB/c mice were protected by vaccination with irradiated cercariae but not by the nonliving vaccine. Thus, further examination of immune response in mice identified in this study as high and low responder strains should allow characterization of critical immune resistance mechanisms induced by the nonliving vaccine, as well as immune mechanisms operating in common between these two models of resistance to S. mansoni.     

Lead and immunity: II. Suppression of humoral immune response to Hymenolepis nana in mice.

Serum protein changes in mice treated for varying durations with lead nitrate and subsequently infected with 1000 H. nana eggs were compared with their counterpart controls, only treated and only infected groups. Decreased values of beta and gamma globulins in all the experimental groups along with higher worm recoveries indicate suppression of humoral immune response by lead in association with higher worm recoveries indicate suppression of humoral immune response by lead in association with the cellular components since these globulins are known to contain antibodies. Lead treatment for a duration of 45 days proved to be most effective in suppressing the immune response.     

Involvement of the cytokine MIF in the snail host immune response to the parasite Schistosoma mansoni

We have identified and characterized a Macrophage Migration Inhibitory Factor (MIF) family member in the Lophotrochozoan invertebrate, Biomphalaria glabrata, the snail intermediate host of the human blood fluke Schistosoma mansoni. In mammals, MIF is a widely expressed pleiotropic cytokine with potent pro-inflammatory properties that controls cell functions such as gene expression, proliferation or apoptosis. Here we show that the MIF protein from B. glabrata (BgMIF) is expressed in circulating immune defense cells (hemocytes) of the snail as well as in the B. glabrata embryonic (Bge) cell line that has hemocyte-like features. Recombinant BgMIF (rBgMIF) induced cell proliferation and inhibited NO-dependent p53-mediated apoptosis in Bge cells. Moreover, knock-down of BgMIF expression in Bge cells interfered with the in vitro encapsulation of S. mansoni sporocysts. Furthermore, the in vivo knock-down of BgMIF prevented the changes in circulating hemocyte populations that occur in response to an infection by S. mansoni miracidia and led to a significant increase in the parasite burden of the snails. These results provide the first functional evidence that a MIF ortholog is involved in an invertebrate immune response towards a parasitic infection and highlight the importance of cytokines in invertebrate-parasite interactions.     

Macrophages as effector cells of protective immunity in murine schistosomiasis. VI. T cell-dependent, lymphokine-mediated, activation of macrophages in response to Schistosoma mansoni antigens

Macrophages from Schistosoma mansoni-infected mice kill significant numbers of skin stage schistosomula and murine fibrosarcoma cells in vitro. In order to determine whether the macrophage tumoricidal and larvicidal activation observed in mice as a result of S. mansoni infection are mediated through T cell-dependent (lymphokine) or B cell-dependent (antibody or immune complex) mechanisms, the development of macrophage populations with cytotoxic activity against schistosome larvae or tumor cells was monitored in S. mansoni-infected nude or mu-suppressed mice. Whereas peritoneal cells from S. mansoni-infected congenitally athymic mice had no activity in either assay, cells from mu-suppressed S. mansoni-infected mice showed cytotoxic activity equivalent to that of cells from untreated S. mansoni-infected counterparts. Cells from mu-suppressed uninfected mice were not activated. The mu-suppressed animals had no detectable nonspecific IgM or specific antischistosome IgM, IgG, or IgE antibodies and showed a 90% reduction in numbers of splenic IgM+ cells upon fluorescence activated cell sorter analysis. These results indicate that antibody is not required for in vivo activation of macrophages during S. mansoni infection. Further experiments showed that lymphoid cells from S. mansoni infected mice respond in culture with various specific antigens (such as living or dead whole schistosomula or soluble adult worm antigens) by production of factors capable of activating macrophages from uninfected control mice to kill schistosomula or tumor cells in vitro. Macrophage-activating factors were produced by T cell-enriched, but not T cell-depleted or B cell-enriched, populations from spleens of schistosome-infected mice in response to schistosome antigen. Similar lymphokines may be responsible for the macrophage activation observed during chronic murine schistosomiasis. These observations emphasize the potential contribution of T cell-mediated immune mechanisms in resistance to S. mansoni infection.     

Hypothalamo-pituitary system controls the development of humoral immune response during prenatal ontogenesis in rats

We studied the influence of the neuroendocrine system on the development of humoral immune response to sheep erythrocytes in rat fetuses. The removal of brain in utero by decapitation of 18-day fetuses induced a fourfold increase in the number of antibody-forming cells in the liver, as compared to the unoperated fetuses. After the removal of the forebrain, including hypothalamus (encephalectomy), the number of antibody-forming cells was comparable to that in unoperated fetuses. The observed increase in the number of antibody-forming cells in the liver was not due to a disturbed migration of precursors of B-lymphocytes in the spleen, since their content in the spleen was also four times that in the encephalectomized and unoperated fetuses. The increased number of antibody-forming cells in decapitated fetuses could be due to an enhanced proliferative activity of the lymphocytes in the liver of these fetuses. It has been proposed that humoral immunity is controlled by the hypothalamo-pituitary-adrenal system already during prenatal development; the adrenocorticotropic hormone and glucocorticoids appear to be involved in this regulation.     

Functional analysis of a T cell line specific for antiidiotypic antibodies to a Schistosoma mansoni protective epitope. I. Role in the anti-S. mansoni antibody response.

Previous data have shown that from an antiparasitic IgE mAb (mAb1), antianti-Id IgG and IgE antibodies (Ab3) could be prepared. These Ab3 demonstrated the same functional properties as the Ab1, such as in vitro cytotoxic activity toward schistosomula and in vivo a protective effect against Schistosoma mansoni infection. To study the possible interactions between the idiotypic network and the regulation of isotypic expression, we focused on Id-specific T cells obtained by immunization with Ab2. Both Ab2 idiotopes and native schistosomula Ag were able to stimulate the proliferation of anti-Ab2 T cells in vitro. The activation of anti-Ab2 T cells by Ab2 shared the classic characteristics of Th cells, namely, it was MHC-restricted and required APC. A T cell line could be maintained in long term culture by stimulation with schistosomula Ag. The adoptive transfer of cells from this line to 26-kDa Ag-immunized or S. mansoni-infected rats led to a dramatic increase in the specific humoral response. This effect was restricted to antibodies specific for 26- and 56-kDa Ag (the targets of the mAb1) and was observed for the two isotypes tested, i.e., IgG and IgE. Finally, the helper effect on the antibody response could be further amplified by cooperation of anti-Ab2 T cells with Id-specific cells of the first generation (anti-Ab1 cells). Together with Ag-specific Th cells, the Id-specific T cells may, due to their specificity and their functional properties, play a major role in the induction and more importantly, in the maintenance of the immune response.     

Regulation of immune responses. II. The cellular basis of cyclic AMP effects on humoral immunity.

DbcAMP, when added at 10^?3M for the first 12 hr, can increase the number of AFC to SRBC (a TD antigen) and POL (a TI antigen) in antigen-stimulated CBA/ J spleen cell cultures. The cellular basis of dbcAMP action was therefore investigated. It was found that dbcAMP does not act by a direct B cell effect. It also does not stimulate the activity of T helper cells, and it inhibits the function of macrophages. The stimulatory activity of dbcAMP to anti-SRBC and anti-POL responses is through inhibition of a θ-bearing regulator (or suppressor) cell. Removal of T cells by anti-θ treatment has the same effect on the anti-POL response as treatment with dbcAMP. Furthermore, in the absence of T cells, the enhanced anti-POL response was insensitive of dbcAMP treatment. The data also support the hypothesis that the number of anti-SRBC AFC formed is regulated by the ratio of T helper to T regulator cells.     

Characteristics of protective immunity in mice induced by drug-attenuated larvae of Schistosoma mansoni. Antigen localization and antibody responses

Partial resistance to reinfection developed in mice with immature infections of Schistosoma mansoni treated with the drug Ro11-3128, whereas mice vaccinated with irradiated cercariae and treated in a similar way did not become immune. Persistence of drug-treated parasites in the skin and draining lymph nodes, which prolonged the opportunity for efficient Ag presentation, was necessary for the development of protective immunity. Death and clearance of parasites solely in the skin, was not sufficient to induce protection. The expansion in the number of lymphocytes in the skin-draining nodes after vaccination, was reflected in the contrasting levels of resistance induced by the different drug-treatment regimes. Challenge parasites were eliminated predominantly after they reached the lungs. An investigation of antibody reactivity revealed an immunodominant response against a doublet of Ag of Mr 97 to 99 kDa. Recognition of this complex by antisera from different groups of mice was not related to their immune status. Western blots and inhibition analysis showed that this doublet has epitopes in common with the Sm97/paramyosin protective Ag, originally identified by antisera reactivity from mice immunized with a nonliving vaccine.