Functional analysis of a T cell line specific for antiidiotypic antibodies to a Schistosoma mansoni protective epitope. II. Induction of protective immunity in experimental rat schistosomiasis.

In our previous work on the idiotypic network in the rat model of schistosomiasis we showed that immunization with an IgE mAb specific for 26/56-kDa parasitic Ag resulted in the production of anti-anti-Id antibodies of both the IgG and IgE classes. Further studies demonstrated that anti-Ab2 T cell lines, obtained by immunization with Ab2 antibodies, functioned as conventional Th cells; they were MHC-restricted and required APC to proliferate in the presence of the native schistosomula Ag and the Ab2 antibodies. We report the involvement of these anti-Ab2 cells in the regulation of protective immunity. The transfer of long term culture anti-Ab2 T cell lines into LOU/M rats, followed by a challenge infection by Schistosoma mansoni 1 day after the cell transfer led to a slight increase in the worm burden. On the contrary, the transfer of anti-Ab2 T cells 90 days before S. mansoni infection induced a significant reduction of the worm burden (up to 57%). T cells recovered from the protected rats were stimulated by the native schistosomula Ag as well as by tryptic fragments of IgG isolated from the Ab2 sera, in the presence of irradiated thymic cells as APC. We also analyzed the humoral response developed by the rats after transfer with the anti-Ab2 T cell lines. The sera induced various inflammatory cells into cytotoxic effectors against the larvae of S. mansoni, arguing for the presence of functional IgE in the sera. Moreover, when these sera were passively transferred into rats infected 1 day later, a significant reduction of the worm burden was observed. However, antibody-dependent cytotoxic mechanisms efficient 10 days after the anti-Ab2 T cell transfer did not correlate with the protective immunity which required a 90-day delay to be established. These data suggest that the protective immunity induced by the anti-Ab2 cells is supported both by the cellular and humoral components and that in a future vaccinating strategy the idiotypic network may play a crucial role.     

Functional properties of a rat monoclonal IgE antibody specific for Schistosoma mansoni

A rat monoclonal antibody of IgE isotype (B48-14) raised against Schistosoma mansoni has been generated by the fusion of mesenteric lymph node cells from LOU/M rats immunized with a preparation of adult schistosome worms and IR973F nonsecreting rat myeloma cells. Investigation of the in vitro effector functions of this IgE antibody showed a high level of cytotoxicity against S. mansoni schistosomula in the presence of eosinophils, macrophages, and platelets. A significant level of protection (40 to 60%) against a challenge infection with S. mansoni cercariae was achieved by passive transfer experiment of B48-14 IgE to naive recipient rats. By immunoprecipitation, B48-14 IgE antibodies were shown to react with an antigen of 26 kDa present in excretion-secretion products of schistosomula, previously described as a potential immunogen eliciting a protective IgE response against schistosomiasis.     

Role of antigen-specific T cell help in the generation of in vivo antibody responses. II. Sustained antigen-specific T cell help is required to induce a specific antibody response.

The injection of mice with a goat or rabbit antibody to mouse IgD stimulates a large polyclonal IgG response, approximately 10% of which is specific for antigenic determinants on the anti-IgD antibody molecule. The large goat IgG (GIgG)-specific antibody response in mice injected with goat antibody to mouse IgD requires that GIgG-specific B cells undergo much greater clonal expansion than B cells specific for other Ag. One possible explanation for the greater clonal expansion of GIgG-specific B cells is that B cells that lack GIgG specificity can only be stimulated with GIgG-specific T help during the relatively short time that anti-IgD binds to, and is processed and presented by, these B cells before they cease to express membrane mIgD. In contrast, GIgG-specific B cells can continue to bind, process, and present GIgG through mIgM after they lose mIgD. To test the hypothesis that extended stimulation with Ag-specific T help is required to generate a specific antibody response, we determined time requirements for Ag-specific T cell help for the development of such a response. Mice were injected with rabbit antibody to mouse IgD plus one or more daily injections of FITC conjugated to a F(ab')2 fragment of rabbit IgG (FITC-(Fab')2), which has a short in vivo half-life, and IgG1 anti-FITC antibody production was analyzed. In this system, each additional injection of FITC-F(ab')2 extends the period during which FITC-specific B cells can process this Ag and present it to rabbit IgG-specific T cells. Each additional injection of FITC-F(ab')2 stimulated a several-fold increase in IgG1 anti-FITC antibody levels, and injections on 5 consecutive days were required to induce a maximal anti-FITC response. These observations provide evidence that sustained Ag-specific T cell help is required to stimulate the degree of B cell clonal expansion that characterizes a specific antibody response.     

Specific Schistosoma mansoni rat T cell clones. I. Generation and functional analysis in vitro and in vivo

In an attempt to determine the role of schistosome-specific T cells in the immune mechanisms developed during schistosomiasis, Schistosoma mansoni-specific T cells and clones were generated in vitro and some of their functions analyzed in vitro and in vivo in the fischer rat model. The data presented here can be summarized as follows: a) Lymph node cells (LNC) from rats primed with the excretory/secretory antigens-incubation products (IPSm) of adult worms proliferate in vitro only in response to the homologous schistosome antigens and not to unrelated antigens (Ag) such as ovalbumin (OVA) or Dipetalonema viteae and Fasciola hepatica parasite extracts. b) After in vitro restimulation of the primed LNC population with IPSm in the presence of antigen-presenting cells (APC) and maintenance in IL 2-containing medium, the frequency of IPSm-specific T cells is increased and the T cells can be restimulated only in the presence of APC possessing the same major histocompatibility complex (MHC) antigens. c) Following appropriate limiting dilution assays (LDA) (1 cell/well), 10 IPSm-specific T cell clones were obtained, and two of four maintained in culture were tested for their helper activity because they expressed only the W3/13+ W3/25+ surface phenotypes. d) The two highly proliferating IPSm-specific T cell clones (G5 and E23) exhibit an IPSm-dependent helper activity, as shown by the increase in IgG production by IPSm-primed B cells. e) IPSm-T cell clone (G5) as well as IPSm-T cell lines when injected in S. mansoni-infested rats can exert an in vivo helper activity, which is characterized by an accelerated production of IgG antibodies specific for the previously identified 30 to 40 kilodaltons (kd) schistosomula surface antigens (Ag). As recent studies have demonstrated that rat monoclonal antibodies recognize some incubation products of adult S. mansoni as well as one of the 30 to 40 kd schistosomula surface antigens, and taking into account the fact that the T cell clones here studied were restimulated either with IPSm or with schistosomulum Ag, it appears that such IPSm-specific T cell clones could be involved in the concomitant immunity mechanisms.     

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.     

Protective effects of anti-antiidiotypic IgE antibodies obtained from an IgE monoclonal antibody specific for a 26-kilodalton Schistosoma mansoni antigen

A rat IgE mAb specific for larval Ag (26 kDa, 56 kDa) has been shown to protect rats against Schistosoma mansoni infection. Immunizations of Lou/M rats performed with this IgE (Ab1) induced the production of antiidiotypic antibodies (Ab2). Moreover, after this Ab2 production, anti-antiidiotypic antibodies (Ab3) were revealed. The screening of Ab3 isotypes showed the presence of IgG Ab3 and more interestingly of IgE Ab3, i.e., the same isotype as Ab1. These IgE and IgG antibodies recognized predominantly the 26-kDa Ag and were cytotoxic for schistosomula in the presence of platelets for IgE Ab3 and eosinophils for IgG Ab3. Both IgE and IgG Ab3 conferred by passive transfer protective immunity to infected rats (up to 50%). Thus the immunization with an IgE mAb led in part to the production of Ab3 of the same isotype as Ab1. In conclusion, these results suggest that the isotype selection of the antibodies of the third generation (Ab3) might be influenced by the Ab1. The respective role of the idiotope and isotype of Ab1 in isotype regulation is discussed.     

T and B cell epitope mapping of SM23, an integral membrane protein of Schistosoma mansoni.

SM23 is an integral membrane protein of the blood-vessel dwelling parasitic worm Schistosoma mansoni. This protein has been detected with antibodies in all stages of the parasite found in the human host, notably the lung stage, and therefore is of interest as a vaccine candidate. In addition SM23 has been shown to be a member of a proposed new superfamily of membrane proteins whose structures do not conform to the previously known classifications. To date there are 13 members including ME491 (CD63, Pltgp40), CD9 (p23), TAPA-1, CD37, CD53, MRC OX-44, CO-029, MRP-1, L6, the gene product of TI-1, the target of mAb AD-1, SM23, and SJ23 (the Schistosoma japonicum homologue). Most of these molecules except for those in the two blood vessel-dwelling parasites are found in membranes of hemopoietic and/or malignant cells and all have unknown function. In this study we used recombinantly expressed full-length and partial molecules as well as synthesized peptides to map T cell and B cell epitopes of SM23. The two predicted external hydrophilic domains were found to be highly immunogenic and contained several B cell epitopes. There were at least four T cell epitopes in the large hydrophilic domain. One segment of 23 amino acids contained both a T cell and B cell epitope as well as the putative glycosylation site. This particular segment was recognized by immune sera and cells of every mouse strain tested. The elucidation of these epitopes demonstrates the immunogenic nature of this molecule and raises questions as to the role of SM23 in the host/parasite relationship.     

Unusually diverse T cell response to a repeating tripeptide epitope.

The immune system utilizes a diverse T cell repertoire for the recognition of foreign antigens in the context of self MHC gene products. We have examined the potential diversity of the T cell response directed to a immunodominant repeating tripeptide epitope (EYA)5. This peptide represents one of the two T cell epitopes on the synthetic alpha-helical polypeptide antigen Poly 18, Poly EYK(EYA)5 in H-2d mice and does not require antigen processing prior to presentation to Poly 18-specific T cell hybridomas. The T cell response directed to the repeating tripeptide epitope (EYA)5 is extremely heterogenous even though the epitope has a relatively simple amino acid sequence. We have analyzed the fine specificity of 21 randomly chosen Poly 18-reactive, (EYA)5-specific and H-2d-restricted T cell hybridomas derived from H-2d, H-2bxd, and H-2b----H-2bxd Poly 18-responding mice to determine the number of unique antigen reactivity patterns represented by this T cell population. We used alanine- and/or lysine-substituted (EYA)5 peptides and a panel of haplotype-varied splenocytes and observed a great deal of microheterogeneity in response. We find that 13 of the 21 hybridomas have a distinct fine antigen specificity and T cell receptors. The binding of (EYA)5 to the antigen-binding groove of I-Ad appears to generate a highly diversified T cell response. Therefore, (EYA)5-I-Ad complex allows the activation of unrelated T cell clonotypes with the same overall antigen specificity and MHC restriction, but with distinct microheterogeneity in response and receptor usage.     

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

Inbred P4 strain mice have previously been shown to be uniquely defective in their resistance to challenge infection induced by irradiated cercariae of Schistosoma mansoni. To assess whether the low levels of resistance developed by vaccinated P mice could be due to a defective antibody response, we compared the anti-schistosomulum antibody responses in vaccinated P animals with those occurring in vaccinated C57BL/6J (B6) mice, a strain that consistently develops high levels of resistance to challenge infection. Our results indicate that vaccinated P mice develop levels of total anti-schistosomulum antibodies that are significantly lower than those occurring in B6 mice for at least 15 wk after immunization, with the exception of the fifth week, at which time the responses are indistinguishable. Further analysis revealed that the defect in P strain antibody response occurs specifically in the IgM isotype and that specific IgM levels in P mice are less than one-half the levels in B6 mice at every time point examined. In contrast, no differences in total IgM immunoglobulins were evident when sera from normal (nonvaccinated) P and B6 mice were compared. P mouse anti-schistosomulum IgG antibody responses reached the same levels as those observed in B6 mice by 5 wk after vaccination. However, a much faster decay in IgG antibody levels occurred after this time point in P animals. No differences were observed when the levels of anti-schistosomulum antibodies occurring in each of the major IgG isotypes (IgG1, IgG2a, IgG2b, IgG3) were compared in sera from P and B6 mice vaccinated 4 wk previously. Similarly, vaccinated P and B6 mice were found to mount indistinguishable IgG anamnestic responses after challenge infection. Finally, no differences between vaccinated P and B6 mice were observed when immediate (30 min) skin test and mast cell degranulation responses to a soluble schistosome antigenic preparation were compared. The above findings suggest that P strain mice have a specific defect in their ability to mount IgM antibody responses after immunization with irradiated cercariae. The possible contribution of this defect in IgM response to the decreased resistance of vaccinated P mice to challenge infection is discussed.     

In vitro antibody response to influenza virus. I. T cell dependence of secondary response to hemagglutinin.

A good secondary IgG response to the hemagglutinin (HA) of influenza virus has been obtained in vitro in Marbrook-type cultures of influenza-primed mouse spleen cell suspensions stimulated with inactivated influenza virus. Anti-HA antibody was quantitated by a solid phase radioimmunoassay (RIA) by using purified HA as substrate. The T dependence of this secondary response was shown by depletion of T cells and reconstitution with a source of primed or unprimed T cells. The help given by T cells primed to the homologous virus was many times greater than that given by unprimed T cells, although the latter was significant. The system described will allow investigation of the specificity requirements of helper T cells engaged in the anti-HA response.     

Establishment of a human T cell hybridoma cell line producing suppressor factor specific for anti-thyroglobulin antibody production

Thyroglobulin (Tg)-binding peripheral blood T cells from a normal individual were fused with a T cell leukemia cell line (Jurkat-AG9) treated by emetine and actinomycin D. Several cell lines were established from thus-prepared human T cell hybridomas. The culture supernatant from one of these lines (Tg-Ts47) whose phenotype was OKT3- 11+ 4+ 8- suppressed the generation of Tg-specific antibody-forming cells from the lymphocytes of patients with Hashimotos' chronic thyroiditis, but not anti-SRBC and anti-ovalbumin antibody production from both autologous and patient lymphocytes. Tg-Ts47-derived factors also bore Tg antigen-binding sites. The suppressive activity of the supernatants was shown in almost all patients lymphocytes tested. This indicated that the supernatants of Tg-Ts47 line contain a suppressive factor specific for Tg antigen and capable of acting across allogeneic barriers.     

Priming with T helper cell epitope peptides enhances the antibody response to the envelope glycoprotein of HIV-1 in primates.

The induction of a memory immune response to HIV, mediated by any kind of effector mechanism, requires the induction of T cell help. In previous studies performed in different murine MHC haplotypes, three immunodominant T cell epitopes (T1, T2, and TH4.1) had been identified in the HIV envelope glycoprotein. Moreover, these peptides were proliferative T cell epitopes in humans. In this study, rhesus monkeys, Macaca mulatta, were primed with these three peptides either in combination or given separately. Half of the monkeys had a proliferative response to one or more of the priming peptide(s). Those monkeys who had a T cell proliferative response also had a high antibody response after one boost with a suboptimal dose of the native protein gp 160, whereas three of four control monkeys who had received only the native protein immunization gave no detectable antibody response, and one displayed a very weak response. For reasons that are unclear, antibodies only to the gp41 portion of gp 160 could be detected in the sera. Thus, the peptides can prime Th cells in primates for an enhanced antibody response on first exposure to the whole protein. The three peptides belong to highly conserved and nonglycosylated regions of the envelope protein. The fact that the peptides acted as immunogenic T cell proliferative and helper epitopes in nonhuman primates is very encouraging for including them in future vaccine studies in humans.     

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.     

Chronic relapsing experimental allergic encephalomyelitis. Cytotoxicity effected by a class II restricted T cell line specific for an encephalitogenic epitope

We have examined the possibility that Ag-specific CTL responses may play a role in the pathogenesis of CREAE by using an effector T cell line (LN400) specifically reactive to the SJL encephalitogenic epitope defined by myelin basic protein MBP residues(90-101). The LN400 cell line was capable of adoptively transferring CREAE to naive SJL mice and proliferated specifically to synthetic peptides corresponding to MBP residues(90-101) and an N-acetylated analogue of this epitope, as well as MBP. Moreover, the cell line generated Ag-specific CTL responses only against syngeneic targets that had been pulsed with these Ag. Targets pulsed with irrelevant Ag were not lysed. These CTL responses were MHC restricted to H-2s and were inhibited if targets were preincubated with mAb specific for relevant class II Ag. No inhibition was seen if targets were preincubated with mAb specific for class I Ag, indicating that the CTL responses generated by this L3T4+ Lyt-2.2- cell lines were class II restricted. Studies designed to detect nonspecific CTL through a bystander mechanism failed to demonstrate significant lysis of bystander targets by this Ag-specific cell line. These findings have relevance in defining potential mechanisms of disease induction in this model autoimmune disease.     

Role of antigen-specific T cell help in the generation of in vivo antibody responses. I. Antigen-specific T cell help is required to generate a polyclonal IgG1 response in anti-IgD antibody-injected mice.

A system in which injection of mice with an antibody to mouse IgD that they recognize as foreign stimulates a large, T cell-dependent IgG response was used to study whether Ag-specific T cell help is required to stimulate polyclonal (non-Ag-specific) IgG production in vivo. Igha x Ighb allotype heterozygous mice were injected with a conjugate of a foreign Ag coupled to a mAb specific for one of the two IgD allotypes expressed in these mice. This conjugate cross-links mIgD on B cells that express the recognized allotype. These cells process the conjugate and present the foreign Ag to Ag-specific T lymphocytes, which become activated. Thus, B cells of the recognized allotype can be stimulated by cross-linking of their mIgD, Ag-specific T cell help, non-Ag-specific cytokines, and non-Ag-specific contact with activated T cells. In contrast, B cells that express the Igh allotype not recognized by the Ag-anti-IgD antibody conjugate (bystander B cells) can be stimulated in this system only by non-Ag-specific cytokines and non-Ag-specific contact with activated T cells. Although both recognized and bystander B cells in conjugate-injected mice demonstrated substantial increases in size and Ia expression, only the recognized B cells were induced to synthesize DNA and to make a substantial polyclonal Ig response. Bystander B cells still failed to secrete IgG when mice were injected with an anti-IgD-Ag conjugate specific for the other Igh allotype as well as a mAb that cross-linked IgD of the bystander B cell allotype. These observations demonstrate that although non-Ag-specific cytokine and contact-mediated T cell help are sufficient to induce B cells to increase in size and Ia expression in anti-IgD antibody-injected mice, Ag-specific T cell help is required to stimulate the generation of an IgG response in these mice.     

Human T cell epitope mapping of the Schistosoma mansoni 14-kDa fatty acid-binding protein using cells from patients living in areas endemic for schistosomiasis

The development of a defined anti-schistosomiasis vaccine would contribute to the current control strategy mainly because immunization provides long-lasting immunity to the disease. Sm14, one of the six Schistosoma mansoni antigens selected by WHO as a candidate to compose a subunit vaccine against schistosomiasis, has been associated with resistance to S. mansoni infection in human beings and is able to induce protection in the murine model. To identify human T cell epitopes in Sm14, we used the TEPITOPE algorithm to select peptides that would most likely bind to several HLA-DR molecules. In this study, three Sm14 epitopes were selected and produced as synthetic peptides. Human T cell responses from schistosomiasis patients living in endemic areas in Brazil were determined by proliferation assay and IL-5 and IFN-gamma measurements. Differential peptide recognition and cytokine production in response to Sm14 epitopes were observed in individuals resistant to S. mansoni infection versus susceptible individuals. Sm14(32-48) and Sm14(53-69) peptides were preferentially recognized by peripheral blood mononuclear cells (PBMCs) of S. mansoni-resistant individuals, and Sm14(53-69) induced significant production of IFN-gamma. Additionally, Sm14(32-48) and Sm14(53-69) were "promiscuous" peptides, since they were able to induce cellular immune responses in individuals carrying 10 and 8, respectively, of the 11 HLA-DR molecules expressed in the studied population. Among Sm14 synthetic peptides tested in this study, we identified Sm14(32-48) and Sm14(53-69) as promising candidates to compose an anti-schistosomiasis vaccine, since they seem to be related to resistance to human schistosomiasis.     

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.     

The cellular and humoral immune response to Schistosoma mansoni infections in inbred rats. V. Prerequisite mechanisms for the development of optimal protective immunity.

The mechanisms whereby natural infection or artificial immunization lead to the development of optimal protective immunity against reinfection by homologous Schistosoma mansoni were investigated. Animals, exposed to normal or irradiated cercariae, demonstrated strong resistance to reinfection by S. mansoni. They also developed a population of T lymphocytes, which could adoptively transfer resistance in vivo and specifically interact with immunogen in vitro. Subsequently these animals produced antibody capable of adoptively transferring resistance and possessing a variety of antischistosomal activities. Animals exposed to soluble cercarial immunogen demonstrated moderate resistance upon reexposure. They failed to produce a significant population of sensitized T lymphocytes. Moreover, although these animals produced unimpaired levels of cytotoxic, complement-fixing, and hemagglutinating antibody, their sera did not adoptively transfer resistance. Adult worm and egg immunogens were even less effective than cercarial immunogen in stimulating resistance. In addition, these membrane-derived immunogens directly stimulated B-lymphocyte blastogenesis in vitro. These studies suggest that the optimal production of protective immunity requires the stimulation of T-dependent mechanisms by stage-specific immunogens. This stimulation is produced more effectively by the use of natural infection or irradiated cercariae than by the use of soluble schistosome immunogens which may be working through relatively T-independent mechanisms.