Identification of Schistosoma mansoni glycoproteins recognized by protective antibodies from mice immunized with irradiated cercariae

The humoral immune responses of mice patently infected with Schistosoma mansoni and of mice vaccinated with radiation-attenuated cercariae were compared by radioimmunoassays and one- and two-dimensional polyacrylamide gel analyses of radioimmunoprecipitates. The binding observed with antibodies of mice vaccinated twice with radiation-attenuated cercariae over a period of 7 to 11 wk was less than 50% of the binding observed with antibodies of mice patently infected for 20 wk, but three to four times greater than that obtained with antibodies of mice infected for 6 wk, irrespective of whether the test antigen extracts were derived from schistosomula or adult worms. Sera of vaccinated mice precipitated a restricted number of predominantly high m.w. glycoproteins of both schistosomula and adult worms metabolically labeled with [35S] methionine. Each of the glycoproteins of 36 hr in vitro-cultured schistosomula that was precipitated by the sera of vaccinated mice was also precipitated by sera of infected mice. In contrast, sera of vaccinated mice uniquely precipitated a 38,000 m.w. glycoprotein of schistosomula cultured for 5 days and a 94,000 m.w. glycoprotein of adult male worms. Although radiation-attenuated larvae do not reach the adult stage, mice vaccinated with these still elicit a strong immune response against egg glycoproteins. In particular, an egg glycoprotein of 85,000 to 70,000 and isoelectric point of 4.8 showed an enhanced reactivity with sera of vaccinated mice in comparison with infected mice. These results show that the antibody response in mice vaccinated with radiation-attenuated larvae differs qualitatively and quantitatively from that of infected mice.     

Evaluation of lung recovery assay for schistosomula in mice immunized with x-irradiated cercariae of Schistosoma mansoni.

The lung recovery assay for schistosomula has recently been used as a rapid method for measuring the state of immunity of a challenged animal. Its merit rests on the fact that the peak day of schistosomular recovery in the lungs of both normal and immune hosts falls on the same day and the degree of immunity can be measured by the percent of schistosomular recovery on this particular day. An evaluation of this method for mice immunized with highly X-irradiated cercariae of Schistosoma mansoni was made. The results indicate that in the immunized mice the peak day for the schistosomular recovery was delayed and the number of schistosomula recovered on the peak day was decreased. The delay of the peak day was increased by the degree of host immunity, so its identification for a host of an unknown immunologic status was not a simple matter. In addition, this method measured only the immune effect which took place in the skin and on prepeak days in the lungs. It was not as competent as the conventional liver perfusion method which measures the total result of the immune effect of the skin, lungs, and liver. Our conclusion is that for measuring the immunizing effect of irradiated cercariae, the lung recovery method is not suitable for the determination of the state of immunity induced.     

Schistosoma mansoni polypeptides immunogenic in mice vaccinated with radiation-attenuated cercariae

We compared the humoral immune response of mice protected against Schistosoma mansoni by vaccination with radiation-attenuated cercariae to that of patently infected mice, and we identified antigens that elicit a greater, or unique, immune response in the vaccinated mice. These comparisons were based upon radioimmunoprecipitations and immunodepletion of [35S]methionine-labeled schistosomular and adult worm polypeptides, followed by one- and two-dimensional polyacrylamide gel analyses. The humoral responses of patently infected mice and of mice vaccinated once were remarkably similar and were directed against schistosome glycoproteins ranging in molecular size from greater than 300 to less than 10 kDa. Exposing mice to a second vaccination resulted in a marked change in the immune response, to one predominantly directed toward high molecular size glycoproteins. Sequential immunodepletion techniques identified five schistosomular and seven adult worm antigens that showed a greater or unique immunogenicity in vaccinated mice as compared with patently infected mice. These adult worm antigens were purified by preparative sequential immunoaffinity chromatography and used to prepare a polyclonal antiserum, anti-irradiated vaccine. This antiserum bound to the surface of live newly transformed and lung-stage schistosomula, as assessed by immunofluorescence assays, and was reactive with a number of 125I-labeled schistosomular surface polypeptides, including a doublet of 150 kDa that was also recognized by sera of vaccinated mice but not by sera of patently infected mice.     

T cell-derived cytokines associated with pulmonary immune mechanisms in mice vaccinated with irradiated cercariae of Schistosoma mansoni.

In C57Bl/6 strain mice vaccinated with attenuated cercariae of Schistosoma mansoni, the major site of immune elimination of normal challenge parasites is the lungs. The immune effector mechanism involves formation of focal inflammatory responses; the abundance of CD4+ T cells and the activation of alveolar macrophages suggests a role for inflammatory cytokines. We report the profile of cytokines produced by cultures of leukocytes recovered by bronchoalveolar lavage (BAL) from the lungs of vaccinated and challenged mice. From 14 days after vaccination, BAL cultures contained infiltrating lymphocytes that produced abundant quantities of IFN-gamma and IL-3 on stimulation with larval Ag. Production declined from day 21 although the infiltrate of lymphocytes persisted. Challenge of vaccinated mice resulted in a second influx of IFN-gamma and IL-3-producing cells, earlier than after vaccination or in the appropriate controls. Ablation studies revealed that CD4+ T cells were essential for the production of IFN-gamma. The timing of cytokine production after vaccination, and challenge was coincident with the phases of macrophage activation previously reported. At no time could lymphocytes in BAL cultures be stimulated to proliferate with either larval Ag or mitogen, in contrast to splenocytes from the same mice. Furthermore, T cell growth factor activity was not detected in BAL cultures stimulated with Ag. We suggest that the lymphocytes recruited to the lungs are memory/effector cells. When Ag released from challenge schistosomula is presented to these cells, they respond by secreting cytokines that mediate the formation of cellular aggregates around the parasites, blocking their onward migration.     

Pulmonary leukocytic responses are linked to the acquired immunity of mice vaccinated with irradiated cercariae of Schistosoma mansoni

Pulmonary cellular responses in C57BL/6 mice exposed to Schistosoma mansoni have been investigated by sampling cells from the respiratory airways with bronchoalveolar lavage. Mice exposed to cercariae attenuated with 20 krad gamma-radiation developed stronger and more persistent pulmonary leukocytic responses than animals exposed to equal numbers of normal parasites. Although vaccination with irradiated cercariae also stimulated T cell responses of greater magnitude and duration than normal infection, the lymphocytic infiltrate elicited by each regimen did not differ substantially in its composition, 5 wk after exposure. Studies with cercariae attenuated by different treatments established that a link exists between the recruitment of leukocytes to the lungs of vaccinated mice and resistance to reinfection. There was a strong association between pulmonary leukocytic responses and the elimination of challenge infections by vaccinated mice. Animals exposed to irradiated cercariae of S. mansoni were resistant to homologous challenge infection but were not protected against Schistosoma margrebowiei. Homologous challenge of vaccinated mice stimulated anamnestic leukocytic and T lymphocytic responses in the lungs, 2 wk postinfection, but exposure of immunized animals to the heterologous species failed to trigger an expansion in these populations of cells. Our studies indicate that pulmonary leukocytes and T lymphocytes are intimately involved in the mechanism of vaccine-induced resistance to S. mansoni. It remains unclear whether these populations of cells initiate protective inflammatory reactions against challenge parasites in the lungs, or accumulate in response to the activation of the protective mechanism by other means.     

Schistosoma mansoni: The attrition of a challenge infection in mice immunized with highly irradiated live cercariae

Mice immunized percutaneously with 400 Schistosoma mansoni cercariae given 20 kR of ⁶⁰Co irradiation were shown to develop an immunity in which nearly 80% of the parasites that would be expected to survive in control mice were killed. The major attrition of parasites was shown to occur within the first 4 days after challenge. Marked differences in the number of parasites which were recovered from the skin of immune mice and the failure of the majority of parasites to reach the lungs of immune mice indicated that the major site of attrition was in the skin. A further trickle of parasite deaths was evident beyond Day 5, but after Day 14 no further attrition of parasites appeared to occur. Mice immunized in the abdominal skin demonstrated similar levels of immunity whether challenged in the abdominal skin or in the ear. Immunization intramuscularly with irradiated schistosomula induced a much lower level of resistance and the marked parasite attrition in the skin at Day 2 was absent. Immunization with only 50 irradiated cercariae was shown to induce a level of skin immunity equivalent to that seen with 400 irradiated cercariae. The majority of cercariae given 20 kR of ⁶⁰Co irradiation remained in the skin; approximately 2% only reached the lungs. These studies demonstrate that percutaneous immunization of mice with highly irradiated cercariae induced a strong immunity which was largely effective in the skin. This immunity differed from that developed by chronically infected mice where the major attrition of parasites occurs after the lung phase of migration. The results also suggest that the penetration or persistence in the skin of live attenuated schistosomula may play a crucial role in the induction of a high level of skin immunity.     

The ability of fractionated sera from animals vaccinated with irradiated cercariae of Schistosoma mansoni to transfer immunity to mice

To study the role of IgG and IgM isotypes found in sera of mice or rabbits immunized with irradiated cercariae in schistosome immunity, the respective sera were fractionated by protein A chromatography. Both the protein A-bound and unbound fractions of vaccinated mouse serum (VMS) showed reactivities in ELISA assay using NP-40 membrane extracts of 3-hr schistosomula as antigens and in indirect immunofluorescence assay (IIF) using live 3-hr schistosomula. Both the protein A-bound and unbound fractions possessed high levels (84% and 76%, respectively) of complement-mediated cytotoxicity against schistosomula in vitro. The IgG- and IgM-containing fractions each conferred passive protection (30% and 20%) against challenge infection, although at a lower level when compared to unfractionated VMS (42%). These data demonstrate that in the mouse model both IgG and IgM can recognize epitopes on the surface of schistosomula, mediate cytotoxicity in vitro, and provide passive protection in vivo. Similarly, the protein A-bound and unbound fractions of vaccinated rabbit serum (VRS) were also shown to be positive in ELISA and IIF. The IgG- and IgM-containing fractions each possessed high levels (95% and 85%, respectively) of complement-dependent cytotoxicity against schistosomula in vitro. In contrast to VMS fractions, the IgG fraction of VRS conferred a similar level (28%) of in vivo protection as unfractionated VRS when injected into mice no later than 6 days after challenge. Moreover, the IgG fraction of VRS was still able to provide passive protection to mice when given as late as 15 days postinfection, but failed to confer protection when injected at 24 or 35 days postinfection.(ABSTRACT TRUNCATED AT 250 WORDS)     

Schistosoma mansoni: vaccination of mice with cryopreserved irradiated schistosomules.

In our earlier experiments, NIH/Nmri (CV) mice developed protective immunity to a Schistosoma mansoni cercarial challenge when previously exposed percutaneously to highly ⁶⁰Co-irradiated homologous cercariae. Experiments reported here were conducted to assess the immunogenicity of unfrozen and frozen and thawed schistosomules derived from ⁶⁰Co-irradiated cercariae (irradiated schistosomules). Immunization of NIH/Nmri (CV) mice by ⁶⁰Co-irradiated unfrozen schistosomules reduced worm burdens from a subsequent percutaneous challenge with normal cercariae by 41 to 72%. Immunogenicity was not narrowly dependent on irradiation dose rates between 1 and 8 kR/min, or on the total dose of irradiation given the schistosomules between 25 and 50 kR. Comparable protective immunity developed after injection of irradiated schistosomules which had been frozen to ?196 C in liquid nitrogen and thawed. Cryopreservation appears to offer a solution to the problem of storage of attenuated, immunogenic S. mansoni schistosomules.     

Ultraviolet disinfection of Schistosoma mansoni cercariae in water

BackgroundSchistosomiasis is a parasitic disease that is transmitted by skin contact with waterborne schistosome cercariae. Mass drug administration with praziquantel is an effective control method, but it cannot prevent reinfection if contact with cercariae infested water continues. Providing safe water for contact activities such as laundry and bathing can help to reduce transmission. In this study we examine the direct effect of UV light on Schistosoma mansoni cercariae using ultraviolet light-emitting diodes (UV LEDs) and a low-pressure (LP) mercury arc discharge lamp.MethodologyS. mansoni cercariae were exposed to UV light at four peak wavelengths: 255 nm, 265 nm, 285 nm (UV LEDs), and 253.7 nm (LP lamp) using bench scale collimated beam apparatus. The UV fluence ranged from 0–300 mJ/cm² at each wavelength. Cercariae were studied under a stereo-microscope at 0, 60, and 180 minutes post-exposure and the viability of cercariae was determined by assessing their motility and morphology.ConclusionVery high UV fluences were required to kill S. mansoni cercariae, when compared to most other waterborne pathogens. At 265 nm a fluence of 247 mJ/cm² (95% confidence interval (CI): 234–261 mJ/cm²) was required to achieve a 1-log₁₀ reduction at 0 minutes post-exposure. Cercariae were visibly damaged at lower fluences, and the log reduction increased with time post-exposure at all wavelengths. Fluences of 127 mJ/cm² (95% CI: 111–146 mJ/cm²) and 99 mJ/cm² (95% CI: 85–113 mJ/cm²) were required to achieve a 1-log₁₀ reduction at 60 and 180 minutes post-exposure at 265 nm. At 0 minutes post-exposure 285 nm was slightly less effective, but there was no statistical difference between 265 nm and 285 nm after 60 minutes. The least effective wavelengths were 255 nm and 253.7 nm. Due to the high fluences required, UV disinfection is unlikely to be an energy- or cost-efficient water treatment method against schistosome cercariae when compared to other methods such as chlorination, unless it can be demonstrated that UV-damaged cercariae are non-infective using alternative assay methods or there are improvements in UV LED technology.     

Schistosoma mansoni: eicosanoid production by cercariae

Cercariae of Schistosoma mansoni are stimulated to penetrate skin by certain free fatty acids. The cercariae have an active arachidonate cascade, presumably using host skin essential fatty acids as cascade precursors. Exposing cercariae to 3.3 mM linoleate for 1, 10, and 60 min resulted in production of a wide variety of eicosanoids. Using high-performance liquid chromatography, eicosanoids coeluting with prostaglandin E2, D2, and A2, leukotriene B4, and 5-hydroxyeicosatetraenoic acid standards were identified, as well as unidentified peak positions. Radioimmunoassay confirmed the presence of immunoreactive prostaglandin E1, and E2, and 5- and 15-hydroxyeicosatetraenoic acids in cercarial extracts. No eicosanoid production occurred when cercariae were exposed to 3.3 mM oleate and 1 or 330 microM linoleate. Both high-performance liquid chromatography and radioimmunoassay data indicated that cercariae regulate the production of eicosanoids through time. It is postulated that arachidonate metabolism and subsequent eicosanoid production are required for successful cercarial penetration.