Immunization of mice with gamma-irradiated intramuscularly injected schistosomula of Schistosoma mansoni

The parameters involved in the induction of resistance against Schistosoma mansoni by injection of irradiated, artificially transformed schistosomula were studied in mice. Single intramuscular injections of 500 schistosomula exposed to radiation doses in the range 2.3 to 160 krad. resulted in significant protection (in the range 20 to 50% as assessed by reduced worm burdens) against a challenge infection administered at intervals from 3 to 24 weeks post-vaccination. However, schistosomula irradiated with 20 krad. consistently resulted in better protection than those exposed to either higher or lower radiation doses despite the persistence of stunted adults from the infections irradiated with 2.3 krad. Vaccination with 40 krad. schistosomula resulted in significant protection in terms of reduced worm and tissue egg burdens and increased survival following lethal challenge. Varying the number of irradiated schistosomula, the frequency and route of their administration, the site of challenge and the strain of host all failed to enhance the level of resistance. However, percutaneously applied, irradiated cercariae were found to be more effective in stimulating resistance (60%) than intramuscularly injected, irradiated schistosomula (40%).     

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.     

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.     

Schistosoma mansoni: Interactive effects of irradiation and cryopreservation on parasite maturation and immunization of mice

Mechanically transformed schistosomula of Schistosoma mansoni were irradiated with levels of ⁶⁰Co irradiation between 2.5 and 54 krad, cryopreserved by the two-step addition of ethanediol and rapid cooling technique, and were injected intramuscularly into groups of mice which were perfused 40 days later. The schistosomula were either irradiated and then cryopreserved (IC) or cryopreserved and then irradiated in the frozen state (CI). Development into adult worms was prevented with 4 krad for IC schistosomula, but for CI schistosomula a small number of worms (1.6%) was recovered using 8.8 krad. A dose of 4 krad was sufficient to prevent development of unfrozen controls (I), but for schistosomula irradiated while exposed to ethanediol (EI), a dose of 7 krad was required. Using the different protocols, the peak levels of protection against a challenge infection were achieved with 9 (IC) and 16 krad (CI), compared to 20 krad for unfrozen schistosomula (I) reported previously. The highest level of protection (65%) was achieved with CI schistosomula. Possible interactions between the radioprotective and damaging effects of cryopreservation are discussed.     

Re-establishing a life cycle of Schistosoma mansoni from cryopreserved larvae

To study the feasibility of re-establishing a life cycle of Schistosoma mansoni (NMRI strain) from cryopreserved larvae, schistosomules were suspended in the cryoprotectant 1,2-ethanediol and cryopreserved in liquid nitrogen. Mice were injected intramuscularly with samples thawed after 3 days, 3 wk, or 6 mo in liquid nitrogen storage. Two to 5% of the cryopreserved larvae and approximately 18% of corresponding unfrozen control larvae developed into adult worms. Infectivity did not decrease as a function of storage time. The adult worms showed no structural damage or changes in overall size and morphology when examined by light and transmission electron microscopy. Female worms derived from cryopreserved larvae had the same or slightly elevated egg production as controls, but tissue egg distributions were comparable. Subsequent passages through Biomphalaria glabrata snails and mice revealed no difference in snail prepatent death rate, percentage of snails infected, cercarial production per snail, or cercarial infectivity.     

Fasciola hepatica: attempts to induce protection against infection in rats and mice by injection of excretory/secretory products of immature worms

In vitro excretory/secretory products of 4-week (immature) and 8-week-old (mature) Fasciola hepatica parasites, derived from rats, were injected together with adjuvant into naive rats and mice. Resistance to infection was assessed in rats by counting adults in the bile ducts at 9 weeks, or in mice by recording deaths after oral challenge with a high dose of viable metacercariae. Exposure of rats to excretory/secretory products of immature F. hepatica conferred a significant degree of resistance which was comparable to the level of resistance induced following oral administration of a low number of metacercariae. No protection against infection was seen in rats injected with excretory/secretory products from mature, bile duct-derived worms. In mice, no obvious mouse strain variation in susceptibility to first infection existed and hypothymic nude mice were as susceptible to infection as intact mice. As determined by protection against death, vaccination with excretory/secretory products derived from immature F. hepatica was without effect in mice. It is concluded that "host protective antigens", at least for rats, were present in the excretory/secretory products of immature F. hepatica larvae.     

Leishmania major: immune response in BALB/c mice immunized with stress-inducible protein 1 encapsulated in liposomes

Protection against leishmaniasis is depending upon generation of a Th1 type of immune response. Field trials of first generation Leishmania vaccine showed a limited efficacy even with multiple doses mainly due to lack of an appropriate adjuvant. In this study, susceptible BALB/c mice were immunized with rLmSTI1 encapsulated in liposomes to explore the extent of protection induced by Leishmania antigen encapsulated in the liposomes against challenge with Leishmania major. The results showed that s.c. immunization of BALB/c mice with liposomal rLmSTI1 induced a significant protection against challenge and a significant lower parasite burden in spleen up to 14 weeks after challenge. The protected animals showed a significantly smaller footpad thickness after challenge, and a higher level of anti-SLA IgG antibodies before and after challenge with a predominant IgG2a titer. The data supports the possibility of using liposomal Leishmania antigens as a vaccine.     

Ablation of eosinophil and IgE responses with anti-IL-5 or anti-IL-4 antibodies fails to affect immunity against Schistosoma mansoni in the mouse

To investigate the role of anaphylactic immune responses in protective immunity against schistosomiasis, mice vaccinated with irradiated cercariae of Schistosoma mansoni were treated with neutralizing mAb antibodies against either IL-5 or IL-4 before and during challenge infection. Anti-IL-5-treated vaccinated mice showed a complete ablation of circulating as well as tissue eosinophils present in inflammatory reactions to migrating schistosomula in the skin and lungs but nevertheless eliminated challenge infections as effectively as vaccinated animals treated with a control mAb. Similarly, treatment of vaccinated mice with an anti-IL-4 mAb markedly reduced serum IgE although failing to diminish immunity. The effect of anti-IL-5 mediated eosinophil depletion was also assessed in a second model in which resistance is induced by concomitant chronic infection. Again, normal, unaltered protection was observed in the absence of circulating and tissue eosinophils. In contrast to the above findings, treatment with anti-IFN-gamma was found to cause a partial depletion of immunity in vaccinated mice whereas, paradoxically, increasing the numbers of inflammatory reactions against invading schistosomula in the lungs. These observations argue against a requirement for either eosinophils or IgE in the anti-schistosome immunity induced by vaccination with irradiated cercariae or for eosinophils in the resistance resulting from previous infection in mice and support previous data suggesting a role for an IFN-gamma dependent cell-mediated effector mechanism in vaccine-induced resistance.     

Rodent malaria: BCG-induced protection and immunosuppression.

One dose of 10(7) viable units of Mycobacterium bovis, strain BCG, protected a significant number of Swiss mice from a primary challenge with 10(4) thoracic sporozoites of Plasmodium berghei. Immunization with irradiated sporozoites induced greater protection than that observed in BCG-treated with BCG and surviving a primary sporozoite challenge were not protected from rechallenge, whereas mice immunized with irradiated sporozoites and surviving initial challenge of sporozoites were solidly immune to further challenge. Immunizing mice with BCG and irradiated sporozoites simultaneously resulted in a synergistic effect of increased protection against a primary challenge of sporozoites only if the two immunogens were administered on the same day and if the mice were challenged 1 to 3 days later. Mice given BCG and irradiated sporozoites and surviving a primary challenge of sporozoites were unable to survive rechallenge. BCG given to mice previously immunized with irradiated sporozoites suppressed their protective immunity against sporozoite challenge.     

Efficacy of UV-irradiated larval vaccine of Ancylostoma ceylanicum (Looss, 1911) in golden hamsters (Mesocricetus auratus)

A vaccination trial in golden hamsters with UV-irradiated infective larvae of Ancylostoma ceylanicum was attempted. One oral vaccination of hamsters with 100 infective larvae irradiated by means of UV-tube (390 nm) at different time intervals induced the development of resistance. As the time exposure of irradiation was increased, there was a corresponding decrease in the subsequent worm establishment. A high level of protection afforded by larvae irradiated for 15 min UV-exposure was recorded giving 99.0% and 95.0% worm reduction against the challenge doses of 100 and 1000 normal larvae respectively. There was no marked difference in worm establishment in hamsters vaccinated either orally or subcutaneously, followed by oral challenge. In the vaccinated hamsters, the manifestations of resistance at 15 min UV-exposure were shown by marked reduction in worm establishment and highly reduced epg in pellets with significantly higher blood haemoglobin levels compared with those given normal larvae as vaccine and challenge controls.     

A plasmid encoding Japanese encephalitis virus PrM and E proteins elicits protective immunity in suckling mice

A plasmid encoding Japanese encephalitis virus (JEV) prM and E proteins was constructed, and its efficacy as a candidate vaccine against JEV was evaluated in suckling mice. Groups of 10 BALB/c mice (5-7 days old) were immunized twice via muscular injection with this DNA vaccine, an empty vector or PBS at an interval of 3 weeks, and were challenged with a lethal dose of JEV 3 weeks after the second inoculation. Both cellular and humoral immune responses were examined before the challenge. Two animals from each group were sacrificed to detect the JEV-specific cytotoxic T lymphocyte activity. JEV-specific lactate dehydrogenase release in the DNA vaccine, empty vector and PBS groups was 37.5%, 18% and 8.5% respectively. JEV-specific antibody was detected in 8 of 10 animals in DNA vaccine group with a geometrical mean titer of 1: 28.3. The pooled serum from the same group also showed a neutralizing activity. Six of 8 mice in the DNA vaccine group survived the challenge, with a protection rate of 75%, but all the mice died in the two control groups. These results show that this JEV prM and E DNA vaccine is immunogenic and protective against JEV infection in the mouse model.     

In vivo natural antitumor resistance against murine EL-4 lymphoma cells in lethally irradiated syngeneic C57Bl/6 mice

Natural resistance has been detected in lethally irradiated C57Bl/6 (B6) mice inoculated intravenously with the ascites form of a syngeneic B6 leukemia. EL-4 cells were injected into lethally irradiated (800 R) B6 mice and tumor cell proliferation was evaluated by 125IUdR uptake in different organs 4 days after the challenge. Differential growth of lymphoma cells was observed when young mice were injected as compared with older mice and when mice were treated with agents known to interfere with natural resistance (e.g., poly(I:C), FLV-P, carrageenan, cyclophosphamide, high doses of irradiated cells). Similar results were obtained by measuring rapid clearance of 125IUdR-labeled EL-4 cells from lungs of intact B6 mice. In vivo cold competition studies, employing EL-4 and several other tumor lines of the same or different haplotype, showed that only EL-4 and RBL-5 cells were capable of inhibiting syngeneic resistance against EL-4 tumor. On the contrary, YAC-1 lymphoma cells, the most susceptible target to natural killer-mediated cytotoxicity in vitro, did not compete. These results suggest that EL-4 cells express membrane determinants not detectable on normal H-2b parental bone marrow cells and are susceptible to natural resistance against hemopoietic tumor cells in lethally irradiated syngeneic B6 mice.     

In vivo effects of monoclonal anti-L3T4 antibody on immune responsiveness of mice infected with Schistosoma mansoni. Reduction of irradiated cercariae-induced resistance

Mice can be partially protected against challenge infections of Schistosoma mansoni cercariae by either single or multiple exposure to irradiated cercariae (x-cerc). The participation of L3T4+ lymphocytes on this resistance phenomenon was evaluated by selectively depleting this cell population through in vivo administration of mAb anti-L3T4 (hybridoma GK 1.5) at three different times in relationship to the challenge infections. Treatment with anti-L3T4 before challenge such that depletion was effective during the time of cercarial skin penetration and dermal/s.c. residence significantly reduced the level of resistance induced by x-cerc sensitization. When treatment was delayed until after challenge, depletion of L3T4+ cells coincided with either the lung or post-lung/liver phases of schistosomular migration, and normal levels of x-cerc-induced resistance were induced. In contrast to once-immunized mice, mice hyperimmunized by five exposures to x-cerc and then depleted of L3T4+ cells at the time of challenge (skin phase) still expressed resistance to the challenge. These data suggest that when mice are sensitized only once with x-cerc the challenge infection provides a necessary immunologic boost which requires L3T4+ cells for effective expression of resistance. The requirement for this anamnestic effect by the challenge infection can be circumvented by hyperimmunization. Evaluation of the immune response of one-time sensitized or hyperimmunized mice demonstrated that cellular Ag-specific proliferative responses and mitogen-induced lymphokine production were abrogated after any of the various in vivo regimens of anti-L3T4 antibody. In contrast, immunoblot analysis of humoral responsiveness revealed a correlation between the expression of resistance and the ability of sera from immunized and anti-L3T4 treated mice to recognize a 75-kDa parasite antigenic component.     

Enhanced Immunogenicity in Mice of a Purified, Tween-Ether-Treated Influenza Vaccine

The immunogenic response of mice vaccinated intranasally or subcutaneously with increasing doses of a purified, concentrated intact A(2)/Taiwan influenza vaccine or its Tween-ether derived vaccines was compared. Immunogenicity was measured by serum neutralization and hemagglutination-inhibition antibodies, lung lesions scores, and protection against respiratory challenge with live airborne influenza virus. Intact (untreated) vaccine, Tween-ether-treated (ET) vaccine, and the isolated hemagglutinins (HA) provided protection and stimulated homologous antibody response at the 35- and 70-chicken cell agglutination (CCA) unit level. At a lower dosage level, the vaccines administered by the subcutaneous route appeared to confer better protection. The ET vaccine was superior to intact virus or HA vaccines when administered subcutaneously. The minimum amount of the HA and intact vaccine given subcutaneously that protected mice against respiratory challenge was 7 CCA units (3.5 units injected twice) compared to 0.7 CCA units (0.35 units injected twice) for the ET vaccine. No heterologous antibody to the A/PR/8/34 or B/Mass/3/66 was noted. Low-level serum-neutralizing antibody was found against the A(2)/Japan/170 strain but, despite high levels of homologous A(2)/Taiwan/64 antibody, no cross-reactivity was found with the recent A(2)/Hong Kong/68 variant.     

Immune responses and protection induced in mice by an industrialized vaccine against American cutaneous leishmaniasis.

An industrialized vaccine against American cutaneous leishmaniasis was compared to a laboratory made vaccine in its ability to induce cellular and humoral immune responses in mice. No differences were observed between seric IgG levels or lymphoblastic proliferation response of mice immunized with either vaccine. Antigenic composition, evaluated by SDS-PAGE, was identical in both preparations. Protection induced in mice against a challenge with infective parasites was also compared. The level of protection obtained with the industrialized vaccine was comparable to that induced by the laboratory made preparation. The results showed that the industrialization process did not alter the efficacy of the vaccine.     

Prevention of vertical transmission of Neospora caninum in C57BL/6 mice vaccinated with Brucella abortus strain RB51 expressing N. caninum protective antigens

Bovine abortions caused by the apicomplexan parasite Neospora caninum have been responsible for severe economic losses to the cattle industry. Infected cows either experience abortion or transmit the parasite transplacentally at a rate of up to 95%. Neospora caninum vaccines that can prevent vertical transmission and ensure disruption in the life cycle of the parasite greatly aid in the management of neosporosis in the cattle industry. Brucella abortus strain RB51, a commercially available vaccine for bovine brucellosis, can also be used as a vector to express plasmid-encoded proteins from other pathogens. Neospora caninum protective antigens MIC1, MIC3, GRA2, GRA6 and SRS2 were expressed in strain RB51. Female C57BL/6 mice were vaccinated with a recombinant strain RB51 expressing N. caninum antigen or irradiated tachyzoites, boosted 4 weeks later and then bred. Antigen-specific IgG, IFN-gamma and IL-10 were detected in vaccinated pregnant mice. Vaccinated mice were challenged with 5 x 10(6)N. caninum tachyzoites between days 11-13 of pregnancy. Brain tissue was collected from pups 3 weeks after birth and examined for the presence of N. caninum by real-time PCR. The RB51-MIC3, RB51-GRA6, irradiated tachyzoite vaccine, pooled strain RB51-Neospora vaccine, RB51-MIC1 and RB51-SRS2 vaccines elicited approximately 6-38% protection against vertical transmission. However, the differences in parasite burden in brain tissue of pups from the control and vaccinated groups were highly significant for all groups. Thus, B. abortus strain RB51 expressing the specific N. caninum antigens induced substantial protection against vertical transmission of N. caninum in mice.     

Antibody Response and Protection Induced by Immunization with Smooth and Rough Strains in Experimental Salmonellosis

The antibody response of mice to a smooth strain of Salmonella typhimurium was shown previously to be extremely rapid and potent. As measured by the complement-mediated bactericidal reaction, it was also found to be highly specific as well as reproducible. Experiments which studied the effects of antigen type (live or heat-killed), antigen dose, and the route of immunization indicated that the most rapid and highest antibody response was achieved with live, smooth organisms injected by the intraperitoneal route. Living vaccines of rough strains of either S. typhimurium or S. enteritidis induced antibodies directed against the corresponding smooth organisms. The response to the rough strains was apparently due to antibody production rather than to the simple release of preformed natural antibody. The duration of protection conferred by the rough strain vaccines was closely correlated with the endotoxic content of the immunizing strain. Smooth heat-killed vaccines and a rough live vaccine protected against homologous but not heterologous challenge. In contrast, immunization with a smooth live vaccine protected mice against both homologous and heterologous challenge infections. Protection was not due to a local effect in the peritoneal cavity, since mice were also protected against subcutaneous challenge. The secondary antibody response, induced in immunized animals by the virulent challenge infection, was demonstrated to be rapid and potent, and hence a factor to be considered in protection.     

Delayed-type hypersensitivity to Babesia microti-infected erythrocytes in mice

Strong delayed-type hypersensitivity (DTH) to Babesia microti was elicited when intraerythrocytic parasites (IEP) were inoculated subcutaneously into the flank of normal mice 6 to 14 days before challenge in the ipsilateral footpad with 10(8) IEP. Intraperitoneal or intravenous administration of antigen did not sensitize mice for DTH. When challenge was given 21 days after immunization, the response was approximately half of the maximum and then rose again slowly over the next 3 weeks to levels that were not significantly different from those maximal values. The response was similar in seven strains of mice, regardless of sex. The response was classified as a true DTH reaction on the basis of kinetics, histology, and the transfer of responsiveness with immune T lymphocytes of the Ly 1+ phenotype, but not with serum. The reaction was specific for IEP since control groups given two injections of red blood cells from uninfected syngeneic mice (NRBC) or one injection of NRBC or sheep red blood cells (SRBC) and one of IEP never developed significant footpad swelling. Freed parasites obtained by osmotic rupture, density gradient sedimentation, and lethally irradiated IEP were also effective for elicitation of DTH. Anti-IEP DTH was expressed in a dose-dependent fashion with 10(6), 10(7), or 10(8) parasites sufficing for immunizing inoculum as long as 10(8) parasites were used as the challenge dose. Mice immunized and challenged with 10(8) lethally irradiated IEP (60 krad, 60Co), were protected against subsequent intraperitoneal challenge with 10(8) viable IEP. If mice were infected intraperitoneally with 10(8) IEP at any time between 21 days before immunization to 2 hr after challenge, their ability to respond to immunization and challenge was profoundly depressed. These data suggest that development of a strong anti-parasite DTH response can occur in parallel with resistance to infection, but is not a rapid sequela of bloodborne infection.     

Induction of immune resistance against L1210 lymphatic leukemia in mice after lethal irradiation and reconstruction with fetal liver cells.

The immunohematopoietic potential of syngeneic fetal liver cells (SFLC) was examined and compared with syngeneic bone marrow cells (SBMC). SFLC generated about 3 times less 12th-day spleen colonies (CFU-S) than adult SBMC did. To test the SFLC ability for reconstitution of the immune system, mice were lethally total body irradiated (TBI) and transplanted i.v. with 3 x 10(7) SFLC or 1 x 10(7) SBMC. Thus, injected hematopoietic cells contained the same number of CFU-S. On days 28, 35, 42, and 49 after transplantation the mice were injected i.p. with 10(6) immunogenic L1210-Maf cells (L1210 leukemia cells treated in vitro with mafosfamide for inhibition of their growth in vivo) to test the ability for generation of immune response against L1210 leukemia. On day 56 the animals were challenged with 10(3) L1210 leukemia cells. Strong resistance against the leukemia was induced in TBI + SFLC and TBI + SBMC mice, suggesting that the SFLC similarly as SBMC are able to reconstitute immune system of the TBI host.     

Obtention and Assay of Rabbit Anti-Pseudomonas Serum

Inoculation of rabbits with a nonliving anti-Pseudomonas vaccine induced appreciable levels of agglutinating antibodies against strains of P. aeruginosa included or not included in the vaccine. Serum obtained from vaccinated rabbits was able to confer temporary protection to mice against challenge with homologous or heterologous strains of Pseudomonas. When two or three doses of serum were used, all mice survived the challenge dose for more than 48 hr, but some of the animals died 10 days after challenge. When five doses of serum were used, all mice survived this 10-day period, and even 4 months later they did not show any sign of infection. Serum treatment temporarily inhibited Pseudomonas activity and allowed for the activation of the immunogenic mechanisms of the animals. This was corroborated by the fact that mice treated with three doses of serum and surviving the challenge dose for more than 20 days were immune against a second challenge. Anti-Pseudomonas gamma globulin conferred a lower degree of protection against homologous or heterologous strains of Pseudomonas.