Colostral antibody protection and interference with immunity in lambs born from sheep vaccinated with an inactivated Bluetongue serotype 8 vaccine

Widespread vaccination programmes against Bluetongue virus serotype 8 (BTV-8), using inactivated vaccines, are being carried out across many countries in northern, western and southern Europe. This study investigates the extent and length of colostral antibody protection, as well as the degree of colostral antibody induced interference of the immune response to BTV-8, in sheep. Significantly lower titres of neutralising antibodies were transferred in colostrum to lambs born from sheep vaccinated once as opposed those vaccinated twice (single vaccine in the first year and a booster vaccine in the second year). On BTV-8 challenge, lambs born from sheep vaccinated on two occasions, with the second booster vaccine given approximately 1 month prior to lambing, were protected from clinical disease for up to 14 weeks. BTV-8 was isolated from 5 of the 22 challenged lambs, although only one of these lambs showed a transient rise in body temperature with no other clinical signs. Lambs born from ewes given a second booster vaccine 1 month prior to lambing, are likely to be protected from clinical disease for at least 14 weeks, whereas lambs born from ewes vaccinated once are likely to be protected for a shorter time. Colostral antibodies present in the 13–14-week-old lambs appeared to interfere with the humoral response to challenge virus. These results suggest that colostral antibodies may interfere with vaccination in lambs up to at least 14 weeks of age.     

Evaluation of protective and immune responses following vaccination with recombinant MIP and CPAF from Chlamydia abortus as novel vaccines for enzootic abortion of ewes

MIP and CPAF from Chlamydia have been shown to be effective in inducing immune responses important in clearing chlamydial infections. This study evaluates the protection conferred by MIP and CPAF as novel vaccines in pregnant C. abortus challenged ewes. Fifty C. abortus sero-negative sheep were randomly allocated into 5 groups of 10 according to the treatment they were to receive (1) 100 µg of MBP-MIP (2) 100 µg CPAF (3) 50 µg MBP-MIP and 50 µg CPAF (4) Tris-buffer (negative control) (5) Enzovax (positive control). Booster inoculations were administered 3 weeks after primary inoculations. Blood samples were taken pre-vaccination and weekly for 5 weeks. Five months after vaccination the ewes were mated. Pregnant ewes were then challenged on day 90 of gestation. Blood samples taken at four time-points post challenge were analysed for IFNγ levels, TNFα and IL-10 expression and anti-chlamydial antibody levels. Vaginal swabs, placental and foetal tissue and bacterial shedding were analysed using qPCR to quantify levels of C. abortus. Enzovax was 100% effective with no abortions occurring. The MIP/CPAF combined vaccine offered the greatest protection of the novel vaccines with 67% of ewes giving birth to one or more live lambs equating to a 50% vaccine efficacy rate. MIP and CPAF administered singly did not confer protection. Enzovax and MIP/CPAF vaccinated ewes had longer gestations and lambs with higher birth weights than negative control ewes. Aborting ewes shed higher numbers of C. abortus than ewes that had live lambs, all vaccinated ewes demonstrated lower levels of bacterial shedding than negative control ewes with Enzovax ewes shedding significantly fewer bacteria. Ewes that went on to abort had significantly higher levels of IFNγ and IL-10 at day 35 post challenge and significantly higher levels of anti-chlamydial antibodies at 24 h post lambing compared to ewes that had live lambs.     

Vaccination with Neospora caninum-cyclophilin and -profilin confers partial protection against experimental neosporosis-induced abortion in sheep

The purpose of this study was to evaluate the protective efficacy of a vaccine consisting of recombinant Neospora caninum-cyclophilin (NcCyP) and -profilin (NcPro) in sheep. At 42 d and 21 d prior to mating, adult Dorset ewes were immunized with the rNcCyP-rNcPro vaccine (Group 1) or co-purifying non-recombinant (NR) control vaccine (Group 2). At 90 days post-mating, all immunized ewes and were challenged by intravenous injection with 10⁶ Nesopora caninum Illinois tachyzoites (NcTZ). Significant protection (P < 0.05) was observed in Group 1 with 9 out of 13 ewes giving birth to live-born lambs (69.2%), whereas all Group 2 ewes aborted (6/6). Neospora caninum was detected by PCR in both fetal and placental tissues from all Group 2 aborting ewes and in the placental tissues of Group 1 aborting ewes. In contrast, tissues and placentas of Group 1 live-born lambs were Neospora DNA-negative. Immunoreactive Neospora antigens were demonstrated in placentas associated with abortions, but not in tissues of aborted fetuses or those of the live-born lambs and their associated placentas. Anti-NcCyP and anti-NcPro titers were high in sera from Group 1 ewes and were further boosted by challenge infection, resulting in long-lasting (≥14.5 mos.) elevated titers. Lambs born to Group 1 ewes also had high NcCyP and NcPro titers in pre-colostrum sera. Immunofluorescence staining (IFA) of NcTZ with Group 1 post-immunization sera revealed both surface and internal TZ staining, a pattern consistent with that observed with rabbit sera to rNcCyP or rNcPro. Infection of NR-vaccinated ewes produced high but transient anti-NcCyP and anti-NcPro Ab titers. The results indicate that the NcCyP-NcPro vaccine elicited strong anti-N. caninum responses and conferred significant protection against abortion and transplacental transmission of N. caninum TZ in sheep.     

Further evaluation of a mutagen-attenuated Rift Valley fever vaccine in sheep

A previous study demonstrated that a mutagen-attenuated Rift Valley fever virus (RVFV) vaccine, RVF MP-12, was immunogenic and non-abortogenic when ewes, 90-110 days pregnant, were inoculated with 5 x 10(5) plaque-forming units (p.f.u.) of the virus strain. The ewes delivered live, healthy lambs that had no neutralizing antibody to RVFV until after they had ingested colostrum. To assess further the safety and protective capability of this candidate vaccine, six pregnant ewes were inoculated with 5 x 10(3) p.f.u. of RVF MP-12 and challenged with 5 x 10(5) p.f.u. of virulent ZH-501 strain of RVFV 30 days later. No viraemia was detected after vaccination or challenge and all six ewes delivered live, healthy lambs. Those lambs tested before their nursing did not have neutralizing antibody to RVFV but quickly acquired antibody titres of 1:320 to greater than or equal to 1:10,240 after ingesting colostrum. To test the safety of the RVF MP-12 immunogen in neonates, lambs less than or equal to 7 days old, born to unvaccinated ewes, were inoculated with 5 x 10(5) p.f.u. of RVF MP-12. With the exception of brief pyrexia in 18 of 26 lambs, and a transient low-titred viraemia in 16 of 26 lambs after inoculation, no untoward effects were observed. Serum-neutralizing antibody to RVFV was detected 5-7 days after inoculation. Lambs vaccinated with either 5 x 10(5) or 5 x 10(3) p.f.u. of RVF MP-12 were protected against virulent RVFV challenge at 14 days postvaccination.     

Structure-dependent efficacy of infectious bursal disease virus (IBDV) recombinant vaccines

The immunogenicity and protective capability of several baculovirus-expressed infectious bursal disease virus (IBDV)-derived assemblies as VP2 capsids, VPX tubules and polyprotein (PP)-derived mixed structures, were tested. Four-week-old chickens were immunised subcutaneously with one dose of each particulate antigen. VP2 icosahedral capsids induced the highest neutralising response, followed by PP-derived structures and then VPX tubules. All vaccinated animals were protected when challenged with a very virulent IBDV (vvIBDV) isolate, however the degree of protection is directly correlated with the levels of neutralising antibodies. VP2 capsids elicited stronger protective immunity than tubular structures and 3& mgr;g of them were sufficient to confer a total protection comparable to that induced by an inactivated vaccine. Therefore, VP2 capsids represent a suitable candidate recombinant vaccine instead of virus-like particles (VLPs) for IBDV infections. Our results also provide clear evidence that the recombinant IBDV-derived antigens are structure-dependent in order to be efficient as vaccine components.     

Characterization of possible correlates of protective response against Brucella ovis infection in rams immunized with the B. melitensis Rev 1 vaccine

Vaccination with the live attenuated Brucella melitensis Rev 1 vaccine is used to control ovine brucellosis caused by Brucella ovis in sheep. The objective of this study was to identify possible correlates of protective response to B. ovis infection through the characterization by microarray hybridization and real-time RT-PCR of inflammatory and immune response genes differentially expressed in rams previously immunized with B. melitensis Rev 1 and experimentally challenged with B. ovis. Gene expression profiles were compared before and after challenge with B. ovis between rams protected and those vaccinated but found infected after challenge. The TLR10, Bak and ANXI genes were expressed at higher levels in vaccinated and protected rams. These genes provide possible correlates of protective response to B. ovis infection in rams immunized with the B. melitensis Rev 1 vaccine.     

DNA vaccines encoding viral envelope proteins confer protective immunity against WSSV in black tiger shrimp

White Spot Syndrome Virus (WSSV) is a major cause of mortality in shrimp and poses a huge threat to aquaculture industry. Till now no comprehensive or individual strategy has been established to combat white spot disease. Previous efforts by other investigators have given insight of protein vaccination and its efficacy to protect shrimp against WSSV infection. In this study, we have explored the protective efficacy of DNA vaccination and tissue distribution of the immunised recombinant plasmid in black tiger shrimp (Penaeus monodon). Four recombinant constructs were generated by inserting four genes encoding the WSSV structural proteins VP15, VP28, VP35 and VP281 individually into DNA vaccine vector pVAX1. Expression of these proteins from the recombinant plasmids was confirmed in vitro in CHO cell lines. For vaccination experiments, shrimp were immunised with these DNA constructs and later challenged with WSSV. A significant level of protection was offered by the plasmids encoding VP28 or VP281 till 7 weeks whereas protein vaccination failed to protect vaccinated shrimp after 3 weeks of first immunisation. In addition, our tissue distribution study revealed the persistence of immunised DNA at least upto 2 months in the injected shrimp muscle. Thus, our results suggest that DNA vaccination strategy will have potential utility against WSSV infection in shrimp cultivation.     

The respiratory syncytial virus fusion protein formulated with a novel combination adjuvant induces balanced immune responses in lambs with maternal antibodies

Respiratory syncytial virus (RSV) causes severe respiratory illness in infants. There are no licensed vaccines to prevent RSV infection. The neonate receives short-term protection from maternally derived antibodies, which, however, can also interfere with the active response to vaccination. A RSV vaccine consisting of a truncated version of the fusion protein formulated with polyI:C, innate defense regulator peptide and polyphosphazene (ΔF/TriAdj), was evaluated in two to three week-old lambs. When delivered intrapulmonary, ΔF/TriAdj elicited IgA production in the lung in addition to a robust systemic response similar to that induced by intramuscular immunization. To investigate potential interference by maternal antibodies, pregnant ewes were vaccinated with ΔF/TriAdj. Lambs born to RSV F-immune or non-immune ewes were then given three vaccinations with ΔF/TriAdj at 3 days, 4 weeks and 8 weeks post-birth. Lambs immunized intramuscularly with ΔF/TriAdj vaccine developed high-affinity ΔF-specific serum IgG and virus neutralizing antibodies, and displayed an increase in the frequency of IFN-γ-secreting cells by in vitro restimulated peripheral blood mononuclear cells. Maternal antibodies did not interfere with the development of an immune response to ΔF/TriAdj in the newborn lambs. These results indicate that immunization of neonates with ΔF/TriAdj is effective even in the face of maternal antibodies.     

Comparison of protectiveness of recombinant Babesia ovis apical membrane antigen 1 and B. ovis-infected cell line as vaccines against ovine babesiosis

Babesiosis is a disease complex caused by unicellular Babesia parasites and among them, malignant ovine babesiosis caused by B. ovis has a devastating economical impact on the small ruminant industry. The control of disease is mainly based on chemotherapy and preventing animals from tick infestation and to date no vaccine is available against ovine babesiosis. The requirement for vaccination against B. ovis infection in endemically unstable regions is necessary for implementation of effective disease control measures. The aim of the present study was to evaluate the effectiveness of different immunisation protocols against disease in sheep experimentally vaccinated with recombinant B. ovis apical membrane antigen-1 (rBoAMA-1) and/or live, a B. ovis-infected cell line. Sheep were divided into four experimental groups, plus a control group. Animals were immunised either with the B. ovis stabilate, or with rBoAMA-1, or with both rBoAMA-1 and the B. ovis stabilate. Western blots and ELISAs indicated that immunisation with rBoAMA-1 resulted in generation of a specific response against the recombinant protein, but the degree of antibody response did not correlate with the level of induced protection against challenge. The strongest immune response was induced in animals co-immunised with the live B. ovis stabilate plus rBoAMA-1. Both the hematological and parasitological findings indicated that this co-immunisation regimen has vaccine potential to limit losses incurred by ovine babesiosis in endemic countries.     

Partial protective immunity against toxoplasmosis in mice elicited by recombinant Toxoplasma gondii malate dehydrogenase

Toxoplasma gondii can infect humans and wildlife, sometimes causing serious clinical presentations. Currently, no viable vaccine or effective drug strategies exist to prevent and control toxoplasmosis. T. gondii malate dehydrogenase (TgMDH) is a crucial enzyme in cellular redox reactions and has been shown to be an immunogenic compound that could be a potential vaccine candidate. Here, we investigate the protective efficacy of recombinant TgMDH (rTgMDH) against T. gondii infection in BALB/c mice. All mice were vaccinated via the nasal route. We determined the optimal vaccination dose by monitoring systemic and mucosal immune responses. The results showed that mice vaccinated with 30 μg of rTgMDH produced the highest antibody titers in serum, a strong lymphoproliferative response, marked increases in their levels of IL-2 and IFN-γ, and significantly greater levels of specific secretory IgA (sIgA) in mucosal washes. In addition, the vaccinated mice were orally challenged with tachyzoites of the virulent T. gondii RH strain 2 weeks after the final vaccination. Compared to the control group, we found that vaccination with rTgMDH increased the survival rate of infected mice by 47% and also significantly reduced the tachyzoite loads in their liver (by 58%) and brain (by 41%). Therefore, the rTgMDH protein triggers a strong systemic and mucosal immune response and provides partial protection against T. gondii infection.     

Interference of colostral antibodies with response to a Bluetongue serotype 8 inactivated vaccine in lambs born from hyperimmune ewes

Despite the widespread use of Bluetongue serotype 8 (BTV-8) vaccines across Europe, there remain unanswered questions on the effects of maternally derived antibodies (MDA) on vaccination. This study investigated the persistence of MDA in lambs and their interference on vaccine efficacy. Lambs born from hyperimmune ewes–i.e. ewes naturally infected with BTV-8 in 2007 and repeatedly vaccinated thereafter–were used. They were allocated to five groups (n = 7/group), four receiving a BTV-8 vaccine at different ages (3, 5, 7 and 9 months) and one left unvaccinated. Vaccine protection was assessed upon a BTV-8 challenge performed at 10 months of age. The neutralising antibody titres were also measured throughout the study. Vaccination at 5, 7 and 9 months led to seroconversion and full clinical and virological protection in all animals. Among lambs vaccinated at 3 months, three (3/7) did not respond to vaccination and were not protected from challenge infection. Others animals (4/7) were fully protected from clinical disease and viraemia in accordance with their seropositive status at time of challenge. In our very stringent conditions, MDA hampered response to BTV-8 vaccination in lambs for at least 3 months after birth. Accordingly, the optimal age of vaccination needs to be adjusted to the immune status of the sheep population.     

Gamma interferon levels and antibody production induced by two PvMSP-1 recombinant polypeptides are associated with protective immunity against P.vivax in Aotus monkeys

Effector mechanisms responsible for providing protective immunity against Plasmodium vivax (Pv) infection were examined in Aotus monkeys vaccinated with two Pv Merozoite Surface Protein-1 (PvMSP-1) recombinant polypeptides that had previously been shown to protect vaccines against parasite challenge. Vaccine efficacy was reproducible in this trial, showing that one out of the five monkeys immunised with the recombinant protein mixture was partially protected while three others controlled parasitaemia. Antibodies reactive to the parasite's native proteins, the recombinant polypeptides and peptides spanning both recombinant fragments were detected in most vaccinees. Despite substantial Peripheral Blood Mononuclear Cell (PBMC) antigen-specific cellular proliferation not being detected, high rPvMSP-1(20) specific gamma interferon (IFN-gamma) production was found in the three animals that controlled parasitaemia. Altogether the results suggest that antibody titres and antigen-specific IFN-gamma production mediate protective immunity against P. vivax.     

Structure-dependent efficacy of infectious bursal disease virus (IBDV) recombinant vaccines

The immunogenicity and protective capability of several baculovirus-expressed infectious bursal disease virus (IBDV)-derived assemblies as VP2 capsids, VPX tubules and polyprotein (PP)-derived mixed structures, were tested. Four-week-old chickens were immunised subcutaneously with one dose of each particulate antigen. VP2 icosahedral capsids induced the highest neutralising response, followed by PP-derived structures and then VPX tubules. All vaccinated animals were protected when challenged with a very virulent IBDV (vvIBDV) isolate, however the degree of protection is directly correlated with the levels of neutralising antibodies. VP2 capsids elicited stronger protective immunity than tubular structures and 3 micrograms of them were sufficient to confer a total protection comparable to that induced by an inactivated vaccine. Therefore, VP2 capsids represent a suitable candidate recombinant vaccine instead of virus-like particles (VLPs) for IBDV infections. Our results also provide clear evidence that the recombinant IBDV-derived antigens are structure-dependent in order to be efficient as vaccine components.     

Induction of mycobacterial protective immunity by sublingual BCG vaccination

Tuberculosis (TB) remains a tremendous global health problem, with 1/4 of the world’s population infected and causing > 1 million deaths annually. Intradermal Bacillus Calmette-Guérin (BCG) vaccine given during infancy protects against severe forms of acute disease but does not prevent chronic infection or development of pulmonary TB. TB vaccine mucosal targeting potentially could induce mucosal resident immune cells with increased protective capacity against pulmonary infection and disease. Sublingual (SL) administration of vaccines may be an optimal mucosal delivery platform based on the high absorptive capacity of this mucosal surface, the extensive lymphoid tissue, and published preclinical studies demonstrating efficacy of SL vaccination against other pathogens. To this end, we performed preliminary testing of sublingual TB vaccines. Vaccination of mice with SL BCG elicited potent mycobacteria-specific T cell responses which persisted 16 weeks post-immunization. The magnitudes of the T cell responses were similarly induced after sublingual, intranasal, and subcutaneous BCG vaccination. Interestingly, serum mycobacteria-specific antibody responses and systemic recovery of BCG post-vaccination were lower after SL BCG compared with systemic BCG immunization. However, more importantly, SL BCG vaccinated mice were significantly protected against an aerosolized virulent M. tuberculosis challenge (P < 0.0001 compared to unvaccinated mice). Furthermore, this protection was long-lived, persisting for 16 weeks with >1 log CFU reduction compared with naïve challenged mice in both lungs and spleens (P < 0.0001 and P < 0.0028, respectively). These exciting results provide strong support for further studies exploring the mechanisms of protective immunity induced by sublingual BCG vaccination.     

Canine distemper virus DNA vaccination of mink can overcome interference by maternal antibodies

Canine distemper virus (CDV) is highly contagious and can cause severe disease against which conventional live vaccines are ineffective in the presence of maternal antibodies. Vaccination in the presences of maternal antibodies was challenged by vaccination of 5 days old and 3 weeks old mink kits with CDV DNA vaccines. Virus neutralising (VN) antibody responses were induced in mink kits vaccinated with a plasmid encoding the haemaglutinin protein (H) of CDV (n = 5, pCDV-H) or a combination of the H, fusion (F) and nucleoprotein (N) of CDV (n = 5, pCDV-HFN). These DNA vaccinated kits were protected against virulent experimental infection with field strains of CDV. The pCDV-H was more efficient in inducing protective immunity in the presence of maternal antibodies compared to the pCDV-HFN. The results show that DNA vaccination with the pCDV-H or pCDV-HFN (n = 4) only given once at 5 days of age induces virus specific immune response in neonatal mink and protection against virulent CDV exposure later in life.     

Immunological responses and protective efficacy against Brucella melitensis induced by bp26 and omp31 B. melitensis Rev.1 deletion mutants in sheep

The commonly used live attenuated vaccine in ovine brucellosis prophylaxis is Brucella melitensis Rev.1. This vaccine is known to induce antibody responses in vaccinated animals indistinguishable by the current conventional serological tests from those observed in challenged animals. Brucella BP26 and Omp31 proteins have shown an interesting potential as diagnostic antigens for ovine brucellosis. Accordingly, the bp26 gene and both bp26 and omp31 genes have been deleted from the vaccine strain Rev.1. Immunogenicity and vaccine efficacy of the parental Rev.1 strain and of both mutants in protecting sheep against B. melitensis strain H38 challenge was evaluated by clinical and bacteriological examination of ewes. They were conjunctivally or subcutaneously vaccinated when 4 months old and then challenged with B. melitensis H38 at the middle of the first pregnancy following vaccination. Deletion of bp26 and omp31 genes did not significantly affect the well recognised capacity of Rev.1 to protect sheep against B. melitensis challenge. However, the protection conferred by the CGV2631 mutant was significantly lower than that conferred by the CGV26 mutant or the Rev.1 strain. Vaccinated and challenged animals were detected positive in classical serological tests and in the IFN-gamma assay. A BP26-based ELISA was investigated to discriminate between ewes vaccinated by the mutants and ewes challenged with B. melitensis H38. The cut-off which was chosen in order to have 100% specificity resulted in a moderate sensitivity for the detection of challenged ewes. The use in the field of one of the mutants as vaccine against a B. melitensis infection, combined with classic diagnostic tests and a BP26 ELISA, could thus give an improvement in the differentiation between vaccinated and infected animals and contribute to the objective of eradication of brucellosis in small ruminants.     

Evaluation of the protective efficacy of recombinant protective antigen vaccine (GC1109)-immunized human sera using passive immunization in a mouse model

The protective efficacy of human sera from vaccinated individuals with a new recombinant protective antigen anthrax vaccine (GC1109) against lethal spore challenge was evaluated in a mouse model. Eighteen human sera were selected from the vaccinated individuals based on their toxin neutralizing assay (TNA) titer (ED₅₀ of 55 to 668). The selected sera were diluted and passively transferred to A/J mice and the mice were subsequently challenged with 100 × LD₅₀ of Bacillus anthracis Sterne spores. The correlation between the survival rate of passively immunized mice and the TNA ED₅₀ of transferred sera was presented (r = 0.873, P-value < 0.001). The estimated TNA titer for 50% survival rate against lethal challenge was 197 (95% confidence interval of 149 and 260). The result suggest that GC1109 is protective against exposure to B. anthracis and the TNA titer of vaccinated serum can be an indicator for protective efficacy.     

Effect of particulation on the immunogenic and protective properties of the recombinant Bm86 antigen expressed in Pichia pastoris

The recombinant Bm86 tick antigen expressed in Pichia pastoris is obtained in a highly particulated form, as a distinguish feature of this expression system. This particulated protein, the active principle of the recombinant vaccine Gavac™ against the cattle tick, have shown high immunogenic and protective properties, probably associated with its own characteristics. To evaluate the effects of particulation on the properties of Bm86, three groups of calves were immunized with particulated or non-particulated recombinant Bm86 and the anti-Bm86 antibody response determined. Animals were challenged with a controlled tick infestation and the protective capacities of both proteins assessed. Humoral immune response and protection in cattle vaccinated with the particulated antigen were higher. These experiments suggested that particulation of the Bm86 expressed in P. pastoris is an important feature for the protective properties of the antigen in vaccine preparations.     

Maternal immunization with respiratory syncytial virus fusion protein formulated with a novel combination adjuvant provides protection from RSV in newborn lambs

Respiratory syncytial virus (RSV) is the causative agent of serious upper and lower respiratory tract infections in newborns and infants. Protection from RSV is crucial for neonates, and maternal immunization is one approach that holds promise for providing immediate protection to young infants against severe RSV infection. We previously reported efficacy of a subunit vaccine consisting of the fusion (F) protein formulated with a novel adjuvant (ΔF/TriAdj) in neonates. The goal of the current study was to evaluate the ΔF/TriAdj as a maternal vaccine. Pregnant ewes were vaccinated intramuscularly with ΔF/TriAdj or PBS six weeks prior to lambing, and re-vaccinated four weeks later, which resulted in transfer of maternal antibodies (MatAbs) to the newborn lambs through the colostrum. Significantly higher levels of RSV ΔF-specific serum IgG were detected in vaccinated pregnant ewes and their lambs when compared to control animals, which revealed that MatAbs were passively transferred to the offspring. All newborn lambs were challenged with RSV at three days of age. After RSV challenge, virus production and lung pathology were significantly lower in lambs that had received passively transferred antibodies than in control animals. These results indicate that maternal immunization with ΔF/TriAdj might be an alternative, safe and effective approach to provide protection against RSV in newborn and young infants.     

A purified stage-specific 31 kDa antigen as a potential protective antigen against Ostertagia circumcincta infection in lambs.

The 31 kDa antigen of third-stage (L3) Ostertagia circumcincta larvae was evaluated as a potential prophylactic antigen by an analysis of the protective, humoral and cell-mediated responses of lambs immunized with this antigen. Six lambs were immunized by subcutaneous injection with a total of 400 micrograms of the purified 31 kDa antigen in 250 micrograms ml-1 Quil A adjuvant. Five sheep given identical injections but without the 31 kDa antigen were used as controls. All animals were challenged with 4.2 x 10(4) infective L3 O. circumcincta larvae 1 week after the last booster injection. The protection afforded by the 31 kDa antigen was demonstrated by a significant reduction in faecal egg counts (p less than 0.05) and total worm counts (p less than 0.005) in vaccinated animals. Elevated ELISA antibody levels specific to the 31 kDa antigen were detected in the sera of vaccinated animals as early as 3 weeks after immunization. Specific antibodies were further demonstrated by Western blot 4 days after the first booster immunization at 3 weeks. In control animals no antibodies to the 31 kDa antigen were detected in Western blots throughout the course of the experiment. Immunized lambs had significantly higher in vitro lymphocyte stimulation indices (p less than 0.05) than control animals. In haematoxylin and eosin stained sections taken at necropsy from vaccinated sheep, compared with control lambs, there were more larvae present in the crypts of the abomasal epithelium and these larvae were surrounded by lymphocytes and eosinophils. In vaccinated lambs a marked infiltration of lymphocytes in the lamina propria and oedema in the submucosa were also observed.(ABSTRACT TRUNCATED AT 250 WORDS)