Immunization with recombinant Helicobacter pylori urease decreases colonization levels following experimental infection of rhesus monkeys

Rhesus monkeys, naturally colonized with H. pylori as indicated by culture and histology were immunized with either 40 mg recombinant H. pylori urease administered orally together with 25 microg Escherichia coli heat-labile enterotoxin (LT) or immunized with LT alone. An initial 6 doses were administered over an 8 week period. All five vaccinated monkeys had a greater than two-fold rise in urease-specific serum IgG and IgA level and urease-specific salivary IgA was induced in 3 of 5 vaccinated animals after 6 or 7 doses of vaccine. Vaccination had no measurable therapeutic effect on H. pylori colonization. H. pylori was eradicated from these monkeys with a course of antimicrobials plus omeprazole, a 7th vaccine dose was given (10 months after the 6th dose) and they were rechallenged with H. pylori. Necropsy was performed 23 weeks after rechallenge and H. pylori colonization was determined by histological examination of 12 individual gastric sites. A significant reduction in colonization (p < or = 0.0001; Friedman's analysis of variance) was found in the vaccinated animals. Histopathologic examination of necropsy tissues also revealed a trend towards reduced gastritis and epithelial alterations in the vaccinated group compared to animals receiving LT alone. This study provides the first evidence for effective vaccination of nonhuman primates against H. pylori, and preliminary evidence that a reduction in bacterial density attributable to immunization may lessen gastric inflammation.     

Oral vaccination with liposome-encapsulated recombinant fusion peptide of urease B epitope and cholera toxin B subunit affords prophylactic and therapeutic effects against H. pylori infection in BALB/c mice

A new fusion peptide CtUBE of cholera toxin B subunit and Helicobacter pylori urease B subunit epitope was expressed in Escherichia coli. With this fusion peptide, an oral liposome vaccine against H. pylori infection was prepared and evaluated in BALB/c mice. Based on the results of urease tests, quantitation of culturable bacteria colonies in mice stomachs and histological identification of gastritis, the mice were protected significantly after intragastric vaccination with this CtUBE liposome vaccine, which increased the content levels of specific anti-urease serum IgG and mucosal IgA for both prophylactic and therapeutic vaccination protocols. These results showed that the fusion peptide CtUBE retained immunogenicity and could be used as antigen in the development of an oral vaccine against H. pylori infection.     

U-Omp19 from Brucella abortus increases dmLT immunogenicity and improves protection against Escherichia coli heat-labile toxin (LT) oral challenge

Acute diarrhea disease caused by bacterial infections is a major global health problem. Enterotoxigenic Escherichia coli (ETEC) is one of the top causes of diarrhea-associated morbidity and mortality in young children and travelers to low-income countries. There are currently no licensed vaccines for ETEC. Induction of immunity at the site of entry of the bacteria is key to prevent infection. Current approaches to ETEC vaccines include a less toxic mutant form of E. coli heat-labile toxin (double-mutant heat-labile enterotoxin -dmLT-) with both antigenic and immunostimulatory properties. U-Omp19 is a protease inhibitor from Brucella spp. with immunostimulatory properties that has been used as oral adjuvant. In this work, we use U-Omp19 as adjuvant in an oral vaccine formulation against ETEC containing dmLT in outbred and inbred mice. To evaluate antigen dose sparing by U-Omp19 three different immunization protocols with three different doses of dmLT were evaluated. We demonstrated that U-Omp19 co-delivery increases anti-LT IgA in feces using a mid-dose of dmLT following a prime-boost protocol (after one or two boosts). Oral immunization with U-Omp19 induced protection against LT challenge when co-formulated with dmLT in CD-1 and BALB/c mice. Indeed, there was a significant increase in anti-LT IgG and IgA avidity after a single oral administration of dmLT plus U-Omp19 in comparison with dmLT delivered alone. Interestingly, sera from dmLT plus U-Omp19 vaccinated mice significantly neutralize LT effect on intestine inflammation in vivo compared with sera from the group immunized with dmLT alone. These results demonstrate the adjuvant capacity of U-Omp19 to increase dmLT immunogenicity by the oral route and support its use in an oral subunit vaccine formulation against ETEC.     

Oral immunization with recombinant Helicobacter pylori urease confers long-lasting immunity against Helicobacter felis infection

Recombinant Helicobacter pylori urease (rUre) has been shown to confer protection against challenge with Helicobacter felis in mice. The purpose of the present study was to examine duration of the immune response and long-term protective efficacy of immunization with rUre. Swiss Webster mice were orally immunized four times at weekly intervals with 100 microg rUre plus 5 microg heat-labile enterotoxin of Escherichia coli (LT) adjuvant, or with LT only. At 4, 10, 20 or 40 weeks post immunization, 25 rUre-immunized mice and control mice were challenged with H. felis and sacrificed at 2 or 10 weeks post-challenge. H. felis infection was assessed by gastric urease assay and by histology. Anti-H. pylori urease specific antibody levels were measured in serum and saliva both pre- and post-challenge. Over the 40 week time period, the infection rates in rUre-immunized mice were significantly lower than those in controls (p < 0.05) as assessed by gastric urease activity. Protection ranged from 79 100% at 2 weeks post-challenge and 63-78% at 10 weeks post-challenge. Gastric bacterial density in rUre-immunized mice was significantly lower than that of controls (p < 0.03) as determined by histologic assessment. Anti-urease antibody levels remained elevated in the serum and mucosal compartments at 39 weeks following immunization. This study shows that immunization with rUre plus LT results in long-lasting protective immunity against challenge with H. felis.     

Roles of anti-hemagglutinin IgA and IgG antibodies in different sites of the respiratory tract of vaccinated mice in preventing lethal influenza pneumonia

The roles of IgA and IgG antibodies (Abs) against hemagglutinin (HA) in the prevention of lethal influenza pneumonia in vaccinated mice were examined in terms of distribution and concentration of the Abs in the mucus or the serous fluid in different sites of the respiratory tract (RT), mucosa of the nose, trachea, bronchi and bronchioli and the alveolar epithelia of pulmonary acinus. First, the surface areas of the tracheal, bronchial and bronchiolar mucosa and alveolar epithelia were measured to be 20, 260 and 217, 433 mm(2), respectively, using serial tissue sections of the trachea and lungs. Then, the volumes of the tracheal mucus, the bronchial and bronchiolar mucus and the serous fluid of alveolar epithelia were estimated to be 0.2, 2.6 and 21.7 mm(3), respectively, by calculating each from the surface area and an assumed thickness of the mucus layer (0.01 mm) or that of the serous fluid (0.0001 mm). Next, anti-HA IgA and IgG Ab responses in the nasal wash, the trachea-lung wash and the trachea wash were measured in BALB/c mice immunized intranasally with an adjuvant-combined A/PR/8/34 (H1N1) virus vaccine and challenged with a lethal dose of the virus. Then the values of Ab responses were converted to the mucus and serous fluid Ab concentration based on two premises that the serum Abs diffuse at a constant rate to the surface of the tracheal, bronchial and bronchiolar mucosa, and that the active transepithelial transport of IgA Abs does not work in the alveolar epithelia. Results showed that 21.4 microg/ml IgA Abs and 3.6 microg/ml IgG Abs in the tracheal mucus (19.1 and 0.3% of the trachea-lung wash IgA and IgG Ab amounts, respectively), 5.9 microg/ml IgA Abs and 3.6 microg/ml IgG Abs in the bronchial and bronchiolar mucus (66.0 and 3.4% of the trachea-lung wash IgA and IgG Ab amounts, respectively) and about 0.1 microg/ml IgA Abs and 12.3 microg/ml IgG Abs in the serous fluid of alveolar epithelia (14.9 and 96.3% of the trachea-lung wash IgA and IgG Ab amounts, respectively) were present in the vaccinated mice, at which concentrations influenza pneumonia was prevented. Thus, 96.3% of anti-HA IgG Abs in the trachea-lung wash work on the alveolar epithelia, whose surface area is about 800 times larger than that of tracheal, bronchial and bronchiolar mucosa and seem to play a more important role than the mucosal IgA Abs in the prevention of lethal influenza pneumonia.     

Mutant Escherichia coli heat-labile enterotoxin [LT(R192G)] enhances protective humoral and cellular immune responses to orally administered inactivated influenza vaccine.

Influenza vaccines capable of inducing both systemic and mucosal antibody responses are highly desirable. Optimal induction of mucosal IgA is accomplished by mucosal delivery of vaccine. Mucosal adjuvants may improve the immunogenicity and efficacy of vaccines delivered by this route. Here, we compare the adjuvant activities of a mutant of heat-labile enterotoxin from Escherichia coli [LT(R192G)] with those of the wildtype LT (wtLT) for oral vaccination with inactivated influenza vaccine in BALB/c mice. Compared with administration of oral influenza vaccine alone, co-administration of vaccine with LT(R192G) provided enhanced protection from infection in the upper and lower respiratory tract equivalent to and at similar doses as that obtained with wtLT. Likewise, LT(R192G) augmented virus-specific IgG and IgA responses in serum, lung and nasal washes and the numbers of virus-specific antibody-forming cells in spleen, lung and Peyer's patches in a manner comparable to wtLT. Virus-specific splenic CD4(+) cells from mice administered oral vaccine with either adjuvant produced a mixed Th1- and Th2-type cytokine response pattern. Taken together, these results indicate that LT(R192G), like wtLT, is a potent adjuvant for oral vaccination of mice with influenza vaccine.     

A modified cholera holotoxin CT-E29H enhances systemic and mucosal immune responses to recombinant Norwalk virus-virus like particle vaccine

In this study, we evaluated the potential of a genetically modified cholera toxin, CT-E29H as an adjuvant for recombinant Norwalk virus like particle (NV-VLP) vaccine. This detoxified mutant, containing E to H substitution at amino acid 29 of the CT-A1 subunit, was administered with a recombinant Norwalk virus like particle vaccine to Balb/c mice by mucosal routes to monitor the induction of mucosal, humoral and cellular responses. We observed that a low dose of NV-VLP (5 microg) with the adjuvant delivered by the intranasal route (IN) was more effective than the highest dose (200 microg) delivered by oral route at inducing both cellular and NV-VLP specific IgG and IgA responses. Higher counts of antigen specific IgA secreting cells were observed in the Peyer's Patches (PP) following delivery of the vaccine with CT-E29H as compared to delivery of vaccine by mucosal routes without CT-E29H. Furthermore, there was an increase in antigen specific cells producing IL-4 from animals that received the vaccine with the adjuvant. Delivery of the vaccine by the oral route results in antigen specific CD4(+) and CD8(+) T cells in PP and spleen. Addition of CT-E29H results in an increase of antigen specific CD4(+) cell population in PP and both CD4(+) and CD8(+) populations in the spleen. These cellular and cytokine responses suggest that combining the vaccine with CT-E29H results in a stronger Th2 type response. Collectively, these results indicate that immune responses to NV-VLP vaccine are qualitatively and quantitatively improved when the vaccine is delivered along with CT-E29H, and thus merits its further consideration as a mucosal adjuvant.     

Protection against influenza virus infection by intranasal administration of C3d-fused hemagglutinin

For the induction of mucosal immune responses by intranasal vaccination, cholera toxin B subunits (CTB) and Escherichia coli heat-labile toxin (LT) are often administered as mucosal adjuvants in order to enhance immune responses to mucosally co-administered bystander antigens. However, these toxin also are the causative agents of diarrhea. There is a demand for the establishment of an effective and safer adjuvant or vaccine that elicits mucosal immunity, but does not require the use of CTB or LT adjuvants. In order to induce protective mucosal immune responses in the nasal area against influenza virus infection, we have examined the recombinant protein composed of the complement component, C3d, which is fused to the secreted form of hemagglutinin (sHA-mC3d3) in the influenza-BALB/c mouse model. The fusion protein sHA-mC3d3, the secretory form of hemagglutinin, and the transmembrane form of HA (tmHA) from the influenza virus were intranasally administered to the mice with or without CTB containing a trace amount of holotoxin (CTB*) as an adjuvant. After intranasal administration of these proteins with CTB*, all mice produced nasal IgA and serum IgG antibodies (Abs) against the viral HA. In addition, viral infection was completely inhibited in these mice. In contrast, in the absence of the adjuvant, only sHA-mC3d3-induced locally secreted IgA and serum IgG Abs and provided complete protection against the influenza virus challenge. Thus, C3d fused to the influenza HA antigen is an effective and safe tool for mucosal vaccination.     

Induction of serum and mucosal FIV-specific immune responses by intranasal immunization with p24Gag

We examined the ability of FIV p24Gag to induce systemic and mucosal FIV-specific immune responses when delivered as a nasal immunogen alone, or with a mucosal adjuvant, Escherichia coli heat labile toxin LT(R192G). Nasal immunization with p24Gag alone induced FIV-specific immune responses but overall responses were weak, transient, and/or present only in a few animals. Co-administration of LT(R192G) resulted in strong FIV-specific serum IgG and enhanced salivary IgA responses. Moreover, FIV-specific IgA was detected in vaginal wash fluid from 6/6 cats co-immunized with LT(R192G) and p24Gag versus 1/6 immunized with p24Gag alone. This is the first report detailing induction of systemic or mucosal FIV-specific immune responses by nasal immunization alone. As such, this study demonstrates that nasal immunization of cats can be a relevant and effective route for the delivery of candidate vaccines. However, while nasal immunization of cats with p24Gag induces antigen-specific systemic immune responses, development of strong systemic and mucosal immune responses requires co-administration of a mucosal adjuvant, such as LT(R192G).     

Transcutaneous immunization with the heat-labile toxin (LT) of enterotoxigenic Escherichia coli (ETEC): protective efficacy in a double-blind, placebo-controlled challenge study

BACKGROUND: An enterotoxigenic Escherichia coli (ETEC) vaccine could reduce diarrhea among children in developing countries and travelers to these countries. The heat-labile toxin (LT) of ETEC is immunogenic but too toxic for oral or nasal vaccines. METHODS: In a double-blind, placebo-controlled trial, 59 adults were randomized to receive 50 microg of LT or placebo in a patch applied to alternating arms on days 0, 21, and 42. On day 56, 27 vaccinees and 20 controls were challenged orally with 6x10(8) cfu of LT+/ST+ ETEC. RESULTS: 100 and 97% of vaccinees had 4-fold increases in anti-LT IgG and IgA, and 100 and 90% developed IgG- and IgA-antibody-secreting cell responses. The study did not meet the primary endpoint: 82% of vaccinees and 75% of controls had moderate to severe ETEC illness. However, vaccinees with ETEC illness had lower numbers (6.8 versus 9.7, p=0.04) and weights of loose stools (840 g versus 1147 g, p<0.05), a decreased need for intravenous fluids (14% versus 40%, p=0.03) and a delayed onset of diarrhea (30 h versus 22 h, p=0.01). CONCLUSIONS: Transcutaneous LT vaccination induced anti-toxin immune responses that did not prevent but mitigated illness following a high-dose challenge with a virulent LT+/ST+ ETEC strain.     

B cell responses in gastric antrum and duodenum following oral inactivated Helicobacter pylori whole cell (HWC) vaccine and LT(R192G) in H pylori seronegative individuals

To investigate whether B cell-specific responses could be elicited in the gastric mucosa of Helicobacter pylori (HP) naive subjects, five volunteers ingested three doses of a HP killed whole cell (HWC) vaccine with 25 microg of recombinant heat-labile toxin (LT(R192G)). Two of three subjects had detectable LT(R192G) and HWC IgA antibody secreting cell (ASC) gastric responses. LT(R192G) and HWC responses in duodenal were 5-14-fold higher than those detected in antral biopsies (P<0.01 and P=0.05, respectively). These results provide the first evidence that specific gastric B cell responses can be induced in HP-non-infected individuals following oral immunization.     

The New World primate, Aotus nancymae, as a model for examining the immunogenicity of a prototype enterotoxigenic Escherichia coli subunit vaccine

The colonization factors (CF) of enterotoxigenic Escherichia coli (ETEC) are being targeted for inclusion in a multi-subunit ETEC vaccine. This study was designed to examine the preclinical safety and immunogenicity of CF CS6, encapsulated in a biodegradable poly(DL-lactide-co-glycolide) (meCS6), and administered in the presence or absence of a mutated heat-labile enterotoxin, LT(R192G), in the non-human primate, Aotus nancymae. A. nancymae were inoculated intranasally (IN) with meCS6 (200 microg; positive control), or intragastrically (IG) with meCS6 (200 or 1000 microg) with or without 2 microg LT(R192G) in three doses given at 2-week intervals. In a second experiment, A. nancymae were inoculated IG with 950 microg of meCS6 with or without 2 microg LT(R192G) in four doses given every 48 h. Blood was collected to assess anti-CS6 and -LT serum immunoglobulin G (IgG) and IgA responses and safety variables (complete blood count and chemistry). Safety parameters were unchanged from baseline following all vaccinations. In Experiment 1, a dose-related serologic response to CS6 was observed; 78.6 and 57.1% of monkeys given 1000 microg meCS6 (n = 14) had a serum IgG and IgA response, respectively, compared to only 28.6% of monkeys given 200 microg meCS6 (n = 14) with a serum IgG and IgA response. No significant effect on the number of responders or the magnitude of responses was observed with the addition of LT(R192G). The three-dose, 2-week regimen with 1000 microg meCS6 was more effective at eliciting an immune response than the four-dose, 48-h regimen with 950 microg meCS6. Results from this study indicate that A. nancymae provide a useful ETEC preclinical safety and immunogenicity model.     

Poliovirus replicons encoding the B subunit of Helicobacter pylori urease elicit a Th1 associated immune response.

The development of a vaccine for Helicobacter pylori is a key strategy for reducing the worldwide prevalence of H. pylori infection. Although immunization with recombinant B subunit of H. pylori urease (ureB) has yielded promising results, for the most part, these studies relied on the use of strong adjuvant, cholera toxin, precluding the use in humans. Thus, the development of new vaccine strategies for H. pylori is essential. Previous studies from our laboratory have described a vaccine vector based on poliovirus in which foreign genes are substituted for the poliovirus capsid genes. The genomes encoding foreign proteins (replicons) are encapsidated into authentic poliovirions by providing the capsids in trans. To test the utility of replicons as a vaccine vector for H. pylori, a replicon was constructed which encodes ureB. Expression of ureB in cells from the replicon was demonstrated by metabolic labeling followed by immunoprecipitation with anti-urease antibodies. To investigate the immunogenicity of the replicons, mice containing the transgene for the receptor for poliovirus were immunized via the intramuscular route. Mice given three doses of replicons did not develop substantial antibodies to ureB as determined by Western blot analysis using lysates from H. pylori. In contrast, mice given two doses of replicon followed by a single injection of recombinant ureB developed serum antibodies to ureB which were predominately IgG2a. Splenic lymphocytes from mice immunized with replicons alone, or replicons plus recombinant ureB produced abundant interferon-gamma and no detectable interleukin-4 upon stimulation with recombinant ureB. These results establish that poliovirus replicons encoding H. pylori ureB are immunogenic and induce primarily a T helper 1 associated immune response.     

Adjuvant activity of Escherichia coli heat-labile enterotoxin and effect on the induction of oral tolerance in mice to unrelated protein antigens

The ability of Escherichia coli heat-labile enterotoxin (LT) to influence the induction and maintenance of tolerance was examined in animals primed orally with a soluble protein antigen, ovalbumin (OVA), or in animals primed orally with two unrelated protein antigens administered simultaneously, OVA and bovine serum albumin (BSA). LT is immunologically and structurally related to the cholera enterotoxin (CT), which has been shown to be capable of abrogating oral tolerance to protein antigens when delivered simultaneously with the antigens. In this study, simultaneous administration of LT with OVA was shown to prevent the induction of tolerance to OVA and to increase the serum anti-OVA IgG response 30- to 90-fold over OVA-primed and PBS-primed animals, respectively. This effect was determined to be a function of the enzymatically active A subunit of the toxin since the B (binding) subunit alone was unable to influence tolerance induction. Animals fed LT with OVA after the initial OVA prime developed a significantly lower serum IgG and mucosal IgA anti-OVA response than those fed LT with OVA in the initial immunization, indicating that prior exposure to the antigen reduces the effectiveness of LT to influence tolerance and its ability to act as an adjuvant. LT was not able to abrogate tolerance once it had been established. Serum IgG and mucosal IgA responses in animals receiving LT on only a single occasion, that being upon first exposure to antigen, were equivalent to responses after three OVA/LT primes, indicating that commitment to responsiveness occurs early and upon first exposure to antigen.(ABSTRACT TRUNCATED AT 250 WORDS)     

Effectiveness of intranasal immunization with HIV-gp160 and an HIV-1 env CTL epitope peptide (E7) in combination with the mucosal adjuvant LT(R192G)

LT(R192G) is a novel mucosal adjuvant that induces protective immunity when co-administered with certain whole inactivated bacteria or viruses or with subunits of relevant virulence determinants from these pathogens. LT(R192G) stimulates antigen-specific humoral and cellular immune responses, both systemically and in mucosal compartments, and is safe and nontoxic at adjuvant effective doses. Intranasal (IN) immunization of mice with LT(R192G) in conjunction with oligomeric HIV-1 gp160 elevates antigen-specific systemic and mucosal IgG and IgA production and Th1- and Th2-type cytokine responses. Isotype characterization of induced IgG reveals that gp160 alone fails to stimulate IgG2a responses in the absence of adjuvant. Both IgG1 and IgG2a are induced by immunization in the presence of LT(R192G). Additionally, intranasal immunization with a 15-amino acid peptide corresponding to an HIV-1 Env CTL determinant and LT(R192G) induces systemic, peptide-specific CTL activity and Th1 and Th2 cytokine responses that are absent when the adjuvant is excluded from the immunizations. These studies show that LT(R192G) quantitatively and qualitatively enhances cellular and humoral HIV-specific immune responses and that this adjuvant may offer significant advantages toward vaccine development against HIV.     

两种非侵入性检测方法对儿童幽门螺杆菌感染的诊断价值分析

目的:研究幽门螺杆菌((Helicobacter pylori,Hp)粪便抗原检测(HpSA)及血清抗幽门螺杆菌试验(Hp-IgG)在诊断儿童HP感染中的价值。方法:以胃黏膜快速尿素酶法(RUT)和组织染色法联合检测结果作为Hp感染诊断金标准,通过对137患儿HpSA及Hp-IgG的检测,并与金标准进行对比分析。结果:137例患儿中金标准阳性75例,阴性62例,以金标准作为Hp感染的诊断标准,HpSA检测的敏感度92.0%,特异度95.1%,准确性93.4%;Hp-IgG检测的敏感度89.3%,特异度91.9%,准确性90.5%。结论:HpSA检测是较理想的非侵入性诊断儿童Hp感染的方法,值得在临床推广。     

Helicobacter pylori profile in asymptomatic farmers and non-farmers

There is a positive correlation between Helicobacter pylori infection and chronic active gastritis, peptic ulcer and gastric cancer and maltoma. There is little information on H. pylori profiles in farmers and non-farmers in the literature. Our main objective was to study the H. pylori profiles in farmers and non-formers in the United Arab Emirates. A prospective study of 151 subjects - 76 farmers and 75 non-farmers - was undertaken by determining their IgG and IgA H. pylori antibody profiles in their serum samples. Data on lifestyle were obtained from them. Eligible subjects were those who had engaged in farming for at least five years and who had not received an anti-H. pylori treatment during the six months prior to admission into the study. Most of the farmers lived in less modern accommodation, were less educated, ate their vegetable products unwashed, did not have drinking water facilities, when compared to non-farmers. Helicobacter pylori serology by IgG and IgA was positive in 112 and 77 subjects respectively (p < 0.0001). The sensitivity values for IgG and IgA serology tests were 74.2 and 51.0% respectively (p < 0.001). There were 59 and 42 H. pylori-positive farmers by IgG and IgA H. pylori serology tests respectively (p < 0.001). Among the non-farmers, the corresponding figures were 53 and 25 (p < 0.01), and neither IgG nor IgA (p = 0.4), respectively. The H. pylori serology test was able to differentiate between farmers and non-farmers. When the discordant values between IgG and IgA tests were computed for each group of subjects, the difference was significant for both farmers and non-farmers (p < 0.001 in each case). There was no difference between the farmers and non-farmers in respect of their H. pylori profiles. The farmers have a lower standard of living than non-farmers.     

Oral immunisation of naive and primed animals with transgenic potato tubers expressing LT-B

The efficacy of edible vaccines produced in potato tubers was examined in mice. Transgenic plants were developed by Agrobacterium tumefaciens-mediated transformation. The antigen selected was the non-toxic B subunit of the Escherichia coli enterotoxin (recLT-B). A synthetic gene coding for recLT-B was made and optimised for expression in potato tubers and accumulation in the endoplasmic reticulum. Introduction of this gene under control of the tuber-specific patatin promoter in potato plants resulted in the production of functional, i.e. Gm1-binding, recLT-B pentamers in tubers. Selected tubers containing about 13 microg of recLT-B per gram fresh weight were used for immunisation. Subcutaneous immunisation with an extract of recLT-B tubers yielded high antibody titres in serum that were similar to those obtained with bacterial recLT-B. The efficacy of oral administration of recLT-B tubers was determined by measuring mucosal and systemic immune responses in naive and primed mice. Animals were primed by subcutaneous injection of an extract of recLT-B tuber plus adjuvant. Naive and primed mice were fed 5 g of tubers ( approximately 65 microg of recLT-B) or were intubated intragastrically with 0.4 ml of tuber extract ( approximately 2 microg of recLT-B). In naive mice, feeding recLT-B tubers or intubation of tuber extract did not induce detectable anti-LT antibody titres. In primed animals, however, oral immunisation resulted in significant anti-LT IgA antibody responses in serum and faeces. Intragastric intubation of tuber extract revealed higher responses than feeding of tubers.These results indicate clearly that functional recLT-B can be produced in potato tubers, that this recombinant protein is immunogenic and that oral administration thereof elicits both systemic and local IgA responses in parentally primed, but not naive, animals.     

Effectiveness and safety of mutant Escherichia coli heat-labile enterotoxin (LT H44A) as an adjuvant for nasal influenza vaccine

The effectiveness and safety of mutant Escherichia coli heat-labile enterotoxin, LT H44A (His to Arg substitution at position 44 from the N-terminus of the A1 fragment of the A subunit) as an adjuvant for nasal influenza vaccine were examined. (1) When 0.2 microg of LT H44A, together with 0.2 microg of influenza A/PR/8/34 virus (PR8, H1N1) vaccine, was administered intranasally into BALB/c mice (twice, 4 weeks apart), anti-PR8 hemagglutinin (HA) IgA and IgG antibody (Ab) responses were induced at levels that were sufficient to provide either complete protection against infection with a small volume of PR8 virus suspension or partial protection against infection with a lethal dose of the suspension. The dose of the mutant LT and vaccine used here (0.2 microg/ 20 g doses mouse) corresponded to the estimated dose per person, i.e. 0.1 mg/10 kg body weight. (2) Using these vaccination conditions, no additional total IgE Ab responses were induced. (3) The mutant was confirmed to be less toxic than the native LT when the toxicity was analyzed either using Y1 adrenal cells in vitro (1/483 EC(50)) or by an ileal loop test. (4) One hundred micrograms of the mutant, administered intranasally or intraperitoneally into guinea-pigs (Heartley strain, 0.3-0.4 kg), caused no body-weight changes 7 days after administration, although 100 microg of the native LT administered intraperitoneally caused death in all guinea-pigs due to diarrhea within 2 days. The intranasal administration of 100 microg of the mutant resulted in almost no pathological changes in the nasal mucosa 3 days after administration. These results suggest that LT H44A, which can be produced in high yields in an E. coli culture (about 5 mg/l), could be used as one of the effective and safe adjuvants for nasal influenza vaccine in humans.     

Improvement of the systemic prime/oral boost strategy for systemic and local responses

This paper describes oral boost immunisations of primed animals as an alternative oral vaccination strategy. Mice were primed orally (PO), intranasally (IN), subcutaneously (SC), or intraperitoneally (IP) with ovalbumin (OVA) with or without adjuvant. Boost immunisations were given orally with or without cholera toxin (CT) as adjuvant. Prime immunisations induced variable IgA and IgG(1) titres in serum depending on the route. A subsequent oral boost increased these titres. Use of an adjuvant in the priming significantly increased serum IgA and, to a lesser extend, IgG(1). Oral boost immunisation induced significantly higher serum IgA titres in animals primed via the SC, IP and the IN route compared to the PO route. This was independent of the use of CT. Three oral boosts with OVA plus 5 microg CT given in 5 days to primed mice revealed higher IgA titres compared to single oral boosts and anti-OVA IgA titres in faeces were also detected. Finally, we put together our findings and propose a systemic priming/oral boost strategy in which mice were primed via the SC route with 100 microg OVA plus 50 microg Butyl16-p(AA), and subsequently orally boosted with three doses of 300 microg OVA plus 5 microg CT each. We concluded that oral immunisation is more effective in IN, SC, or IP primed mice than in PO primed mice, and that the IgA antibody response in serum and faeces can be improved by increasing the immunisation frequency and the use of appropriate adjuvants in primary and boost immunisation. The here-formulated strategy improves the probability of success of oral vaccination. The results are discussed in the light of the development of edible vaccines.