Protection of piglets against Edema disease by maternal immunization with Stx2e toxoid.

Edema disease (ED) in piglets is caused by Shiga toxin Stx2e-producing Escherichia coli. We show that a genetically disarmed Stx2e toxoid is a safe antigen that generates antiserum protecting piglets against the Stx2e toxin. Immunization of suckling piglets with the Stx2e toxoid was safe, had no adverse effects on growth of the piglets, and resulted in effective prevention of edema disease clinical symptoms after challenge with the Stx2e toxin. Our data showed that maternal immunity against the Stx2e toxoid can be transmitted from the vaccinated sows to the piglets via the colostrum. Very high levels of Stx2e-specific serum antibodies persisted in these piglets until 1 month postweaning, bridging the critical period in which the weaned piglets are most susceptible to edema infection. Challenge with Stx2e toxin resulted in clinical signs of edema disease and death of all control piglets from nonimmunized sows, whereas none of the piglets from immunized sows developed clinical signs of ED.

An assessment of thermal stability of Clostridium difficile toxoid formulations.

Strains of Clostridium difficile produce toxins A and B that can cause diarrhoea and pseudomembranous colitis. Currently, there is no preventative therapy for this infection but antibodies to the toxins provide protection, therefore a toxoid-based vaccine is needed. To evaluate thermal stability, a lyophilized and liquid formulation of toxoids A and B were stored at a range of temperatures for 5 weeks. Changes in toxoid structures and immune responses in an animal model before and after the incubation period were assessed. The structural integrity and the immune responses to liquid formulations were affected when stored at 56°C but the lyophilized formulation was thermally stable and same treatment did not result in significant loss of immunological responses when immunized in an animal model.

Safety of Diphtheria and Tetanus Toxoids and Acellular Pertussis (DTaP) Vaccine in Adults in Japan.

Tetanus toxoid, reduced diphtheria toxoid, and acellular pertussis (Tdap) vaccine is generally used for booster vaccination of infants in Europe and the United States to avoid increased reactogenicity after diphtheria and tetanus toxoids and acellular pertussis (DTaP) vaccination. However, Japan has extended the use of additional DTaP vaccination without reducing the antigen dose for diphtheria and pertussis in adolescents and adults, despite limited reports on its safety in adults. This prospective, observational, questionnaire-based study investigated the occurrence of adverse events (AEs) following DTaP vaccination between June 2018 and June 2019 in participants aged 10 years or older. Of the 250 eligible participants, 235 (94%) responded regarding AEs. Among them, 133 (56.6%) reported AEs, of which 39 reported systemic AEs (16.6%) and 120 reported local AEs (51.1%) attributed to DTaP vaccination. The incidence of local AEs was markedly higher with DTaP vaccination than with non-DTaP vaccination (51.1% vs. 10.5%), and AEs appeared later (P < 0.01) and lasted longer (P < 0.01) with DTaP vaccination. However, more than 75% of these AEs resolved within 7 days. DTaP vaccination was not associated with any serious AEs. These results indicate that the DTaP vaccine can be widely used as a booster in adults as an alternative to the Tdap vaccine.

Safety and efficacy of a maternal vaccine for the passive protection of broiler chicks against necrotic enteritis.

Necrotic enteritis is a potentially fatal multifactorial disease of chickens, which under commercial conditions is often associated with increased levels of mortality and reduced bird performance. The safety and efficacy of a Clostridium perfringens type A alpha-toxoid (Netvax™) formulated as an oil emulsion was investigated, following maternal immunization of broiler breeder hens, housed under commercial conditions, by the intramuscular route. A total of 11,234 hens were vaccinated across two integrated poultry sites. The vaccine was safe with no systemic reactions or adverse effects on bird performance detected. Vaccination resulted in a significant increase in anti-alpha toxin antibody in the hen that was maintained throughout the study, and subsequently transferred to their progeny throughout the laying period via egg yolk. Chicks hatched from eggs produced from vaccinated hens were shown to have reduced mortality specifically related to progeny flocks where gross gut lesions associated with necrotic enteritis were observed in control chicks. Further, whilst C. perfringens was isolated from control chicks with necrotic enteritis lesions, no such isolations were made at these time points from chicks from vaccinated hens. These results indicate that, under commercial conditions, maternal vaccination with Netvax™ can help to control losses related to necrotic enteritis.

[Allergic and non-allergic hypersensitivity reactions to toxoid-containing vaccines]. / Les réactions d'hypersensibilité allergique et non allergique aux vaccins contenant des anatoxines.

Most allergic (like) reactions to vaccines are reported in patients immunized with diphtheria and tetanus toxoid-containing vaccines. Local inflammatory reactions are the most frequent, but most of them are non-specific. Diagnosis of Arthus-type reactions is based on clinical history and specific IgM/IgG anti-toxoid determination. For other local reactions (persistent nodules, sterile abscesses, etc.), diagnostic value of non-immediate responses in skin tests varies with clinical symptoms and substances involved. Immediate responses in skin tests and specific antibody determination have good diagnostic and/or predictive value in anaphylaxis and immediate and accelerated urticaria and angioedema. Although a few generalized non-immediate reactions may result from toxoid-specific semi-late or delayed-type hypersensitivity, most reactions are non-specific. Withholding booster injections is advised if specific IgM/IgG levels are high. If the levels are low, sequential intramuscular injections of mono- or paucivalent vaccines are usually tolerated. However, injections of the vaccine should be performed using a "desensitization" procedure in patients reporting anaphylaxis and immediate or accelerated urticaria or angioedema.

Botulinum neurotoxin vaccines: past, present, and future.

In the early 1930s, a formalin-inactivated toxoid against botulinum neurotoxin was first tested in humans. In 1965, a pentavalent botulinum toxoid (PBT) received Investigational New Drug (IND) status under the Centers for Disease Control's IND 161 (for at-risk workers), and in 1991 under the United States Army's Office of the Surgeon General IND 3723 (for military deployment). This PBT vaccine has been shown to be safe, with over 20,000 injections given to date, and continues to be used in at-risk individuals. During the past decade, recombinant DNA technology has been employed to develop second-generation vaccines to prevent botulism. Recombinant subunit vaccines utilizing the receptor-binding domains of botulinum neurotoxin (BoNT) have been shown to be safe and efficacious in protecting animal models against BoNT serotypes A, B, C1, D, E, and F. In 2004, the first recombinant subunit vaccine [rBV A/B (Pichia pastoris) vaccine] was tested in humans during a phase I clinical trial. Results from that study demonstrated that the recombinant bivalent vaccine was safe and well tolerated at all dosage levels tested and stimulated serotype-specific neutralizing antibodies among the majority of vaccine recipients.

Preclinical evaluation of a chemically detoxified pneumolysin as pneumococcal vaccine antigen.

The use of protein antigens able to protect against the majority of Streptococcus pneumoniae serotypes is envisaged as stand-alone and/or complement to the current capsular polysaccharide-based pneumococcal vaccines. Pneumolysin (Ply) is a key virulence factor that is highly conserved in amino acid sequence across pneumococcal serotypes, and therefore may be considered as a vaccine target. However, native Ply cannot be used in vaccines due to its intrinsic cytolytic activity. In the present work a completely, irreversibly detoxified pneumolysin (dPly) has been generated using an optimized formaldehyde treatment. Detoxi-fication was confirmed by dPly challenge in mice and histological analysis of the injection site in rats. Immunization with dPly elicited Ply-specific functional antibodies that were able to inhibit Ply activity in a hemolysis assay. In addition, immunization with dPly protected mice against lethal intranasal challenge with Ply, and intranasal immunization inhibited nasopharyngeal colonization after intranasal challenge with homologous or heterologous pneumococcal strain. Our findings supported dPly as a valid candidate antigen for further pneumococcal vaccine development.

Clinical Study of New Tetravalent (Type A, B, E, and F) Botulinum Toxoid Vaccine Derived from M Toxin in Japan.

Botulinum toxin is the most poisonous substance known, and is believed to be a highly lethal as a biological weapon; researchers of the toxin are exposed to this hazard. Botulinum toxoid vaccines have been produced and used in Japan. However, since clinical studies involving these vaccines were conducted before establishment of the Ethical Guidelines for Clinical Research in Japan, their immunogenicity and safety were not systematically assessed. In this study, we produced a new tetravalent (type A, B, E, and F) botulinum toxoid vaccine, the first ever to be derived from M toxin, and conducted quality control tests with reference to the Minimum Requirements in Japan for adsorbed tetanus toxoid vaccine. Subsequently, a clinical study using the new vaccine in 48 healthy adult volunteers was conducted according to the guidelines in Japan. No clinically serious adverse event was noted. Neutralizing antibody titers for each type of toxin in the participants' sera, 1 month after the 4th injection were more than 0.25 IU/mL, indicating sufficient protection. This study demonstrated that the vaccine has marked immunogenicity and is safe for use in humans.

Defining the optimal formulation and schedule of a candidate toxoid vaccine against Clostridium difficile infection: A randomized Phase 2 clinical trial.

BACKGROUND: Clostridium difficile, a major cause of nosocomial and antibiotic-associated diarrhea, carries a significant disease and cost burden. This study aimed to select an optimal formulation and schedule for a candidate toxoid vaccine against C. difficile toxins A and B. METHODS: Randomized, placebo-controlled, two-stage, Phase 2 study in a total of 661 adults aged 40-75 years. Stage I: low (50 µg antigen) or high (100 µg antigen) dose with or without aluminum hydroxide (AlOH) adjuvant, or placebo, administered on Days 0-7-30. Stage II: Days 0-7-30, 0-7-180, and 0-30-180, using the formulation selected in Stage I through a decision tree defined a priori and based principally on a bootstrap ranking approach. Administration was intramuscular. Blood samples were obtained on Days 0, 7, 14, 30, 60 (Stage I and II), 180, and 210 (Stage II); IgG to toxins A and B was measured by ELISA and in vitro functional activity was measured by toxin neutralizing assay (TNA). Safety data were collected using diary cards. RESULTS: In Stage I the composite immune response against toxins A and B (percentage of participants who seroconverted for both toxins) was highest in the high dose+adjuvant group (97% and 92% for Toxins A and B, respectively) and was chosen for Stage II. In Stage II the immune response profile for this formulation through Day 180 given on Days 0-7-30 ranked above the other two administration schedules. There were no safety issues. CONCLUSIONS: The high dose+adjuvant (100 µg antigen+AlOH) formulation administered at 0-7-30 days elicited the best immune response profile, including functional antibody responses, through Day 180 and was selected for use in subsequent clinical trials.

Cytotoxicity and apoptotic effects of microcystin-LR and anatoxin-a in mouse lymphocytes.

There is an increasing amount of knowledge on the cytotoxic properties of cyanotoxins, but relatively little is known regarding their fine specificity and mechanisms of action. In this study, we investigated the influence of microcystin-LR and AnTx-a on mouse B- and T-lymphocyte subpopulations in vitro. Cyanotoxins significantly decreased the cell viability after 4 and 24 h, compared to the untreated control. After 24 h exposure to microcystin-LR and anatoxin-a, the viability of splenocytes dropped to 23% and 57%, respectively. Our data demonstrate that microcystin-LR induced apoptosis specifically in mouse B cells, probably via the B-cell antigen receptor and mitochondrial pathway, while the T cells were not affected. AnTx-a showed cytotoxic effects on both lymphocyte subpopulations, but the effects were driven by mechanisms different from apoptosis. These findings demonstrate that the cyanotoxins could cause cytotoxic alterations in a variety of cell types different from the major targets, operating via distinct mechanisms.

Acellular and whole-cell pertussis vaccines as booster doses: a multicenter study.

OBJECTIVE: To compare the safety and immunogenicity of a variety of acellular (AC) and whole-cell (WC) pertussis vaccines combined with diphtheria and tetanus toxoids. METHODS: Standard enrollment and reaction forms were used at five sites, and serologic evaluation was performed at a single site. Nine AC (Massachusetts Public Health Laboratories, Biocine Sclavo recombinant pertussis toxoid [PT], Connaught/BIKEN, Lederle three-component, Biocine Sclavo recombinant three-component, SmithKline Beecham three-component, Porton three-component, Takeda-Wyeth, and Connaught multicomponent), and three WC (Connaught Laboratories, Lederle Laboratories, and Massachusetts Public Health Laboratories) were studied. All AC contained varying concentrations of PT; some vaccines also contained filamentous hemagglutinin (FHA), pertactin, and/or agglutinogens. RESULTS: Two hundred forty children, aged 16 to 21 months and 4 to 6 years, were enrolled at five sites. Significantly less fever, redness, swelling, pain, limp, and use of pain medication were noted following AC compared with WC. Significant increases in antibody to PT were seen following all vaccines. Significant rises in FHA antibody were seen following all WC and the seven AC that contained FHA. Postbooster PT antibody levels were similar among the AC groups, regardless of the amount of PT administered (between 3.5 and 25 micrograms per dose). The dose of FHA did not affect PT antibody response. Infants primed with WC who were boosted with a monocomponent PT vaccine did not manifest a significant antibody response to FHA. CONCLUSION: The rate of adverse reactions was not a function of the number of antigens or the antigen quantity in the acellular vaccines, and antibody responses following AC were similar or better than antibody responses following WC. These results support the further evaluation of these vaccines in a larger National Institute of Allergy and Infectious Diseases-sponsored study in infants.

Adult formulation of a five component acellular pertussis vaccine combined with diphtheria and tetanus toxoids and inactivated poliovirus vaccine is safe and immunogenic in adolescents and adults.

BACKGROUND: Pertussis is increasingly recognized as an important cause of cough illness in adolescents and adults. PURPOSE: To evaluate the safety and antibody response to a single dose of an adult formulation of a five component (pertussis toxoid, filamentous hemagglutinin, pertactin, fimbriae 2 and 3) acellular pertussis vaccine (aP) combined with diphtheria and tetanus toxoids (TdaP) and inactivated poliovirus vaccine (TdaP-IPV) in adolescents and adults and to assess the response to a second dose of the acellular pertussis vaccine in a subset of the adults. POPULATION AND SETTING: The study addressed 1207 healthy participants (736 adults and 466 adolescents) recruited in five Canadian communities. STUDY DESIGN: In a randomized, observer-blind, controlled clinical trial, adult participants received Td followed at a separate visit by aP, TdaP followed by IPV or TdaP-IPV; adolescents received Td-IPV followed at a separate visit by aP or TdaP-IPV. A subgroup of adults was given a booster of aP 1 month after TdaP. OUTCOME MEASURES: Antibody titers measured before and 1 month after each immunization; adverse events enumerated at 24 h, 72 h and 8 to 10 days. RESULTS: The aP vaccine given by itself was associated with adverse events less frequently than were Td, Td-IPV, TdaP or TdaP-IPV vaccines, but reaction rates did not differ significantly among the latter products. The antibody response against Bordetella pertussis antigens was vigorous in all groups, although adults given the TdaP-IPV vaccine had lower antibody titers against filamentous hemagglutinin, pertactin, diphtheria and tetanus antibodies than those given TdaP vaccine. Similarly adolescents given TdaP-IPV had lower antibody titers against pertussis toxin, filamentous hemagglutinin, fimbriae and agglutinins than those given Td-IPV and aP alone. A second dose of acellular pertussis vaccine was not associated with increased adverse events in adults but elicited increased antibody titers over that achieved by a single dose only against pertussis toxin. CONCLUSIONS: This adult formulation five component aP vaccine given as TdaP-IPV is safe and immunogenic in adolescents and adults and is a candidate vaccine for adolescent and adult immunization programs.

A prophylactic and therapeutic AIDS vaccine containing as a component the innocuous Tat toxoid.

Extracellular Tat can act as a viral toxin on uninfected cells of different tissues, including the CNS and the immune system, thus in order to immunize humans against Tat we have prepared a biologically inactivated but immunogenic Tat (Tat Toxoid). Tat Toxoid is not toxic in mice even at high doses. It triggers high levels of specific Tat Abs in the mouse and rabbit. Furthermore, in humans Tat Toxoid immunization was safe and induced in seronegatives persistent high levels of Tat Abs and in immunodeficient patients a significant rise of these specific Abs. Facing acute HIV-1 infection, the presence of high level of circulating Tat Abs promoted by Tat Toxoid vaccine should prevent Tat-induced immunosuppression and allow anti-HIV-1 cellular response to develop. As a consequence, early release of beta-chemokines could enhance host resistance towards HIV-1, and, in infected people, inhibit viral replication and evolution towards AIDS.

Effect of vaccination with an Escherichia coli bacterin-toxoid on milk production in dairy cattle.

OBJECTIVE: To determine whether vaccination of lactating cattle with an Escherichia coli J5 bacterin-toxoid would produce a significant short-term change in milk production. DESIGN: Randomized, controlled clinical trial. ANIMALS: 84 healthy, lactating cows (42 Holsteins and 42 Jerseys). PROCEDURE: Control and vaccinated cows were paired on the basis of breed, days in milk, daily milk production 1 week prior to vaccination, and parity. One cow in each pair was inoculated IM with a commercially available bacterin-toxoid according to label directions; the other cow was given saline solution. Cows were milked twice daily for 5 days before and 5 days after inoculation. Milk production was compared by ANCOVA. RESULTS: Vaccinated cows produced significantly less milk than did control cows at the second and third milkings after inoculation. At these milkings, milk production in vaccinated cows was approximately 7% less than that of controls. CLINICAL IMPLICATIONS: Vaccination of lactating cattle with an E coli J5 bacterin-toxoid may cause a significant short-term decrease in milk production.

The antibody response of cattle to Clostridium botulinum types C and D toxoids.

The resistance of cattle with varying serum-antitoxin titres was determined by per os challenge. The results proved that a solid immunity can be produced against C. botulinum toxins C1 and D. The immune response of cattle to various quantities of C. botulinum C1 and D toxoids, aluminium-phosphate-adsorbed and in water-in-oil emulsion was investigated. The response to antigen in water-in-oil emulsion was far superior to the other when they were used for primary and secondary stimuli. When cattle had been given a solid basic immunity with 2 injections of antigen in water-in-oil emulsion, essentially the same booster effect was obtained with antigen in water-in-oil emulsion and in aqueous solution. Only some of the animals injected intramuscularly with antigens in water-in-oil emulsion developed local lesions. These lesions were not large and their histological picture indicated a noticeable decline in severity within 20 weeks. A case is thus made out for the use of C. botulinum C1 and D toxoids in water-in-oil emulsion for the primary and secondary stimuli and an aqueous solution of these antigens for any booster stimulus as an improved method of protecting cattle against botulism.

[The safety, reactogenicity and antigenic activity of a Pseudomonas aeruginosa anatoxin studied in volunteers]. / Izuchenie bezopasnosti, reaktogennosti i antigennoi aktivnosti anatoksina Pseudomonas aeruginosa na dobrovol'tsakh.

The safety, reactogenicity and immunogenic activity of P. aeruginosa toxoid were studied in 46 volunteer donors. Systemic reactions to the injection of the preparation were absent in all vaccinees, in 2 subjects (4.3%) insignificant reactions at the site of injection in the form of hyperemia, sized 13-14 mm and disappearing within 48 hours, were registered. The preparation was found stimulate humoral immunity, which was manifested by an increase in the number of B-rosette-forming lymphocytes and the level of antitoxic IgG in the blood of the vaccinees. Besides, immune sera obtained from the blood of the volunteers were found to possess protective properties.

Phase I dose finding studies of an adjuvanted Clostridium difficile toxoid vaccine.

Fifty healthy adult (18-55 years) and 48 elderly (≥ 65 years) volunteers were randomized to receive a candidate Clostridium difficile toxoid vaccine (2 µg, 10 µg, or 50 µg) or placebo on Days 0, 28, and 56. No volunteer receiving placebo seroconverted. For toxin A, seroconversion by Day 56 (post-dose 2) was observed in 100% of volunteers aged 18-55 years in all dose groups and in 50%, 89%, and 100% of elderly participants in the 2 µg, 10 µg, and 50 µg dose groups, respectively. For both age groups, seroconversion for toxin B was lower than toxin A. There were no safety concerns.

Protective immunity to DENV2 after immunization with a recombinant NS1 protein using a genetically detoxified heat-labile toxin as an adjuvant.

The dengue virus non-structural 1 (NS1) protein contributes to evasion of host immune defenses and represents a target for immune responses. Evidences generated in experimental models, as well as the immune responses elicited by infected individuals, showed that induction of anti-NS1 immunity correlates with protective immunity but may also result in the generation of cross-reactive antibodies that recognize platelets and proteins involved in the coagulation cascade. In the present work, we evaluated the immune responses, protection to type 2 dengue virus (DENV2) challenges and safety parameters in BALB/c mice vaccinated with a recombinant NS1 protein in combination with three different adjuvants: aluminum hydroxide (alum), Freund's adjuvant (FA) or a genetically detoxified derivative of the heat-labile toxin (LT(G33D)), originally produced by some enterotoxigenic Escherichia coli (ETEC) strains. Mice were subcutaneously (s.c.) immunized with different vaccine formulations and the induced NS1-specific responses, including serum antibodies and T cell responses, were measured. Mice were also subjected to lethal challenges with the DENV2 NGC strain. The results showed that maximal protective immunity (50%) was achieved in mice vaccinated with NS1 in combination with LT(G33D). Analyses of the NS1-specific immune responses showed that the anti-virus protection correlated mainly with the serum anti-NS1 antibody responses including higher avidity to the target antigen. Mice immunized with LT(G33D) elicited a prevailing IgG2a subclass response and generated antibodies with stronger affinity to the antigen than those generated in mice immunized with the other vaccine formulations. The vaccine formulations were also evaluated regarding induction of deleterious side effects and, in contrast to mice immunized with the FA-adjuvanted vaccine, no significant hepatic damage or enhanced C-reactive protein levels were detected in mice immunized with NS1 and LT(G33D.) Similarly, no detectable alterations in bleeding time and hematological parameters were detected in mice vaccinated with NS1 and LT(G33D). Altogether, these results indicate that the combination of a purified recombinant NS1 and a nontoxic LT derivative is a promising alternative for the generation of safe and effective protein-based anti-dengue vaccine.

Acceptable levels of endotoxin in vaccine formulations during preclinical research.

This brief commentary reviews endotoxin levels of commercial vaccines and puts them into context for the preclinical researcher working in vaccines. Vaccines are not required to adhere to endotoxin levels as outlined in the United States Pharmacopoeia. Vaccine manufacturers have to show that the vaccine is safe and efficacious in clinical trials. Endotoxin limits are typically lot release specifications for most vaccines, but these values are not available to most researchers designing preclinical experiments. The limits outlined are calculated from endotoxin levels found in a variety of vaccine types such as gene vectors, recombinant subunits, polysaccharide, live attenuated, inactivated and toxoid vaccines. It is clear that certain families of vaccines such as toxoids contain much higher levels of endotoxin, where others such as purified recombinant subunits and gene vectors may contain very low levels.

Vaccine hypersensitivity--update and overview.

Concerns about possible reactions to vaccines or vaccinations are frequently raised. However, the rate of reported vaccine-induced adverse events is low and ranges between 4.8-83.0 per 100,000 doses of the most frequently used vaccines. The number of true allergic reactions to routine vaccines is not known; estimations range from 1 per 500,000 to 1 per 1,000,000 doses for most vaccines. When allergens such as gelatine or egg proteins are components of the formulation, the rate for serious allergic reactions may be higher. Nevertheless, anaphylactic, potentially life-threatening reactions to vaccines are still a rare event (approximately 1 per 1,500,000 doses). The variety of reported vaccine-related adverse events is broad. Most frequently, reactions to vaccines are limited to the injection site and result from a non specific activation of the inflammatory system by, for example, aluminium salts or the active microbial components. If allergy is suspected, an accurate examination followed by algorithms is the key for correct diagnosis, treatment and the decision regarding revaccination in patients with immediate-type reactions to vaccines.