The evaluation of the reactogenicity and immunogenic activity of a new concentrated inactivated leptospirosis vaccine

In the controlled field trial the reactogenicity, safety and antigenic activity of a new concentrated inactivated leptospirosis vaccine after its administration in one and two injections of 0.5 ml were studied in comparison with those of the existing commercial vaccine, introduced in two injections in doses of 2.0 and 2.5 ml. The new experimental vaccine exhibited low reactogenicity and was found to be safe and highly immunogenic when introduced in a single injection of 0.5 ml. As shown in this trial, the immunogenic characteristics of immunization made in a single injection were not inferior than those obtained as the result of immunization made in two injections, yielding high percentage of seroconversions (89.8% to 98.3%) with respect to 4 Leptospira serogroups and leading to the production of the protective titers of corresponding antibodies. The existing commercial vaccine was inferior to the experimental one in antigenic activity (the frequency of seroconversions, antibody titers). The results of the trial make it possible to recommend the experimental concentrated leptospirosis vaccine for use in medical practice in a dose of 0.5 ml introduced in a single injection.     

Interferon-inducing and antiviral effects of inosiplex in combination with high-molecular interferon inducers

It has been shown that the immunostimulant inosiplex (IP) is capable of inducing interferon production in mice and of stimulating interferon induction by high-molecular inducers. The combined use of IP and poly (G)-poly (C) or dsRNA (RFf2) leads to a longer interferon circulation in the blood. All the combination schemes ensuring the effect of interferon production prolongation were tested for anti-viral activity. The prophylactic administration of the drugs permitted the attainment in mice of the increased resistance to experimental influenza.     

Ribosomal dysentery vaccine. II. Biological trials of active protection for guinea pigs and mice]

Ribosomal vaccine from Sh. sonnei injected subcutaneously once or twice in physiological saline or in Freund's complete adjuvant produces a marked protective effect against experimental keratoconjunctivitis in guinea pigs. Inhibition of the protective effect by high doses (above 100 microgram) of ribosomal vaccine is evident after a single, but not repeated injections. Protective effect in mice is achieved by immunization with very low doses of ribosomal vaccine: ED50 is 1.2 ng after challenge with 5.6 LD50. The nature of immunogenic factor responsible for the biological activity of the ribosome vaccine is still obscure. In contrast to Boivin's antigen, ribosomal preparations, even in high doses (1000--2000 microgram), have no toxic effect on mice and guinea pigs.     

Polyprenyl Phosphates Induce a High Humoral and Cellular Response to Immunization with Recombinant Proteins of the Replicative Complex of the Hepatitis C Virus

The search for new adjuvants remains the critical task for the creation of hepatitis C vaccines due to the weak immunogenicity of biotechnological products. When immunizing mice with the recombinant proteins NS3 and NS5B of the hepatitis C virus (HCV), the adjuvant activity of three immunomodulators was compared. Phosprenyl® on the basis of polyprenyl phosphate (PPP), chemically synthesized analogue of the bacterial cell wall glucosaminyl muramyl dipeptide (GMDP), and IFN-α recombinant protein were tested. GMDP increased the activity of IgG1 antibodies 4–6 times but did not stimulate the production of IFN-γ; IFN-α has not shown any adjuvant properties. The introduction of recombinant HCV proteins together with PPP in low doses increased the activity of IgG2a isotype antibodies 4–7 times and increased IFN-γ secretion 3 times. Thus, it was first shown that PPP polarizes the immune response to Th1-type and is a promising adjuvant for the development of a vaccine against hepatitis C.     

Oral immunization with recombinant Lactococcus lactis confers protection against respiratory pneumococcal infection

In the present work, we evaluated if oral immunization with the pneumococcal protective protein A (PppA), expressed in the cell wall of Lactococcus lactis (L. lactis PppA+), was able to confer protective immunity against Streptococcus pneumoniae. Mice were immunized orally with L. lactis PppA+ for 5 consecutive days. Vaccination was performed one (nonboosted group) or 2 times with a 2 week interval between each immunization (boosted group). Oral priming with L. lactis PppA+ induced the production of anti-PppA IgM, IgG, and IgA antibodies in serum and in bronchoalveolar (BAL) and intestinal (IF) lavage fluids. Boosting with L. lactis PppA+ increased the levels of mucosal and systemic immunoglobulins. Moreover, the avidity and the opsonophagocytic activity of anti-PppA antibodies were significantly improved in the boosted group. The presence of both IgG1 and IgG2a anti-PppA antibodies in serum and BAL and the production of both interferon gamma and interleukin-4 by spleen cells from immunized mice indicated that L. lactis PppA+ stimulated a mixture of Th1 and Th2 responses. The ability of L. lactis PppA+ to confer cross-protective immunity was evaluated using challenge assays with serotypes 3, 6B, 14, and 23F. Lung bacterial cell counts and hemocultures showed that immunization with L. lactis PppA+ improved resistance against all the serotypes assessed, including serotype 3, which was highly virulent in our experimental animal model. To our knowledge, this is the first demonstration of protection against respiratory pneumococcal infection induced by oral administration of a recombinant lactococcal vaccine.     

Relative Importance of Rotavirus-Specific Effector and Memory B Cells in Protection against Challenge

Adult BALB/c mice were orally inoculated with murine (strain EDIM), simian (strain RRV), or bovine (strain WC3) rotavirus. Six or 16 weeks after inoculation, mice were challenged with EDIM. At the time of challenge and in the days immediately following challenge, production of rotavirus-specific immunoglobulin A (IgA), IgG, and IgM by small intestinal lamina propria lymphocytes (LPL) was determined by fragment culture, and quantities of virus-specific antibodies at the intestinal mucosal surface were determined by intestinal lavage. Mice immunized with EDIM were completely protected against EDIM challenge both 6 and 16 weeks after immunization. Protection was associated with production of high levels of IgA by LPL and detection of virus-specific IgA at the intestinal mucosal surface. In addition, animals immunized and later challenged with EDIM did not develop a boost in antibody responses, suggesting that they were also not reinfected. We also found that in mice immunized with nonmurine rotaviruses, (i) quantities of virus-specific IgA generated following challenge were greater 16 weeks than 6 weeks after immunization, (ii) immunization enhanced the magnitude but did not hasten the onset of production of high quantities of virus-specific IgA by LPL after challenge, and (iii) immunization induced partial protection against challenge; however, protection was not associated with either production of virus-specific antibodies by LPL or detection of virus-specific antibodies at the intestinal mucosal surface.     

A Whole Virus Pandemic Influenza H1N1 Vaccine Is Highly Immunogenic and Protective in Active Immunization and Passive Protection Mouse Models

The recent emergence and rapid spread of a novel swine-derived H1N1 influenza virus has resulted in the first influenza pandemic of this century. Monovalent vaccines have undergone preclinical and clinical development prior to initiation of mass immunization campaigns. We have carried out a series of immunogenicity and protection studies following active immunization of mice, which indicate that a whole virus, nonadjuvanted vaccine is immunogenic at low doses and protects against live virus challenge. The immunogenicity in this model was comparable to that of a whole virus H5N1 vaccine, which had previously been demonstrated to induce high levels of seroprotection in clinical studies. The efficacy of the H1N1 pandemic vaccine in protecting against live virus challenge was also seen to be equivalent to that of the H5N1 vaccine. The protective efficacy of the H1N1 vaccine was also confirmed using a severe combined immunodeficient (SCID) mouse model. It was demonstrated that mouse and guinea pig immune sera elicited following active H1N1 vaccination resulted in 100% protection of SCID mice following passive transfer of immune sera and lethal challenge. The immune responses to a whole virus pandemic H1N1 and a split seasonal H1N1 vaccine were also compared in this study. It was demonstrated that the whole virus vaccine induced a balanced Th-1 and Th-2 response in mice, whereas the split vaccine induced mainly a Th-2 response and only minimal levels of Th-1 responses. These data supported the initiation of clinical studies with the same low doses of whole virus vaccine that had previously been demonstrated to be immunogenic in clinical studies with a whole virus H5N1 vaccine.     

The immunological properties of the main outer membrane protein of Legionella

The immunogenic properties of Legionella outer membrane main protein (OMMP) were studied by its effect on the proliferative activity of lymphocytes in guinea pigs. Preliminary immunization with OMMP activated only the specific and nonspecific proliferation of spleen cells. After infection with Legionella, secondary immune response developed in the spleen and lungs of previously immunized animals, in contrast to intact ones, and the nonspecific proliferative activity of lymphocytes in the spleen and lungs of previously immunized animals considerably increased. These results are indicative of the fact that Legionella OMMP, similarly to other Legionella antigens and immunomodulators, may be used for the formation of protective immunity.     

A novel immunogenic spore coat-associated protein in Bacillus anthracis: characterization via proteomics approaches and a vector-based vaccine system

New generation anthrax vaccines have been actively explored with the aim of enhancing efficacies and decreasing undesirable side effects that could be caused by licensed vaccines. Targeting novel antigens and/or eliminating the requirements for multiple needle injections and adjuvants are major objectives in the development of new anthrax vaccines. Using proteomics approaches, we identified a spore coat-associated protein (SCAP) in Bacillus anthracis. An Escherichia coli vector-based vaccine system was used to determine the immunogenicity of SCAP. Mice generated detectable SCAP antibodies three weeks after intranasal immunization with an intact particle of ultraviolet (UV)-irradiated E. coli vector overproducing SCAP. The production of SCAP antibodies was detected via western blotting and SCAP-spotted antigen-arrays. The adjuvant effect of a UV-irradiated E. coli vector eliminates the necessity of boosting and the use of other immunomodulators which will foster the screening and manufacturing of new generation anthrax vaccines. More importantly, the immunogenic SCAP may potentially be a new candidate for the development of anthrax vaccines.     

Systemic immunity of experimental animals immunized with cholera vaccines

The levels of antitoxic and vibriocidal antibodies in the sera of suckling rabbits after their parenteral immunization with cholera vaccine, cholera toxoid and a combination of cholera vaccine and toxoid were examined. Cholera vaccine induces intensive production of vibriocidal antibodies, and cholera toxoid, of antitoxic antibodies. The parenteral administration of the serum of rabbits immunized with cholera toxoid neutralized the action of cholera toxin in the small intestine of suckling rabbits. The complex preparation combines the properties of the corpuscular vaccine and the toxoid, inducing the production of both vibriocidal and antitoxic antibodies.     

Composition of acellular pertussis and combination vaccines: a general review.

Since the development and introduction of the acellular pertussis vaccine in Japan in the early eighties, we have come a long way in using this component in combination with other vaccines. However, the basic problem in development of an effective and safe pertussis vaccine is that the antigens to induce complete protection against clinical pertussis and the precise mechanism by which pertussis vaccine confers immunity is yet unknown. Hence, the composition of future acellular pertussis vaccine remains an open issue. Recently, acellular pertussis vaccine has been licensed for the booster doses in the U.S.A. and for primary immunization of infants in Italy and Germany. A multicentric trial has been carried out to compare the serological response and adverse reactions of 13 acellular pertussis vaccines. These vaccines contained one or more of the four components, i.e. FHA, PT, 69 kDa OMP and fimbriae. All vaccines were associated with substantially fewer and less adverse reactions and were more immunogenic with respect to antibodies against the added antigens. DTP vaccines in the near future will have combinations of other components and the key antigen for combination will be acellular pertussis component which is going to replace whole cell pertussis component in DTP vaccines. In view of this, manufacturers like ourselves from the developing countries are still groping in the dark, uncertain whether we should have a single component acellular pertussis vaccine or multicomponent one. This will have a major impact on the cost of production, the final cost of the combination vaccines and the regulatory issues that we will have to tackle in view of the recent thinking on harmonization in the pharmaceutical industry.     

Recombinant interleukin 2 as an adjuvant for vaccine-induced protection. Immunization of guinea pigs with herpes simplex virus subunit vaccines

We determined that recombinant interleukin 2 (rIL-2) administered in conjunction with herpes simplex virus (HSV) crude extract or recombinant glycoprotein D subunit vaccine enhances the protective effect of either antigen preparation against HSV type 2 genital infection in guinea pigs. Animals that received the vaccine accompanied by rIL-2 had an incidence of infection, assessed by detection of clinical lesions and/or viral shedding, that varied between 0 and 43% significantly lower than the incidence of 63 to 100% in guinea pigs submitted to the same immunization schedule without rIL-2. Animals that escaped acute infection failed to develop recurrent disease. In addition, severity of acute infection was decreased by rIL-2 co-administration as well as by increasing the number of vaccine doses. We also studied the immune response of the guinea pigs to vaccination and the mechanism of protection. Both enzyme-linked immunosorbent assay titers of antibodies to HSV type 2 and specific antigen stimulation of lymphocytes measured by proliferation and interferon production did not significantly differ among the immunization groups. However, specific cellular cytotoxicity was enhanced by rIL-2 co-administration and was positively correlated with protection. This suggests that rIL-2 may become an important adjuvant in active immunization programs using subunit vaccines, particularly against diseases in which cellular cytotoxicity is a major defense mechanism.     

Synergistic antitumor activity of cyclophosphamide and ABPP in the treatment of established and advanced tumors in murine tumor models

Summary We have previously shown that the in vivo administration of ABPP, an interferon inducing pyrimidinone, generates activated killer cells that can lyse fresh tumor cells in vitro in 4-h ⁵¹chromium release assays. The administration of this agent however has no effect on established tumor. In this communication we show that ABPP, when used in combination with low or moderate doses of cyclophosphamide, can be quite effective against early established (day 3) tumor as well as against advanced, grossly visible (day 8–10) tumor in both the i.p. and pulmonary metastasis model. The synergistic antitumor activity of this cheoimmunotherapeutic regimen was very strong against immunogenic tumors but rather weak against nonimmunogenic tumors. Two treatment cycles were significantly more effective than one and multiple cycles even cured the majority of mice with established i.p. tumor. These experiments demonstrate the potential of chemoimmunotherapeutic regimens and highlight the efficacy of multiple treatment cycles.     

Immunological activity and toxicity of a peroral vaccine made from mutant Re Salmonella minnesota

The possibility of the oral use of heated corpuscular vaccine prepared from S. minnesota mutant R 595 (chemotype Re) for protection against Pseudomonas aeruginosa has been studied. Oral immunization in 3 doses, each containing 10(9) cells of the vaccine strain, has been shown to protect mice from death after the intravenous injection of P. aeruginosa culture in a dose of 5 LD50 and induce a rise in the titers of antibodies to Re-glycolipid (Re-hemagglutinins). After multiple oral administration Re-vaccine shows low acute and chronic toxicity and induces local and systemic immunological transformation.     

Co-administration of plasmid expressing IL-12 with 14-kDa Schistosoma mansoni fatty acid-binding protein cDNA alters immune response profiles and fails to enhance protection induced by Sm14 DNA vaccine alone

Schistosomiasis is an endemic disease that affects 200 million people worldwide. DNA-based vaccine is a promising strategy to induce protective immunity against schistosomiasis, since both humoral and cellular immune responses are involved in parasite elimination. In this study, we evaluated the ability of Sm14 cDNA alone or in association with a plasmid expressing murine interleukin (IL)-12 to induce protection against challenge infection. Mice were immunized with four doses of the DNA vaccine and the levels of protection were determined by worm burden recovery after challenge infection. Specific antibody production to rSm14 was determined by ELISA, and cytokine production was measured in splenocyte culture supernatants stimulated with rSm14 and in bronchoalveolar lavage of vaccinated mice after challenge infection. DNA immunization with pCI/Sm14 alone induced 40.5% of worm reduction. However, the use of pCI/IL-12 as adjuvant to pCI/Sm14 immunization failed to enhance protection against challenge infection. Protection induced by pCI/Sm14 immunization correlates with specific IgG antibody production against Sm14, Th1 type of immune response with high levels of interferon (IFN)-gamma and low levels of IL-4 in splenocyte culture supernatants and in bronchoalveolar lavage after challenge infection. IL-12 co-administration with pCI/Sm14 induced a significant production of nitric oxide in splenocyte culture supernatants and also lymphocyte suppression, with reduced percentage of T cells producing IFN-gamma and tumor necrosis factor-alpha.     

Development of novel strategies to control foot-and-mouth disease: Marker vaccines and antivirals

Foot-and-mouth disease (FMD) is economically the most important viral-induced livestock disease worldwide. The disease is highly contagious and FMD virus (FMDV) replicates and spreads extremely rapidly. Outbreaks in previously FMD-free countries, including Taiwan, the United Kingdom, and Uruguay, and the potential use of FMDV by terrorist groups have demonstrated the vulnerability of countries and the need to develop control strategies that can rapidly inhibit or limit disease spread. The current vaccine, an inactivated whole virus preparation, has a number of limitations for use in outbreaks in disease-free countries. We have developed an alternative approach using a genetically engineered FMD subunit vaccine that only contains the portions of the viral genome required for virus capsid assembly and lacks the coding region for most of the viral nonstructural (NS) proteins including the highly immunogenic 3D protein. Thus, animals inoculated with this marker vaccine can readily be differentiated from infected animals using diagnostic assays employing the NS proteins not present in the vaccine and production of this vaccine, which does not contain infectious FMDV, does not require expensive high-containment manufacturing facilities. One inoculation of this subunit vaccine delivered in a replication-defective human adenovirus vector can induce rapid, within 7 days, and relatively long-lasting protection in swine. Similarly cattle inoculated with one dose of this recombinant vector are rapidly protected from direct and contact exposure to virulent virus. Furthermore, cattle given two doses of this vaccine developed high levels of FMDV-specific neutralizing antibodies, but did not develop antibodies against viral NS proteins demonstrating the ability of FMD subunit vaccinated animals to be differentiated from infected animals. To stimulate early protection prior to the vaccine-induced adaptive immune response we inoculated swine with the antiviral agent, type I interferon, and induced complete protection within 1 day. Protection can last for 3-5 days. The combination of the FMD marker vaccine and type I interferon can induce immediate, within 1 day, and long-lasting protection against FMD. Thus, this combination approach successfully addresses a number of concerns of FMD-free countries with the current disease control plan. By rapidly limiting virus replication and spread this strategy may reduce the number of animals that need to be slaughtered during an outbreak.     

Vaccination with inactivated influenza A virus during pregnancy protects neonatal mice against lethal challenge by influenza A viruses representing three subtypes.

A single intraperitoneal injection of pregnant mice with a monovalent Formalin-inactivated influenza A virus vaccine protected their offspring against a lethal challenge dose of the same influenza A virus H3N2, H2N2, and H1N1 subtypes, as well as against challenge with the other two subtypes. Degree of protection was vaccine dose related. Cross-fostering of neonates indicated that protection was conferred by breast milk antibodies. Serum virus-specific neutralizing antibodies in the mothers and neonates correlated with resistance to vaccine virus, but were detected against other subtypes only in a complement enhancement test or when high doses of vaccine were given.     

Evaluation of the reactogenicity and immunogenic potency of combined vaccine "Bubo-Kok" in the immunization of children against diphtheria, tetanus, pertussis and viral hepatitis B

Combined vaccine "Bubo-Kok" is characterized by safety and high immunological activity. The number of postvaccinal reactions in children aged 1 and 2 years, immunized with vaccine "Bubo-Kok", was not statistically different from those in groups of children immunized with adsorbed DPT vaccine, as well with such vaccine in combination with vaccine against hepatitis B. After the completion of the primary course of immunization 100% of children had protective antibody titers against diphtheria, tetanus and hepatitis B. Antibody titers against pertussis, equal to or exceeding protective titers, were found in more than 70% of immunized children. The immunogenic potency of vaccine "Bubo-Kok" with respect to all its components was not inferior to that of adsorbed DPT vaccine and vaccine against hepatitis B, when introduced simultaneously in different areas of the body. Vaccine "Bubo-Kok" successfully passed state trials and was recommended for registration.     

Determination of the optimal inoculation dose of Brucella chemical vaccine

Brucellosis chemical vaccine, when injected intramuscularly, proved to be low-reactogenic, postvaccinal reactions, both systemic and local, becoming less frequent and intense with the decrease of the dose from 2 to 0.5 mg. The highest antigenic and immunogenic activity was observed with a dose of 1 mg; out of 4 tested doses this dose produced the highest percentage of seroconversions, the highest titers of agglutinins and the longest time of their persistence in the subjects. When introduced in doses of up to 2 mg, brucellosis chemical vaccine did not induce pronounced sensitization. A high degree of correlation between the indices of seroconversion frequency in Wright's agglutination test and Huddleson's test was established after vaccination with all tested doses. This fact indicates that one of these tests can be used for the assessment of the antigenic and immunogenic activity of the vaccine at an early period after immunization (the term of observation not exceeding 3 months). On the basis of the complex comparison of the indices characterizing the reactogenicity and the antigenic and immunogenic activity of 4 tested doses of brucellosis chemical vaccine a dose of 1 mg was chosen as the optimum vaccination dose.     

The reactogenicity and immunological efficacy of a Klebsiella vaccine in donors

Klebsiella vaccine, when injected subcutaneously to donors, proved to be faintly reactogenic and safe. The injection of the vaccine had no effect on changes in the morphological composition of peripheral blood and on liver function. In persons with the initially low content of IgG an increase in this characteristic was observed after immunization. No changes in the synthesis of IgE occurred in healthy donors under the influence of immunization. The vaccine was shown to be immunogenic when introduced according to immunization schedules comprising 3 and 5 injections, the titer of Klebsiella antibodies increasing 3- to 5-fold.