Acetone-treated pertussis vaccine--a potent and safer new pertussis vaccine

A vaccine was prepared from the growth of Bordetella pertussis by repeated treatment with acetone. The vaccine has been designated as acetone-treated pertussis vaccine (ATPV). A total of ten batches of ATPV were prepared, five each from B. pertussis strains 134 and 509. These strains are routinely employed at this Institute for the production of conventional whole-cell pertussis vaccine (WCPV) for blending in diphtheria-pertussis-tetanus vaccine. The mouse protective and histamine sensitizing activities of ATPV and WCPV were compared. The ATPV showed 1.5- to 2-fold higher potency than the WCPV. The histamine sensitizing activity of ATPV was much reduced compared with that of the WCPV. No appreciable difference was observed in the results of a mouse weight-gain tests between the ATPV and WCPV. The details of the preparation of ATPV have been described. Because of higher potency and reduced histamine sensitizing activity, the ATPV may prove more acceptable in immunization programmes against pertussis, even in countries where WCPV is unpopular due to its suspected reactogenicity.     

Development of acellular pertussis vaccines.

In 1974, the authors reported the isolation and characterization of protective antigens of Bordetella pertussis in mice. With this information, an acellular pertussis vaccine was developed, composed mainly of pertussis toxin (PT) and filamentous haemagglutinin (FHA). Substances causing side effects, especially lipopoly sacahoride (LPS) or endotoxin that cause fever, were removed, and detoxification of the PT by formaldehyde with retention of potency was achieved. In 1981, an acellular pertussis vaccine called the "Adsorbed Purified Pertussis Vaccine" was approved in Japan, in place of the whole-cell pertussis vaccine. The acellular pertussis vaccine has been widely accepted as safer and more efficacious in Japan. Since 1981, intense surveillance has shown that there are only rare adverse reactions and that pertussis has virtually been eliminated in Japan. Evaluation of active immunization with highly purified and pharmacologically inert PT and FHA and passive immunization with polyclonal and monoclonal antibodies, provide quantitative data about the vaccine-induced immunity in mice. Finally, it was discovered that the PT toxoid in the vaccine is the major and essential protective antigen. The toxoid of PT should be sufficient for protection against pertussis.     

Comparative study of the immunoglobulins and specific antibodies in the blood of rabbits immunized with ADTP vaccine and ADT-anatoxin with normal and reduced antigen contents

Adsorbed DPT vaccine and adsorbed DT toxoids with normal and reduced antigen content were used for the immunization of rabbits. The levels of IgM and IgG and the dynamics of antibodies to diphtheria and tetanus toxins and to Bordetella pertussis in the blood sera of the animals were studied in the postvaccinal period (on days 15 and 34). This study revealed that the reduction of the antigen content of adsorbed DT toxoid to 5 Lf of diphtheria toxoid and 5 binding units of tetanus toxoid did not decrease the capacity of the preparation for increasing the levels of IgG and IgM, antibodies to diphtheria and tetanus toxins in the sera of the rabbits. The reduced content of these toxoids in adsorbed DPT vaccine did not affect its capacity for inducing the enhanced synthesis of IgG, antibodies to diphtheria and tetanus toxins, while the production of IgM and IgA remained unchanged. At the same time an increase in the titers of antibodies to B. pertussis in the animals was less pronounced than that observed after the injection of commercial adsorbed DPT vaccine. Additional investigations are necessary in order to establish the protective potency of the pertussis component in adsorbed DPT vaccine with the reduced content of toxoids and to find out the optimum antigenic composition for this preparation.     

Immunogenicity and toxicity of soluble trichloroacetic acid precipitate from pertussis microbes and its fractions]

The authors studied the biological properties of the preparations of pertussis protective antigens obtained by the disintegration of the microbial mass of Bordetella pertussis, with the subsequent purification with trichloracetic acid (TCA-preparations). TCA-preparations proved to possess a stable protective activity and by the ratio of the protective dose to toxic and histamine-sensitizing doses considerably exceeded the corpuscular vaccine. A TCA-preparation fraction with a greater immunogenic activity than the initial preparation was obtained by chromatography on sepharose 4B.     

Protective immunity against Bordetella pertussis by a recombinant DNA vaccine and the effect of coinjection with a granulocyte-macrophage colony stimulating factor gene

A recombinant pertussis DNA vaccine was described here with its immunogenicity and the ability to induce protection against B. pertussis infection in mice. Three immunodominant antigen gene fragments of pertussis, pertussis toxin subunit 1 (pts1), fragments of pertactin (prn) and filamentous hemagglutinin (fha), were recombined as fragment pts1-prn-fha named ppf, and it was cloned to plasmid pVAX1 as pVAX1/ppf. Compared to those injected with pVAX1, the mice injected with pVAX1/ppf significantly elicited more antigen specific antibody anti-PTS1, anti-PRN, anti-FHA and cytokine IL-10, IFN-gamma. When pGM-CSF was coinjected with pVAX1/ppf, the mice showed significantly increases of the three antibodies and cytokine IL-10, IL-4, IFN-gamma and TNF-alpha compared to those injected with pVAX1 only. The mice in group pVAX1/ppf & pGM-CSF, in particular; induced much more anti-PTS1, IL-4 and TNF-alpha than those in group pVAX1/ppf. In the intracerebral mouse protection test, the mice immunized with pVAX1/ppf or pVAX1/ppf & pGM-CSF induced protection to a lethal dose of B. pertussis. The results indicate that recombinant DNA vaccine and pGM-CSF coinjection can induce protective immunity against B. pertussis, demonstrating a valuable method to prevent pertussis.     

Endotoxin-induced hypersensitivity to histamine in mice. I. Contrasting effects of bacterial lipopolysaccharides and the classical histamine-sensitizing factor of Bordetella pertussis

Pieroni, Robert E. (Massachusetts Department of Public Health, Boston), Edward J. Broderick, and Leo Levine. Endotoxin-induced hypersensitivity to histamine in mice. I. Contrasting effects of bacterial lipopolysaccharides and the classical histamine-sensitizing factor of Bordetella pertussis. J. Bacteriol. 91:2169-2174. 1966.-The capacity of typhoid and possibly of pertussis endotoxins to induce histamine-shock susceptibility in some of the mice that survive graded doses of these endotoxins was confirmed. It was demonstrated, however, that pertussis endotoxin cannot be the main source of the typical histamine sensitization of pertussis vaccine. The following points are made. (i) With typhoid and pertussis endotoxins as inducers of histamine shock, no systematic relation between deaths and induction dose could be found, and 100% mortality could not be achieved. In contrast, with pertussis protective fraction as inducer, there was clear dose-response regression, with 100% mortality possible. (ii) The major part of the histamine-sensitizing activity of pertussis vaccine or its extracts was destroyed by trypsinization or by heating for 30 min at 100 C. These processes do not affect the histamine-sensitizing activity of the endotoxins. The implication for purified pertussis vaccine with high histamine-sensitization capacity is that endotoxin need not necessarily be present. The significance and possible mechanisms of action of endotoxin-induced histamine sensitivity are briefly discussed.     

The influence of Bordetella pertussis and its constituents on the beta-adrenergic receptor in the guinea pig respiratory system

In the present study, the effect of vaccination of guinea pigs with Bordetella pertussis was investigated, 4 days after treatment, on the cholinergic and beta-adrenergic receptor function in isolated tracheal spirals and the number of beta-adrenoceptor binding sites in guinea pig lung. It was found that B. pertussis caused an impairment in the beta-adrenoceptor function and a decrease in its number. Similar results were obtained with endotoxin. Leucocytosis promoting factor, however, was ineffective. These results indicate that endotoxin is the constituent responsible for the beta-adrenoceptor blocking effects of the bacterium. Also the combined whole cell diphtheria, B. pertussis and tetanus toxoid vaccine induced a beta-adrenoceptor blockade; the acellular vaccine was less effective. The results obtained with the B. pertussis vaccines are discussed in relation to the possible side-effects that sometimes occur after immunization of infants.     

TLR4 mediates vaccine-induced protective cellular immunity to Bordetella pertussis: role of IL-17-producing T cells

Whole cell pertussis vaccines (Pw) induce Th1 responses and protect against Bordetella pertussis infection, whereas pertussis acellular vaccines (Pa) induce Ab and Th2-biased responses and also protect against severe disease. In this study, we show that Pw failed to generate protective immunity in TLR4-defective C3H/HeJ mice. In contrast, protection induced with Pa was compromised, but not completely abrogated, in C3H/HeJ mice. Immunization with Pw, but not Pa, induced a population of IL-17-producing T cells (Th-17), as well as Th1 cells. Ag-specific IL-17 and IFN-gamma production was significantly lower in Pw-immunized TLR4-defective mice. Furthermore, treatment with neutralizing anti-IL-17 Ab immediately before and after B. pertussis challenge significantly reduced the protective efficacy of Pw. Stimulation of dendritic cells (DC) with Pw promoted IL-23, IL-12, IL-1beta, and TNF-alpha production, which was impaired in DC from TLR4-defective mice. B. pertussis LPS, which is present in high concentrations in Pw, induced IL-23 production by DC, which enhanced IL-17 secretion by T cells, but the induction of Th-17 cells was also dependent on IL-1. In addition, we identified a new effector function for IL-17, activating macrophage killing of B. pertussis, and this bactericidal activity was less efficient in macrophages from TLR4-defective mice. These data provide the first definitive evidence of a role for TLRs in protective immunity induced by a human vaccine. Our findings also demonstrate that activation of innate immune cells through TLR4 helps to direct the induction of Th1 and Th-17 cells, which mediate protective cellular immunity to B. pertussis.     

The pyrogenicity of pertussis vaccine in mice and the factors in the vaccine responsible for this effect

The injection of whole cell pertussis vaccine into mice produced a biphasic fever reaction with two peaks appearing after about one and four hours, respectively. A method for the quantitative determination of each peak fever activity was developed and the factor responsible for each activity was investigated. The first and the second peak fever activities did not parallel each other in individual vaccines. The earlier fever activity appeared to correlate with endotoxin activity in individual vaccines while the later appeared to correlate with histamine-sensitizing factor (HSF) activity. The later peak fever activity was greatly reduced by heating the vaccine at 100 degrees C for 30 min while the first was little affected by such treatment. It was concluded that the fever activity of pertussis vaccine in mice may be ascribed to the combined actions of endotoxin and a heat-labile substance, possibly HSF.     

百日咳杆菌去内毒素及保护性抗原的纯化

内毒素(Endotoxin,简称ET)是百日咳全菌苗(Bordetellapertussis vaccine)产生副作用的主要毒素之一,且不易除去。现有的分离方法,如蔗糖密度梯度离心法,较繁琐,成本高。本文采用Sepha-cryl S-300凝胶层折法可以简便有效的去除大部分内毒素。初步毒素试验结果表明:已达到日本生物制品规格的要求。两种保护性抗原FHA和LPF-HA也得到进一步分离纯化,为今后研制高效的百日咳组分菌苗提供了实验条件。     

Restriction analysis of Bordetella pertussis DNA isolated from patients with whooping cough in 1968 and 1995-98 and B. pertussis used for production of national vaccine strains

The genotypic and serotypic analysis of B. pertussis strains isolated from the nasopharynx of children with whooping cough in the years 1968 and 1995-98 and B. pertussis vaccine strains was the aim of this study. The genotyping of the examined strains was done by electrophoretic division of DNA in pulsed field. The 3 types (A, B, C) and 2 subtypes (A1 and A2) of DNA restriction patterns were determined for the B. pertussis strains isolated in 1968. The 2 types (D and E) and 10 subtypes (D1-D10) of DNA restriction patterns were identified for B. pertussis strains from the years 1995-98. The DNA restriction patterns of B. pertussis strains isolated in the years 1968 and 1995-98 were not identical what was the evidence of the fact that in the sixties and nineties whooping cough was caused by different B. pertussis clones. The different DNA profiles were also observed for vaccine strains as well as for vaccine strains and current isolates. Differences in DNA patterns of vaccine strains and B. pertussis strains isolated in the years 1995-98 indicated a relationship possibility in some cases while lack of relationship between these strains in other cases. Serotyping of the examined B. pertussis strains was performed by the agglutination method with the sera against B. pertussis agglutinogens 1, 2 and 3. Most strains--15 (75%) isolated in 1968 possessed only agglutinogens 1 and 3. Serotype 1, 2, 3 was most frequently observed among isolates from the years 1995-98. This study indicates the expediency of periodical change of B. pertussis vaccine strains in the aspect of whooping cough resurgence in the years 1994-95 and 1997-98.     

Role of pertussigen (pertussis toxin) on the mouse protective activity of vaccines made from Bordetella species

Pertussigen [pertussis toxin (Ptx)] from Bordetella pertussis, when detoxified, induces protection in mice to intracerebral challenge (ic) with virulent B. pertussis. In its native form, minute nonprotective doses promote the development of immunity induced by other antigens of B. pertussis. As little as 4 ng of Ptx, given with a nonprotective dose of 8 X 10(7) killed cells of the phase III Sakairi strain, promoted detectable protection to ic challenge. Native Ptx in doses of 0.4 to 400 ng did not protect mice, and vaccines made from strains not producing Ptx induced only weak protection. The marked enhancing action of Ptx was also observed with 5 micrograms of purified filamentous hemagglutinin and with vaccines made from other species of the Bordetella genus, such as B. parapertussis and B. bronchiseptica, but it was not observed with B. pertussis endotoxin. In addition, Ptx was still effective when given as late as 7 days after the vaccine. Antibodies to surface antigens of the challenge strain were demonstrated in sera of mice immunized with vaccines prepared with the different Bordetella species tested, but antibodies to Ptx were detected only in the sera of mice immunized with the wild-type B. pertussis strains. Glutaraldehyde detoxified Ptx does not have this action. Pretreatment of normal mice with Ptx, also enhanced the protective action of a mouse antiserum to a wild-type strain of B. pertussis. These observations show that antigens other than Ptx are responsible for the protection, and that Ptx acts non-specifically to enhance the mouse protective action of those antigens.     

Molecular genetic characteristics of the B. pertussis strains isolated in different periods of the pertussis epidemic process

Despite the fact that the mass immunization of the children population with the DPTs vaccine has been carried out in the Russian Federation since 1959, the pertussis infection persists to be one of the pressing problems for the children population. Although the vaccination coverage of the children population with pertussis vaccines is high in Russia, at present time the pertussis incidence rates are increasing among schoolchildren and remain high among infants younger than 12 months old. Many researchers believe that the variability of the genetic structure of the pertussis causative agent may be one of the causes of increasing pertussis incidence rates. This investigation provides the molecular genetic characteristics of 97 B. pertussis strains isolated in pertussis patients in Moscow in different periods of pertussis epidemic process since the 1950s up to present time. It shows the changes in the structures of genes, which are encoding the main protective antigens of the pertussis microbe that are the pertussis toxin (ptxS1) and the pertactin (pm). The structurre of the ptxS1 and pm gene of the B. pertussis vaccine strains was compared with the structures of these genes in the B. pertussis strains isolated from the pertussis patients at present time and also in past years. All B. pertussis strains isolated in the prevaccination period (1948-1959) and most strains (95%) isolated during the first twenty years of the mass immunization in Russia are characterized by the presence of the so called "vaccine" alleles of the pertussis toxin and pertactin genes that are ptxS1 B or ptxS1 D and pm 1 alleles that corresponds to the genetic structure of the vaccine producing strains. In the early 1970s the B. pertussis strains of another toxin and pertactin genetic structures with so-called "non-vaccinal" alleles ptxS1 A and pm 3 (pm 2 since 1980s) began to appear. The B. pertussis strains with "non-vaccinal" alleles have completely displaced the "old" strains. At present time in Moscow the pertussis disease is caused by the B. pertussis strains bearing ptxS1 A and pm 2 or pm 3 alleles of pertussis toxin and pertactin genes. There was no correlation between the genotype and serotype. Thus, the structure of the B. pertussis toxin and pertactin genes in strains which have been isolated since the 1980s up to now differs from the structure of these genes in strains which are used for producing DPTs vaccine. The data obtained in this investigation suggest that the genetic structure specificity of circulating B. pertussis strains that are producing the disease at present time should be used as one of the criteria for selecting vaccine producing strains.     

The development of a new generation of pertussis vaccine

The results of the weight gain test on mice have shown that acellular pertussis vaccine is less toxic than the pertussis component of adsorbed diphtheria-pertussis-tetanus (DPT) vaccine due to a lower content of endotoxin in the acellular vaccine; but the leukocytosis-promoting and histamine-sensitizing activities of JNIH-6 and adsorbed DPT vaccines are indicative of incomplete inactivation of Bordetella pertussis toxin. The content of incompletely inactivated B. pertussis toxin is practically the same in both preparations, constituting 1/100-1/200 of the calculated initial activity. For this reason, the use of the new pertussis vaccine also involves a risk of development of serious postvaccinal reactions and/or complications caused by this toxin. Search for the optimum method of inactivation of B. pertussis main toxin should be continued. As shown by the enzyme immunoassay, acellular pertussis vaccine used in the same immunizing dose as adsorbed DPT vaccine induces a more intensive immune response to hemagglutinin and B. pertussis toxin. This is due to higher residual toxicity of the corpuscular component of adsorbed DPT vaccine. Induction of antibodies to B. pertussis toxin has been shown to decrease in response to injection of acellular pertussis vaccine containing a certain residual amount of incompletely inactivated B. pertussis toxin.     

Passive protection of mice with the 19 S and 7 S fractions of anti-pertussis sera in experiment.

Protective activity of anti-persussis rabbit and mouse sera and 19 S and 7 S fractions obtained from these sera was investigated in the test of passive protection of mice on a model of pertussis meningoencephalitis. The method of simultaneous intracerebral administration of the serum or fraction with live culture of a virulent B. pertussis strain was used. Hyperimmune rabbit serum containing mercaptoethanol-resistant agglutinins in a high titre was found to have the most pronounced protective effect. Serum of mice, collected 14 days after single immunization of the animals, did not show any protective properties. A small amount of protective activity was observed in the serum collected on the 30th day after a single administration of the vaccine. A sharp increase in the protective activity of the serum was observed after double immunization of mice. Correlation was found between the increase in the titre of agglutinins (in particular of 7 S antibodies) and the protective activity of the serum. Protective properties of 19 S and 7 S fractions isolated from immune rabbit and mouse sera by the method of gel filtration were investigated. Both fractions were found to possess protective properties, but fraction 7 S was more active than fraction 19 S.     

Modulation of carrier-induced epitopic suppression by Bordetella pertussis components and muramyl peptide

Synthetic antigens employed in experimental synthetic vaccines are generally small haptenic peptides. Therefore, effective immunization with these antigens usually requires the use of an immunogenic carrier. Tetanus toxoid has been proposed for use as a carrier in future synthetic vaccines due to its high immunogenicity and acceptance for human use. Previous studies employing standard hapten/carrier systems such as DNP/KLH have demonstrated, however, that an epitope-specific suppression occurs when mice previously primed with carrier are subsequently immunized with an haptenic epitope conjugated to the same carrier. These same studies have shown that Bordetella pertussis vaccine administered at the time of carrier priming abrogates epitopic suppression. In the present investigation, epitopic suppression was studied in a synthetic vaccine model employing tetanus toxoid as a carrier. Results from these studies indicated that mice primed with tetanus toxoid 1 month before immunization with a peptide-tetanus toxoid conjugate exhibited enhanced secondary anti-tetanus toxin responses but decreased anti-peptide responses. Furthermore, injection of pertussis vaccine or purified B. pertussis toxin or endotoxin at the time of carrier priming could block the establishment of epitopic suppression. Administration of B. pertussis components enhanced antibody responses to both the carrier and the synthetic peptides as compared with responses of control animals. In addition, administration of an adjuvant-active nonpyrogenic derivative of muramyl dipeptide. Murabutide, with carrier priming reduced epitopic suppression of anti-peptide responses. B. pertussis toxin or endotoxin administered to mice previously suppressed by carrier priming with the first injection of carrier-peptide conjugate overcame epitopic suppression with resultant titers of anti-peptide antibody equal to or greater than nonsuppressed controls. These results suggest that the use of adjuvants with future synthetic vaccines may contribute the additional advantage of overcoming epitopic suppression, thus permitting the use of common, well-tolerated carrier systems such as tetanus toxoid in synthetic vaccine preparations.     

Development of vaccines against pertussis caused by Bordetella holmesii using a mouse intranasal challenge model

Bordetella holmesii is recognized as the third causative agent of pertussis (whooping cough) in addition to Bordetella pertussis and Bordetella parapertussis. Pertussis caused by B. holmesii is not rare around the world. However, to date, there is no effective vaccine against B. holmesii. We examined the protective potency of pertussis vaccines available in Japan and vaccines prepared from B. holmesii. A murine model of respiratory infection was exploited to evaluate protective potency. No Japanese commercial pertussis vaccines were effective against B. holmesii. In contrast, a wBH vaccine and an aBH vaccine prepared from B. holmesii were both protective. Passive immunization with sera from mice immunized with aBH vaccine established protection against B. holmesii, indicating that B. holmesii‐specific serum antibodies might play an important role in protection. Immuno‐proteomic analysis with sera from mice immunized with aBH vaccine revealed that the sera recognized a BipA‐like protein of B. holmesii. An aBH vaccine prepared from a BipA‐like protein‐deficient mutant strain did not have a protective effect against B. holmesii. Taken together, our results suggest that the BipA‐like protein plays an important role in the protective efficacy of aBH vaccine.     

Lipopolysaccharides in a traditional pertussis vaccine

Analysis of the lipopolysaccharide (LPS, endotoxin) in cell sonicates of four Danish vaccine strains of Bordetella pertussis (3803, 3825, 3843 and 3860) and of purified strain 3803 LPS in sodium dodecyl sulphate-polyacrylamide gel electrophoresis by silver staining, showed identical profiles. The LPS profile revealed a dominant, brownish LPS II band and a minor, faster-migrating, black-stained LPS I band. However, the ratio of LPS I to LPS II in the preparation of purified LPS differed slightly from the cell sonicates. Using marker LPS, the molecular weights of LPS I and LPS II were estimated at 5.4 and 6.0 kD, respectively. Seven different lots of whole cell pertussis vaccine were assayed for LPS in the Limulus Amoebocyte Lysate test and were found to contain 0.9-2.8 micrograms LPS/ml. No significant difference in the content of LPS in similar dilutions of the individual strains was observed. In addition, the distribution of free and cell-bound LPS in four pertussis vaccines was investigated. Most of the LPS was found to exist as free LPS. During several months, the course of both LPS and pertussis toxin (Pt) release in freshly killed B. pertussis preparations was followed. In the first few weeks, 35-50% of the LPS was released and after 5-6 months of storage 60-80% had been released. In contrast, less than 10% of the biologically active pertussis toxin was released during the experimental period. The possibility of producing a safer whole cell pertussis vaccine by reducing the amount of free LPS without reducing the protective value correspondingly is discussed.     

Effect of pertussis antibodies on the induction of suppressor cells of humoral immunity in mice

Standard pertussis agglutinative serum as well as antibodies to total and purified protective pertussis antigens, isolated from the serum by immunoadsorption technique, were studied. The treatment of donors with pertussis antibodies affected the T-suppressor formation, induced by high doses of sheep red blood cells, as was shown on the model of syngeneic transfer. Immunomodulating effect of antibodies, complementary to immunogen fraction of pertussis cells, was decreased. It was suggested that the observed antilymphocyte activity of antipertussis antibodies could play a certain role in postvaccination complications after corpuscular pertussis vaccine administration.     

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.