A群C群脑膜炎球菌结合疫苗稳定性

目的评价A群C群脑膜炎球菌结合疫苗原液和成品的稳定性。方法分别将A群、C群脑膜炎球菌结合疫苗原液及A群C群脑膜炎球菌结合疫苗各选取连续3批,分别放置于37℃、20~25℃和2~8℃3种温度下,在一定的时间取样进行主要项目测定,在关键时间点进行全面检测。结果 A群结合疫苗原液于2~8℃保存9个月,20~25℃保存4周,37℃保存4 d;C群结合疫苗原液于2~8℃保存9个月,20~25℃保存6个月,37℃保存4周;A群C群脑膜炎球菌结合疫苗于2~8℃保存2年3个月,20~25℃保存6个月,37℃可以保存9周;各项检测指标均符合质量标准的要求。结论在2~8℃条件下,A群、C群脑膜炎球菌结合疫苗原液存放6个月,A群C群脑膜炎球菌结合疫苗存放2年,其质量稳定。     

Bordetella pertussis fimbriae are effective carrier proteins in Neisseria meningitidis serogroup C conjugate vaccines

Serogroup C meningococcal conjugate vaccines generally use diphtheria or tetanus toxoids as the protein carriers. The use of alternative carrier proteins may allow multivalent conjugate vaccines to be formulated into a single injection and circumvent potential problems of immune suppression in primed individuals. Bordetella pertussis fimbriae were assessed as carrier proteins for Neisseria meningitidis serogroup C polysaccharide. Fimbriae were conjugated to the polysaccharide using modifications of published methods and characterised by size exclusion chromatography; co-elution of protein and polysaccharide moieties confirmed conjugation. The conjugates elicited boostable IgG responses to fimbriae and serogroup C polysaccharide in mice, and IgG:IgM ratios indicated that the responses were thymus-dependent. High bactericidal antibody titres against a serogroup C strain of N. meningitidis were also observed. In a mouse infection model, the conjugate vaccine protected against lethal infection with N. meningitidis. Therefore, B. pertussis fimbriae are effective carrier proteins for meningococcal serogroup C polysaccharide and could produce a vaccine to protect against meningococcal disease and to augment protection against pertussis.     

Safety, reactogenicity and immunological activity of a group A meningococcal polysaccharide vaccine for children 1-4 years old

In the controlled trial carried out among children aged 1-4 years, the safety, reactogenicity and immunological potency of group A meningococcal polysaccharide vaccine produced at the Gabrichevski? Research Institute of Epidemiology and Microbiology (Moscow) were studied. The vaccine under test was introduced in two doses containing 15 and 25 micrograms of meningococcal polysaccharide. Both doses were shown to be safe, faintly reactogenic and immunologically potent. Systemic reactions were manifested by a transient rise in temperature to subfebrile levels in 19% and to 37.8-38.2 degrees C in 4.7% of the vaccinees. The temperature dropped to the normal level by the end of the first day following vaccination. At the site of injection skin hyperemia up to 2-3 cm in diameter was registered in 74% and up to 5-6 cm in diameter, in 6% of the vaccinees. Hyperemia disappeared on day 2 after vaccination. The production of antibodies to group A meningococcal polysaccharide occurred in response to both doses under test, and the elevated antibody level (in comparison to the initial one) was retained perceptibly longer in response to a dose of 25 micrograms; this dose, considering its low reactogenicity, was chosen as the optimal dose for children of the above age group.     

Chemoenzymatic synthesis of immunogenic meningococcal group C polysialic acid-tetanus Hc fragment glycoconjugates

Vaccination with meningococcal glycoconjugate vaccines has decreased the incidence of invasive meningitis worldwide. These vaccines contain purified capsular polysaccharides attached to a carrier protein. Because of derivatization chemistries used in the process, conjugation of polysaccharide to protein often results in heterogeneous mixtures. Well-defined vaccines are needed to determine the relationship between vaccine structure and generated immune response. Here, we describe efforts to produce well-defined vaccine candidates by chemoenzymatic synthesis. Chemically synthesized lactosides were substrates for recombinant sialyltransferase enzymes from Camplyobacter jejuni and Neisseria meningitidis serogroup C. These resulting oligosialic acids have the same α(2-9) sialic acid repeat structure as Neisseria polysaccharide capsule with the addition of a conjugatable azide aglycon. The degree of polymerization (DP) of carbohydrate products was controlled by inclusion of the inhibitor CMP-9-deoxy-NeuNAc. Polymers with estimated DP?<?47 (median DP 25) and DP?<?100 (median DP 51) were produced. The receptor binding domain of the tetanus toxin protein (TetHc) was coupled as a carrier to the enzymatically synthesized oligosialic acids. Recombinant TetHc was derivatized with an alkyne squarate. Protein modification sites were determined by trypsin proteolysis followed by LC/MS-MS^E analysis of peptides. Oligosialic acid azides were conjugated to modified TetHc via click chemistry. These chemoenzymatically prepared glycoconjugates were reactive in immunoassays with specific antibodies against either group C polysaccharide or TetHc. Sera of mice immunized with oligosialic acid-TetHc glycoconjugates contained much greater levels of polysaccharide-reactive IgG than the sera of control mice receiving unconjugated oligosialic acids. There was no apparent difference between glycoconjugates containing oligosaccharides of DP?<?47 and DP?<?100. These results suggest that chemoenzymatic synthesis may provide a viable method for making defined meningococcal vaccine candidates.     

The immunological status indices of monkeys inoculated with a meningococcal B vaccine

The method for the determination of bacterial antibodies to group B meningococci was worked out. The method was used for the determination of antibodies to group B meningococcal vaccine produced in the USSR. The dynamic study of antibodies to protein, polysaccharide and lipopolysaccharide antigens of group B meningococci was made by the method of the enzyme immunoassay (EIA), and the safety of the vaccine was studied by the determination of autoantibodies active against brain tissue antigens. The data thus obtained were indicative of the immunological activity of group B protein-polysaccharide vaccines, manifested by the capacity for stimulating bactericidal antibodies whose level increased 8- to 10-fold after the immunization of monkeys in 2 and 3 injections. Similarity in the dynamics of the formation of bacteriolysins and antibodies to protein antigen, as determined in EIA, was noted. The vaccine was found to stimulate no cytotoxic anticerebral antibodies in the glia migration test, which was indicative of the safety of group B meningococcal vaccine.     

冻干A+C群脑膜炎球菌多糖疫苗安全性和免疫原性观察

为了评价冻干A+C群脑膜炎球菌多糖疫苗(MPV)的安全性和免疫原性,按随机、盲法的原则,评价疫苗免疫后不良反应发生率、抗体阳转率及抗体几何平均滴度(GMT)。将606名健康观察者分为2～5岁、6～12岁、13～17岁、18～60岁四个年龄组,结果显示,该疫苗全身反应发生率2.64%,局部反应发生率1.32%,四个年龄组疫苗免疫后杀菌抗体阳性率分别为100%、100%、99.3%和100%,免疫后A群杀菌抗体GMT分别为1:250.47、1:190.61、1:144.22和1:205.79,免疫后C群杀菌抗体GMT分别为1:273.33、1:551.18、1:788.26和1:809.81,冻干A+C群多糖疫苗在≥2岁人群中具有良好的安全性和免疫原性,建议推广使用A+C群MPV。     

A comparative study of the immunogenicity of 2 group-B meningococcal vaccines in monkeys

The comparative study of two group B meningococcal vaccines manufactured in the USSR and in Cuba was made. The vaccine manufactured in the USSR contained the noncovalent compound of group B Neisseria meningitidis polysaccharide and outer membrane protein, and the Cuban vaccine contained group B N. meningitidis outer membrane proteins and group C N. meningitidis polysaccharide. The data obtained in this study indicated that both vaccines possessed immunological potency evaluated according to their capacity to stimulate the formation of bactericidal antibodies, whose level was found to increase eightfold after the immunization of monkeys in two injections. Besides, group B meningococcal vaccines did not induce the suppression of nonspecific protective activity characteristics of the body and did not stimulate the formation of autoantibodies to brain and liver tissues, which was indicative of the safety of these vaccines.     

The immunogenic and serological properties of the O-specific polysaccharide (L-hapten) in Shigella]

O-specific polysaccharide (L-hapten) was isolated earlier (Zh. mikrobiol. epidemiol. immunobiol., 1989, No. 11, pp. 8-11). In this paper L-hapten was shown to be unable, even at high concentrations (up to 2,000 micrograms/ml), to sensitize sheep red blood cells for passive hemagglutination by O-antibodies. At the same time classical LPS and heat-activated LPS were active at concentrations ot 32 and 8 micrograms/ml respectively. The O-antibody-neutralizing activity of L-hapten was lower than that of LPS 10(3)-10(4) times in the passive hemagglutination test and 25-50 times in competitive ELISA. The immunogenicity of isolated L-hapten was very weak: primary response in mice to the i.v. injection of 1-10 micrograms of L-hapten was similar to the effect produced by 10(-3)-10(-4) micrograms of LPS. No protective activity of L-hapten was noted in mice when the challenge dose of virulent shigellae was 16 LD50 or more, and only a weak protective effect was observed with a low challenge dose (8 LD50). The molecular basis of low serological and biological activity of L-hapten is discussed. The most probable explanation of the results obtained in this study is that L-hapten contains some nonspecific carbohydrates, inserted in or complexed with the O-side chain. Despite its low immunogenicity, L-hapten can be an important component of effective bacterial vaccines provided it is included into a suitable delivery system as is the case with Shigella ribosomal vaccine.     

Immunological effectiveness of a dried group-A meningococcal polysaccharide vaccine

The immunological effectiveness of dried group A meningococcal polysaccharide vaccine, developed at the Gabrichevsky Research Institute of Epidemiology and Microbiology, Moscow, for children aged 5-14 years was studied. The intensiveness of the immune response of children to 0.5 ml of the vaccine introduced in a single injection was evaluated by a rise in the level of agglutinating antibodies to group A meningococcal polysaccharide in the sera of the vaccinees 3-4 weeks after immunization with the following optimum doses: 25 micrograms for children aged 5-8 years, 50 micrograms for children aged 9-13 years and 75 micrograms for children aged 14 years and over. The vaccine was shown to be highly immunogenic. Antibodies to group A meningococcal polysaccharide were identified as IgM. These antibodies in a titer of 1:40 and higher could be detected in 90% of the vaccinated children in the younger age group, 7 months after immunization.     

Meningococcal polysaccharide vaccines: A review

Polysaccharides produced by Neisseria meningitidis are pharmaceutically important molecules, and are the active components of vaccines against N. meningitidis serogroups A, C, W135 and Y. Effective vaccines based on capsular polysaccharide, polysaccharide conjugates and outer membrane vesicles have been developed for strains expressing capsular polysaccharides that define the sero groups A, C, Y and W135. However, conventional approaches to develop a vaccine for group B strains have been largely unsuccessful. This review focuses on the various aspects of fermentative production of meningococcal polysaccharide from N. meningitidis, methods of conjugation for improving the immunogenicity of polysaccharide vaccine, and efficient and cost effective methods for the purification of N. meningitidis capsular polysaccharide and outer membrane vesicles. In addition, different analytical techniques for the quantitative determination of polysaccharide vaccine and evaluation of structural integrity of conjugate vaccine have been described.     

Antibody studies in mice of outer membrane antigens for use in an improved meningococcal B and C vaccine

Abstract Since 1988, N. meningitidis , B:4:P1.15, ET-5 complex, has been responsible for an epidemic of meningococcal disease in Greater São Paulo, Brazil. Despite current trials to develop an effective vaccine against group B meningococci, children less than 2 years old have not been protected. It has been suggested that iron-regulated proteins (IRPs) should be considered as potential antigens for meningococcal vaccines. The vaccines under study consisted of outer-membrane vesicles depleted of lipooligosaccharide from three serogroup B strains and one serogroup C strain, IRPs, meningococcal group C polysaccharide and aluminum hydroxide. Four different protein and C polysaccharide concentrations were studied. The ELISA and bactericidal results showed a higher antibody response when 2 injections of 2.0 μg doses were administered. Despite higher IgG reactivity against antigen preparations containing IRPs seen in ELISA, the bactericidal activity was not increased if the target strain was grown in iron-restricted medium. The influence of addition of alkaline-detoxified lipooligosaccharide (dLOS) on immunogenicity of the vaccine was also investigated, and the dLOS provided for a more functionally specific antibody response.     

A field trial with the liquid multicomponent meningococcal vaccine ABC

The morbidity rates of generalized forms of meningococcal infection in persons immunized with different doses of liquid meningococcal vaccine ABC were compared. The vaccine was introduced subcutaneously by means of a jet injector. Altogether 3,920 males aged 18 years and older were immunized. 1,966 vaccinees received this vaccine in a dose of 200 micrograms and 1,954 vaccinees, in a dose of 400 micrograms. Meningococcal multicomponent vaccine ABC used in these doses showed moderate reactogenicity and did not prevent the development of generalized forms of meningococcal infection.     

Immunoproteomic identification of the hypothetical protein NMB1468 as a novel lipoprotein ubiquitous in Neisseria meningitidis with vaccine potential

Many potential vaccine candidates for serogroup B Neisseria meningitidis (NMB) have been identified by reverse vaccinology, a genome-based approach. However, some candidates may be unseen owing to uncertain annotation or their peculiar properties. In this study, we describe the preparation and identification of a novel lipoprotein expressed in all meningococcal strains tested. mAb were first prepared from mice immunized with a meningococcal B strain isolated in Taiwan. Total proteins from the immunizing strain were separated by 2-DE in duplicate. Clone 4-7-3, which crossreacted to 174 tested meningococcal isolates, was used as the primary antibody for Western blotting. The immunoreactive spot was identified by LC-mass spectrometric analysis of the corresponding spot from the silver-stained gel and confirmed by molecular biology approach to be a novel lipoprotein encoded by the hypothetical NMB1468 gene. The potential use of this protein, designated Ag473/NMB1468, as a vaccine component was evaluated using the recombinant protein produced in Escherichia coli. Immunized mice were found to be protected from developing meningococcal disease after intraperitoneal inoculation with a lethal dose of meningococcal strain Nm22209, suggesting that Ag473/NMB1468 may be a promising vaccine candidate. This study also demonstrates the usefulness of the immunoproteomic approach in identification of novel vaccine candidates.     

Immune Response in Primates Vaccinated with Duck Embryo Cell Culture Rabies Vaccine

Adult rhesus monkeys (Macaca mulata) were vaccinated with four inactivated rabies vaccines, including two cell culture vaccines, one zonal purified cell culture vaccine, and a 10% extracted duck embryo vaccine. The vaccines were potency tested by both National Institutes of Health (NIH) and Habel methods and passed one or both tests. However, a vaccine having acceptable potency by one method frequently failed or was marginal by the other procedure. Groups of three monkeys were inoculated with each vaccine by one of two schedules. The first consisted of four weekly 1-ml doses followed by a 1-ml booster dose at 6 months, and the second consisted of seven daily 1-ml doses of vaccine with no booster. Both zonal purified and extracted duck embryo vaccines induced detectable neutralizing antibody by day 7 with either schedule, and antibody titers elicited by the cell culture vaccine remained high through 210 days. However, antibody titers produced by the 10% duck embryo vaccine dropped sharply after their 28-day peak. Duck embryo cell culture vaccines with low or marginal potency as measured by Habel or NIH tests still produced rapid, high levels of serum-neutralizing antibody in primates. LD(50) or NIH and Habel tests as measured in mice were not necessarily good indices of antibody response in the primate host. The need for a cell culture potency test that will yield a more predictable correlation with the definitive host's antibody response is discussed.     

Detection of blood group A-like substance in bacterial and viral vaccines by countercurrent immunoelectrophoresis using Helix pomatia lectin

The technique of countercurrent immunoelectrophoresis (CI), using the N-acetyl glucosamine-binding lectin from Helix pomatia, provided a rapid, sensitive, inexpensive, specific and reliable method for assaying blood group A-like substances in both bacterial and viral vaccines. Blood group A-like substance was detected in the pneumococcal polysaccharide vaccine manufactured by Merck Sharp & Dohme up to 1981 and in a staphylococcus vaccine ( Staphage Lysate) manufactured by Delmont Laboratories. Other US licensed vaccines, including diphtheria and tetanus toxoids, pertussis, meningococcal polysaccharide and influenza vaccines, did not contain detectable amounts of this substance. Human anti-A globulins did not provide a satisfactory reagent for the CI assay because they contained precipitating activities to the vaccine components.     

Simple and rapid technique for monitoring the quality of meningococcal polysaccharides by high performance size-exclusion chromatography

The molecular size of meningococcal polysaccharides is an important physico-chemical parameter which correlates with immunogenicity. This paper describes the experimental conditions for high-performance size-exclusion chromatography on a PL Aquagel-OH 60 column to follow changes in the size distribution and therefore in the distribution coefficient (K(D)) of the meningococcal polysaccharides of groups A, C, Y and W-135 used to formulate anti-Neisseria meningitidis vaccines. The experimental conditions were also found to be suitable for a rapid monitoring of the quality (no group A polysaccharide depolymerization) of the tetravalent meningococcal polysaccharide vaccine.     

Evaluation of the reactogenic and immunogenic properties of meningococcal vaccines

The results of the study of the reactogenic and immunogenic properties of meningococcal polysaccharide A + C vaccine in the controlled epidemiological trial, with regard to variations depending on the initial immunological characteristics of vaccinees in terms of the levels of antibodies to the polysaccharides contained in the vaccine, are presented. The study was made on school children: 303 of them were immunized with the meningococcal vaccine under test, and 229 (controls) with adsorbed diphtheria-tetanus toxoid. This study revealed that the reactogenic properties of the preparation were more pronounced in those children whose blood sera had been found to contain no antibodies to polysaccharides A and C prior to immunization. The immunological properties were more pronounced with respect to polysaccharide A. The titer of antibodies to polysaccharide A was found to depend on the previous immunological status of the child, which was indicative of the booster effect produced by the vaccine. The data obtained in the study suggest that the evaluation of the reactogenic and immunogenic properties of newly developed prophylactic preparations should be made with due regard for the previous immunological status of vaccinees in respect to the antigens contained in the meningococcal vaccine under test.     

An international collaborative study of the effect of active pertussis toxin on the modified Kendrick test for acellular pertussis vaccines

Speculation that the Japanese modified intra-cerebral challenge assay, which is used in several countries for control of acellular pertussis vaccines, depends on the presence of small amounts of active pertussis toxin led to an assumption that it may not be appropriate for highly toxoided or genetically detoxified vaccines. Consequently, at the recommendation of a World Health Organisation AD Hoc Working Group on mouse protection models for testing and control of acellular pertussis vaccine, the effect of pertussis toxin on the modified intra-cerebral challenge assay (modified Kendrick, MICA) was evaluated in an international collaborative study. Results of this study showed that for genetically detoxified vaccines both with and without active pertussis toxin the MICA clearly distinguished mice vaccinated with acellular vaccines from unvaccinated mice and gave a significant dose–response relationship. However, vaccine samples containing active pertussis toxin (5 or 50 ng/single human dose) appeared to be more potent than the equivalent sample without active pertussis toxin. Similar results were also given by two respiratory infection models (intranasal and aerosol) included in the study. The results also indicated that the effect of pertussis toxin may vary depending on mouse strain.     

Haemophilus influenzae type b-outer membrane protein complex glycoconjugate vaccine induces cytokine production by engaging human toll-like receptor 2 (TLR2) and requires the presence of TLR2 for optimal immunogenicity

Conjugate vaccines consisting of the capsular polysaccharide (PS) of Haemophilus influenzae type b (Hib) covalently linked to carrier proteins, unlike pure PS, are immunogenic in infants and have significantly reduced Hib infections in the United States, but require multiple doses to induce protective anti-PS Ab titers. Hib-meningococcal outer membrane protein complex (OMPC) conjugate vaccine, however, elicits protective anti-PS Ab titers after one dose. We found that OMPC and Hib-OMPC engaged human Toll-like receptor 2 (TLR2) expressed in human embryonic kidney (HEK) cells, inducing IL-8 production, and engaged mouse TLR2 on bone marrow-derived dendritic cells, inducing TNF release. Hib conjugated to the carrier proteins CRM(197) and tetanus toxoid did not engage TLR2 on HEK or dendritic cells. Engagement of TLR2 by Hib-OMPC was MyD88 dependent, as Hib-OMPC-induced TNF production was ablated in MyD88 knockout (KO) mice. Hib-OMPC was significantly less immunogenic in TLR2 KO mice, inducing lower Hib PS IgG and IgM titers compared with those in wild-type mice. Splenocytes from OMPC-immunized TLR2 KO mice also produced significantly less IL-6 and TNF-alpha than those from wild-type mice. Hib-OMPC is unique among glycoconjugate vaccines by engaging TLR2, and the ability of Hib-OMPC to elicit protective levels of Abs after one dose may be related to TLR2-mediated induction and regulation of cytokines produced by T cells and macrophages in addition to the peptide/MHC II-dependent recruitment of T cell help commonly afforded by carrier proteins. TLR2 engagement by an adjuvant or carrier protein may be a useful strategy for augmentation of the anti-PS Ab response induced by glycoconjugate vaccines.     

Molecular mimetics of polysaccharide epitopes as vaccine candidates for prevention of Neisseria meningitidis serogroup B disease

Neisseria meningitidis is a major cause of meningitis and sepsis. Despite nearly 25 years of work, there is no promising vaccine candidate for prevention of disease caused by meningococcal B strains. This review summarizes newer approaches for eliciting protective meningococcal B immune responses, including the use of molecular mimetics of group B polysaccharide and conserved membrane proteins as immunogens. The capsular polysaccharide of this organism is conserved and serum antibody to this capsule confers protection against disease. However, the immunogenicity of meningococcal B polysaccharide-based vaccines is poor. Further, a portion of the antibody elicited has autoantibody activity. Recently, our laboratory produced a panel of murine monoclonal antibodies (Mabs) that react specifically with capsular polysaccharide epitopes on meningococcal B that are distinct from host polysialic acid. These Mabs elicit complement-mediated bactericidal activity and confer passive protection in animal models. The anti-capsular Mabs were used to identify molecular mimetics from phage display peptide libraries. The resulting peptides were antigenic mimetics as defined by binding to the Mabs used to select them but, to date, are poor immunogenic mimetics in failing to elicit anti-capsular antibodies.