Meningococcal vaccines

Meningococcal disease is one of the most feared and serious infections in the young and its prevention by vaccination is an important goal. The high degree of antigenic variability of the organism makes the meningococcus a challenging target for vaccine prevention. Meningococcal polysaccharide vaccines against serogroup A and C are efficacious and have been widely used, often in combination with serogroup Y and W135 components. Their relative lack of immunogenicity in young children and infants can be overcome by conjugation to a protein carrier. The effectiveness of serogroup C glycoconjugate vaccines in children of all ages has been demonstrated and they have now been introduced into routine vaccination schedules. Conjugate vaccines against other serogroups, including A, Y, and W135 will soon be available and it is hoped they may emulate this success. Prevention of serogroup B disease has proven more elusive. Several serogroup B vaccines based on outer membrane vesicles have been shown to be immunogenic and reasonably effective in adults and older children, but the protection offered by them is chiefly strain-specific. Multivalent recombinant PorA vaccines have been developed to broaden the protective effect, but no efficacy data are available as yet. Intensive efforts have been directed at other outer membrane protein vaccine candidates and lipopolysaccharide, and some of these have been shown to offer protection in experimental animal models. Nonpathogenic Neisseriae spp. such as Neisseria lactamica are also possible vaccine candidates. Previously unknown proteins have been identified from in silico analysis of the meningococcal genome and their vaccine potential explored. However, none of these has yet been presented as the 'universal' protective antigen and work in this field continues to be held back by our limited knowledge concerning the mechanisms of natural protection against serogroup B meningococci.     

Meningococcal vaccines

Neisseria meningitidis is a major world-wide cause of meningitis. N. meningitidis related diseases have become more pronounced in the last decade and changes in meningococcal-associated disease have opened new opportunities for prevention and vaccine development. Although multivalent vaccines have been developed against the N. meningitidis serogroups A, C, W-135, and Y, four of the most common serogroups, the diversity of N. meningitidis has increased the number of challenges for the development of an effective vaccine against all currently identified strains. Without the development of a vaccine against serogroup B, it will be difficult to effectively prevent global meningococcal disease. This review provides a background on N. meningitidis biology and focuses on the current status of meningococcal research and vaccine development. In addition, the efficacy of the currently marketed N. meningitidis vaccines will be discussed.     

Meningococcal glycoconjugate vaccines

Neisseria meningitidis is a major cause of invasive bacterial infections worldwide. For this reason, efforts to control the disease have been directed at optimizing meningococcal vaccines and implementing appropriate vaccination policies. In the past, plain polysaccharide vaccines containing purified capsular polysaccharides A, C, Y and W135 were developed, but failed to protect infants, who are at greatest risk. Experience with the conjugate Haemophilus vaccine suggested that this approach might well empower meningococcal vaccines. Thus, a very efficacious vaccine against serogroup C Neisseria meningitis was optimized and has been widely used in developed nations since 1999. On the basis of epidemiological changes in the circulation of pathogenic serogroups in the United States, a quadrivalent conjugate vaccine against A, C, Y and W135 serogroups (Menactra?) has been developed and was approved by the U.S. FDA (Food and Drug Administration) in 2005. Recently, another tetravalent conjugate meningococcal vaccine (Menveo?) has been licensed and made available in the United States of America and in the European Union. Finally, in response to large epidemics caused by serogroup A meningococcus in Africa, a new, safe, immunogenic and affordable vaccine has been developed. This review highlights the evolution of conjugate meningococcal vaccines in general and discusses how this kind of vaccine can contribute to preventing meningococcal disease.     

Meningococcal vaccines: to eradicate the disease, not the bacterium

Neisseria meningitidis is exclusively a human-adapted bacterium, most frequently found in asymptomatic carriage that promotes natural immunity. However, it is also the causative agent of severe invasive infections, such as septicaemia and/or meningitis that may lead to life-threatening septic shock. Vaccination with capsular polysaccharidic antigens (either plain or conjugated) induces serogroup specific protective antibodies. Meningococcal capsular polysaccharide vaccines are only available against serogroups A, C, Y and W135. There is no available capsular vaccine against serogroup B. Future strategies to develop meningococcal vaccine should be global strategies aimed to design a "universal vaccine" effective against meningococcal disease due to any strain, regardless its phenotype and genotype. However, these global strategies may be hindered by the high diversity of meningococcal isolates and their changing epidemiology. Alternatively, targeted or local vaccine strategies may be developed against specific isolates and can help particularly in controlling outbreaks while preserving benefits from carriage.     

Meningococcal disease and travel

Meningococcal disease continues to be a worldwide problem. This review examines the impact meningococcal disease has on international travel and vice versa the impact international travel has on the intercontinental spread of meningococci. The risk of meningococcal disease to the endemic population differs from that of travellers. The best documented risk of meningococcal disease among travellers has been in Hajj pilgrims for Mecca and Madina in Saudi Arabia. In response to the recent Hajj associated outbreak of W135 meningococcal disease, quadrivalent meningococcal vaccine (against serogroups A/C/Y/W135) became a visa requirement. In view of increasing worldwide reports of Y and W135 meningococcal disease, there should be a switch in recommendation from the bivalent (against A& C) to the quadrivalent vaccine for all travellers.     

脑膜炎球菌疫苗研究进展

1969年,美国Gotschlish等采用十六烷基三甲基溴化铵提取脑膜炎球菌的大分子多糖抗原,成功制备荚膜多糖疫苗,证明免疫效果良好.然而,多糖疫苗对婴幼儿的免疫原性较弱,因而人们研制了单价和多价多糖一蛋白结合疫苗,目前部分结合疫苗已进入临床或上市.鉴于B群脑膜炎球菌多糖的免疫原性极弱,人们开发了外膜蛋白疫苗.研究表明,部分外膜蛋白疫苗对婴儿及儿童有较好的免疫原性及安全性.此外,通过基因工程技术研制DNA疫苗也不失为预防脑膜炎球菌感染的一种免疫策略.     

DNA疫苗:从动物疫苗到人用疫苗的跨越

自从十多年前发现DNA可以作为疫苗诱导机体产生免疫应答以来,DNA疫苗研究已取得突破性进展.目前已有4种动物DNA疫苗获准上市.然而,在临床试验中,单纯的DNA疫苗免疫原性很弱.随着DNA疫苗设计策略和接种方式的改进,可以预期将会有更多的人用DNA疫苗逐步进入临床,并最终实现DNA疫苗从动物疫苗到人用疫苗的跨越.