疫苗抗原的极端多态性与临床疟疾风险:对疫苗开发的影响。
Extreme polymorphism in a vaccine antigen and risk of clinical malaria: implications for vaccine development.
机构信息
Howard Hughes Medical Institute and Center for Vaccine Development, University of Maryland School of Medicine, 685 West Baltimore Street, Baltimore, MD 21201, USA.
出版信息
Sci Transl Med. 2009 Oct 14;1(2):2ra5. doi: 10.1126/scitranslmed.3000257.
Abstract
Vaccines directed against the blood stages of Plasmodium falciparum malaria are intended to prevent the parasite from invading and replicating within host cells. No blood-stage malaria vaccine has shown clinical efficacy in humans. Most malaria vaccine antigens are parasite surface proteins that have evolved extensive genetic diversity, and this diversity could allow malaria parasites to escape vaccine-induced immunity. We examined the extent and within-host dynamics of genetic diversity in the blood-stage malaria vaccine antigen apical membrane antigen-1 in a longitudinal study in Mali. Two hundred and fourteen unique apical membrane antigen-1 haplotypes were identified among 506 human infections, and amino acid changes near a putative invasion machinery binding site were strongly associated with the development of clinical symptoms, suggesting that these residues may be important to consider in designing polyvalent apical membrane antigen-1 vaccines and in assessing vaccine efficacy in field trials. This extreme diversity may pose a serious obstacle to an effective polyvalent recombinant subunit apical membrane antigen-1 vaccine.
摘要
针对恶性疟原虫血期的疫苗旨在防止寄生虫侵入和在宿主细胞内复制。目前还没有一种血期疟疾疫苗在人体中显示出临床疗效。大多数疟疾疫苗抗原是寄生虫表面蛋白,这些蛋白具有广泛的遗传多样性,这种多样性可能使疟原虫逃避疫苗诱导的免疫。我们在马里进行的一项纵向研究中,研究了血期疟疾疫苗抗原顶膜抗原-1的遗传多样性的程度和宿主内动态。在 506 个人类感染中,鉴定出了 214 种独特的顶膜抗原-1单倍型,并且在一个假定的入侵机制结合位点附近的氨基酸变化与临床症状的发展强烈相关,这表明这些残基在设计多价顶膜抗原-1疫苗和评估现场试验中的疫苗效力时可能是需要考虑的重要因素。这种极端的多样性可能对有效的多价重组亚单位顶膜抗原-1疫苗构成严重障碍。
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