KEMRI Centre for Geographic Medicine Research, Coast, Kilifi, Kenya.
Infect Immun. 2010 Nov;78(11):4625-33. doi: 10.1128/IAI.00576-10. Epub 2010 Aug 23.
Although Plasmodium falciparum apical membrane antigen 1 (AMA1) is a leading malaria vaccine candidate, extensive allelic diversity may compromise its vaccine potential. We have previously shown that naturally acquired antibodies to AMA1 were associated with protection from clinical malaria in this Kenyan population. To assess the impact of allelic diversity on naturally acquired immunity, we first sequenced the ectodomain-encoding region of P. falciparum ama1 from subjects with asymptomatic, mild, and severe malaria and measured allele frequency distributions. We then measured antibodies to three allelic AMA1 proteins (AMA1_3D7, AMA1_FVO, and AMA1_HB3) and used competition enzyme-linked immunosorbent assays (ELISAs) to analyze allele-specific antibodies. Seventy-eight unique haplotypes were identified from 129 alleles sampled. No clustering of allelic haplotypes with disease severity or year of sampling was observed. Differences in nucleotide frequencies in clinical (severe plus mild malaria) versus asymptomatic infections were observed at 16 polymorphic positions. Allele frequency distributions were indicative of balancing selection, with the strongest signature being identified in domain III (Tajima's D = 2.51; P < 0.05). Antibody reactivities to each of the three allelic AMA1 proteins were highly correlated (P < 0.001 for all pairwise comparisons). Although antibodies to conserved epitopes were abundant, 48% of selected children with anti-AMA1 IgG (n = 106) had detectable reactivity to allele-specific epitopes as determined by a competition ELISA. Antibodies to both conserved and allele-specific epitopes in AMA1 may contribute to clinical protection.
尽管恶性疟原虫顶膜蛋白 1(AMA1)是一种领先的疟疾疫苗候选物,但广泛的等位基因多样性可能会影响其疫苗潜力。我们之前已经表明,在肯尼亚人群中,针对 AMA1 的自然获得性抗体与临床疟疾的保护有关。为了评估等位基因多样性对自然获得性免疫的影响,我们首先对无症状、轻度和重度疟疾患者的 P. falciparum ama1 的外显子编码区进行测序,并测量等位基因频率分布。然后,我们测量了针对三种等位基因 AMA1 蛋白(AMA1_3D7、AMA1_FVO 和 AMA1_HB3)的抗体,并使用竞争酶联免疫吸附测定(ELISA)分析等位基因特异性抗体。从 129 个等位基因中鉴定出 78 个独特的单倍型。未观察到等位基因单倍型与疾病严重程度或采样年份聚类。在 16 个多态性位置观察到临床(严重加轻度疟疾)与无症状感染之间核苷酸频率的差异。等位基因频率分布表明存在平衡选择,最强的特征在 III 结构域中(Tajima 的 D = 2.51;P < 0.05)。对三种等位基因 AMA1 蛋白的抗体反应性高度相关(所有两两比较的 P < 0.001)。尽管存在针对保守表位的大量抗体,但通过竞争 ELISA 确定,在选择的 106 名具有抗 AMA1 IgG 的儿童中,有 48%可检测到针对等位基因特异性表位的反应性。AMA1 中的保守和等位基因特异性表位的抗体可能有助于临床保护。
