Mueller Markus S, Renard Annabelle, Boato Francesca, Vogel Denise, Naegeli Martin, Zurbriggen Rinaldo, Robinson John A, Pluschke Gerd
Molecular Immunology, Swiss Tropical Institute, CH-4002 Basel, Switzerland.
Infect Immun. 2003 Aug;71(8):4749-58. doi: 10.1128/IAI.71.8.4749-4758.2003.
Apical membrane antigen 1 (AMA-1) of Plasmodium falciparum is a leading candidate antigen for inclusion in a malaria subunit vaccine. Its ectodomain can be divided into three subdomains, each with disulfide bond-stabilized structures. Since the majority of antibodies raised against the ectodomain appear to recognize strain-specific epitopes in domain I, we attempted to develop a vaccine formulation which directs the immune response to a region that contains more conserved epitopes. Here we demonstrate that a virosomal formulation of a peptide that mimics the semiconserved loop I of domain III elicits parasite growth-inhibitory antibodies. A synthetic peptide comprising residues 446 to 490 of AMA-1 (AMA-1(446-490)) was conjugated through the N terminus to a derivative of phosphatidylethanolamine and the phosphatidylethanolamine-peptide conjugate was incorporated into immunopotentiating reconstituted influenza virosomes as a human-compatible antigen delivery system. Both cyclized and linear versions of the peptide antigen elicited antibodies which specifically bound to parasite-expressed AMA-1 in Western blotting with parasite lysates as well as in immunofluorescence assays with blood stage parasites. All 11 peptidomimetic-specific monoclonal antibodies generated were cross-reactive with parasite-expressed AMA-1. Antigen binding assays with a library of overlapping cyclic peptides covering the target sequence revealed differences in the fine specificity of these monoclonal antibodies and provided evidence that at least some of them recognized discontinuous epitopes. The two immunodominant epitopes comprised the conserved linear sequences K(459)RIKLN(464) and D(467)DEGNKKII(475). A key feature of the synthetic vaccine formulation proposed here is the display of the peptide antigen in a native-like state on the surface of the virosome.
恶性疟原虫的顶端膜抗原1(AMA-1)是疟疾亚单位疫苗的主要候选抗原。其胞外结构域可分为三个亚结构域,每个亚结构域都有二硫键稳定的结构。由于针对胞外结构域产生的大多数抗体似乎识别结构域I中的菌株特异性表位,我们试图开发一种疫苗制剂,将免疫反应导向包含更多保守表位的区域。在此我们证明,模拟结构域III半保守环I的肽的病毒体制剂可引发抑制寄生虫生长的抗体。将包含AMA-1第446至490位残基的合成肽(AMA-1(446-490))通过N端与磷脂酰乙醇胺的衍生物偶联,并将磷脂酰乙醇胺-肽偶联物作为与人兼容的抗原递送系统掺入免疫增强重组流感病毒体中。肽抗原的环化和线性形式均引发了抗体,这些抗体在以寄生虫裂解物进行的蛋白质印迹以及与血液期寄生虫进行的免疫荧光测定中均能特异性结合寄生虫表达的AMA-1。产生的所有11种肽模拟物特异性单克隆抗体均与寄生虫表达的AMA-1交叉反应。用覆盖靶序列的重叠环肽文库进行的抗原结合试验揭示了这些单克隆抗体精细特异性的差异,并提供证据表明其中至少一些识别不连续表位。两个免疫显性表位包含保守的线性序列K(459)RIKLN(464)和D(467)DEGNKKII(475)。本文提出的合成疫苗制剂的一个关键特征是肽抗原以天然样状态展示在病毒体表面。