Giha H A, Staalsoe T, Dodoo D, Elhassan I M, Roper C, Satti G M, Arnot D E, Theander T G, Hviid L
Centre for Medical Parasitology, Department of Infectious Diseases, Copenhagen University Hospital (Rigshospitalet), and Institute for Medical Microbiology and Immunology, University of Copenhagen, Copenhagen, Denmark.
Infect Immun. 1999 Aug;67(8):4092-8. doi: 10.1128/IAI.67.8.4092-4098.1999.
PfEMP1 is an antigenically variable molecule which mediates the adhesion of parasitized erythrocytes to a variety of cell types and which is believed to constitute an important target for naturally acquired protective immune responses in malaria. For 9 years we have monitored individuals living in an area of low-intensity, seasonal, and unstable malaria transmission in eastern Sudan, and we have used this database to study the acquisition, specificity, and duration of the antibody response to variant parasitized erythrocyte surface antigens. Both the levels and the spectrum of reactivity of these antibodies varied considerably among individuals, ranging from low levels of antibodies recognizing only few parasitized erythrocyte surface antigens to high levels of broad-specificity antibodies. In general, episodes of clinical malaria were associated with increases in the levels of parasitized erythrocyte surface-specific antibodies that subsided within months of the attack. This response was often, but not always, specific for the antigenic variants expressed by the parasite isolate causing disease. Our study provides evidence that Palciparum falciparum malaria is associated with a short-lived, variant-specific antibody response to PfEMP1-like antigens exposed on the surface of parasitized erythrocytes. Furthermore, our data suggest that the antigenic repertoires of variant antigens expressed by different parasite isolates show considerable overlapping, at least under Sahelian conditions of low-intensity, seasonal, and unstable malaria transmission. Finally, we demonstrate the existence of persistent differences among individuals in the capacity to mount antibody responses to variant surface antigens.
恶性疟原虫红细胞膜蛋白1(PfEMP1)是一种抗原可变分子,介导被寄生红细胞与多种细胞类型的黏附,并且被认为是疟疾自然获得性保护性免疫反应的一个重要靶点。9年来,我们一直在监测生活在苏丹东部低强度、季节性和不稳定疟疾传播地区的人群,并利用这个数据库研究针对变异的被寄生红细胞表面抗原的抗体反应的获得、特异性和持续时间。这些抗体的水平和反应谱在个体之间差异很大,从仅识别少数被寄生红细胞表面抗原的低水平抗体到具有广泛特异性的高水平抗体。一般来说,临床疟疾发作与被寄生红细胞表面特异性抗体水平的升高有关,这些抗体水平在发作后的几个月内会下降。这种反应通常(但并非总是)针对引起疾病的寄生虫分离株所表达的抗原变异体具有特异性。我们的研究提供了证据,表明恶性疟原虫疟疾与针对被寄生红细胞表面暴露的PfEMP1样抗原的短暂、变异体特异性抗体反应有关。此外,我们的数据表明,至少在萨赫勒地区低强度、季节性和不稳定疟疾传播条件下,不同寄生虫分离株所表达的变异抗原的抗原库显示出相当大的重叠。最后,我们证明了个体在对变异表面抗原产生抗体反应的能力上存在持续差异。