Sakai Tohru, Hisaeda Hajime, Nakano Yoko, Zhang Manxin, Takashima Miwa, Ishii Kazunari, Maekawa Yoichi, Matsumoto Soukichi, Nitta Yoshio, Miyazaki Jun ichi, Yamamoto Shigeru, Himeno Kunisuke
Department of Parasitology and Immunology, University of Tokushima School of Medicine, Japan.
Vaccine. 2003 Mar 28;21(13-14):1432-44. doi: 10.1016/s0264-410x(02)00665-5.
The carboxyl-terminal region of the merozoite surface protein-1 (MSP1) is a leading candidate for a vaccine against malaria in the erythrocytic stage. In this study, we investigated the utility of interleukin-12 (IL-12) cDNA as an adjuvant for malaria DNA vaccine in a mouse challenge model. We found that co-immunization of expression plasmids encoding a C-terminal 15-kDa fragment of MSP1 (MSP1-15) with the IL-12 gene using a gene gun significantly increased the protective immunity against malaria as compared with MSP1-15 DNA immunization alone. Co-immunization of IL-12 DNA potentiated MSP1-15-specific T helper (Th)1-type immune responses as evaluated by in vivo antibody (Ab) responses and in vitro cytokine profiles. After the Plasmodium yoelii challenge, mice immunized with MSP1-15 plus IL-12 DNA showed a higher level of interferon gamma (IFN-gamma) production than did other groups of mice. In vivo neutralization of IFN-gamma or depletion of CD4(+) T cells completely abolished this protective immunity. Macrophages, but not nitric oxide (NO), were found to play an important role in this effector mechanism. The sera from mice in which the infection had been cleared by the vaccination showed strong protection against P. yoelii infection. Thus, in addition to cellular immune responses, Abs against parasites induced in the course of infection are essential for protection against P. yoelii. The results indicate that combined vaccination with DNA encoding antigenic peptides plus IL-12 DNA provides a strategy for improving the prophylactic efficacy of a vaccine for malaria infection.
裂殖子表面蛋白1(MSP1)的羧基末端区域是红细胞期疟疾疫苗的主要候选对象。在本研究中,我们在小鼠攻毒模型中研究了白细胞介素-12(IL-12)cDNA作为疟疾DNA疫苗佐剂的效用。我们发现,使用基因枪将编码MSP1 C末端15 kDa片段(MSP1-15)的表达质粒与IL-12基因共同免疫,与单独进行MSP1-15 DNA免疫相比,显著增强了对疟疾的保护性免疫。通过体内抗体(Ab)反应和体外细胞因子谱评估,IL-12 DNA共同免疫增强了MSP1-15特异性T辅助(Th)1型免疫反应。约氏疟原虫攻毒后,用MSP1-15加IL-12 DNA免疫的小鼠产生的干扰素γ(IFN-γ)水平高于其他组小鼠。体内中和IFN-γ或清除CD4(+) T细胞完全消除了这种保护性免疫。发现巨噬细胞而非一氧化氮(NO)在这种效应机制中起重要作用。疫苗接种清除感染的小鼠血清对约氏疟原虫感染显示出强大的保护作用。因此,除细胞免疫反应外,感染过程中诱导产生的抗寄生虫抗体对于抵抗约氏疟原虫感染至关重要。结果表明,联合接种编码抗原肽的DNA和IL-12 DNA为提高疟疾感染疫苗的预防效果提供了一种策略。
