G Levitus, F Mertens, K Kirchgatter, S G Oliveira, H A del Portillo
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引用次数: 0
Abstract
Plasmodium vivax is the most widely distributed human malaria with an estimate of 35 million cases per year. The deduced amino acid sequence comparisons of the Merozoite Surface Protein 1 (MSP1) from several plasmodial species, including that of P. vivax (PvMSP1), revealed the existence of highly conserved blocks and polymorphic blocks. We had previously shown that sequences within conserved blocks from the N-terminal region of the PvMSP1 were poorly immunogenic in natural human infections. These results suggest that these regions code for important and unknown structural and/or functional features and thus they could potentially be tested as a sub-unit PvMSP1 vaccine. In the present study, a battery of monoclonal antibodies (Mabs) was produced against the N-terminal region of the PvMSP1 in an attempt to determine whether these N-terminal ICBs contained all the epitopes exposed on the native molecule. The results suggest that the most terminal ICB2 and ICB3 blocks are not exposed on the surface of the PvMSP1 native molecule and clearly eliminate the possibility of considering the N-terminal domains as unique components of a sub-unit PvMSP1 vaccine candidate.
间日疟原虫是分布最广泛的人类疟疾,估计每年有3500万例病例。对包括间日疟原虫(PvMSP1)在内的几种疟原虫Merozoite Surface Protein 1 (MSP1)的氨基酸序列进行了比较,发现其存在高度保守的片段和多态片段。我们之前已经证明,PvMSP1的n端区域保守块内的序列在自然人类感染中免疫原性较差。这些结果表明,这些区域编码重要且未知的结构和/或功能特征,因此它们可能作为亚基PvMSP1疫苗进行测试。在本研究中,针对PvMSP1的n端区域产生了一系列单克隆抗体(mab),试图确定这些n端ICBs是否包含暴露在天然分子上的所有表位。结果表明,大多数末端ICB2和ICB3片段没有暴露在PvMSP1天然分子的表面,并且清楚地排除了将n端结构域视为PvMSP1亚基候选疫苗的独特组分的可能性。
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