脂质体疫苗中肽构象的序列无关控制,用于靶向蛋白质错误折叠疾病。
Sequence-independent control of peptide conformation in liposomal vaccines for targeting protein misfolding diseases.
机构信息
AC Immune SA, PSE-B, EPFL, CH-1015 Lausanne, Switzerland.
出版信息
J Biol Chem. 2011 Apr 22;286(16):13966-76. doi: 10.1074/jbc.M110.186338. Epub 2011 Feb 22.
Abstract
Synthetic peptide immunogens that mimic the conformation of a target epitope of pathological relevance offer the possibility to precisely control the immune response specificity. Here, we performed conformational analyses using a panel of peptides in order to investigate the key parameters controlling their conformation upon integration into liposomal bilayers. These revealed that the peptide lipidation pattern, the lipid anchor chain length, and the liposome surface charge all significantly alter peptide conformation. Peptide aggregation could also be modulated post-liposome assembly by the addition of distinct small molecule β-sheet breakers. Immunization of both mice and monkeys with a model liposomal vaccine containing β-sheet aggregated lipopeptide (Palm1-15) induced polyclonal IgG antibodies that specifically recognized β-sheet multimers over monomer or non-pathological native protein. The rational design of liposome-bound peptide immunogens with defined conformation opens up the possibility to generate vaccines against a range of protein misfolding diseases, such as Alzheimer disease.
摘要
合成肽免疫原模拟病理相关靶表位的构象,为精确控制免疫反应特异性提供了可能。在这里,我们使用一系列肽进行构象分析,以研究控制其在整合到脂质体双层中时构象的关键参数。结果表明,肽脂质化模式、脂质锚链长度和脂质体表面电荷都会显著改变肽的构象。通过添加不同的小分子β-折叠破坏剂,还可以在脂质体组装后调节肽的聚集。用含有β-折叠聚集脂质肽(Palm1-15)的模型脂质体疫苗免疫小鼠和猴子,诱导出多克隆 IgG 抗体,该抗体特异性识别β-折叠多聚体,而不是单体或非病理性天然蛋白。具有明确构象的脂质体结合肽免疫原的合理设计为针对一系列蛋白质错误折叠疾病(如阿尔茨海默病)的疫苗开辟了可能性。
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