Receptor Binding by Cholera Toxin B-Subunit and Amino Acid Modification Improves Minimal Peptide Immunogenicity.

ISRN molecular biology Pub Date : 2012-07-15 eCollection Date: 2012-01-01 DOI:10.5402/2012/170676

Andreas Boberg, Alexandra Stålnacke, Andreas Bråve, Jorma Hinkula, Britta Wahren, Nils Carlin

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Abstract

We increase our understanding of augmenting a cellular immune response, by using an HIV-1 protease-derived epitope (PR75-84), and variants thereof, coupled to the C-terminal, of the B subunit of cholera toxin (CTB). Fusion proteins were used for immunizations of HLA-A0201 transgenic C57BL/6 mice. We observed different capacities to elicit a cellular immune response by peptides with additions of five to ten amino acids to the PR epitope. There was a positive correlation between the magnitude of the elicited cellular immune response and the capacity of the fusion protein to bind GM-1. This binding capacity is affected by its ability to form natural pentamers of CTB. Our results suggest that functional CTB pentamers containing a foreign amino acid-modified epitope is a novel way to overcome the limited cellular immunogenicity of minimal peptide antigens. This way of using a functional assay as readout for improved cellular immunogenicity might become highly valuable for difficult immunogens such as short peptides (epitopes).

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霍乱毒素b亚基受体结合和氨基酸修饰提高最小肽免疫原性。

通过使用HIV-1蛋白酶衍生的表位(PR75-84)及其变体，结合霍乱毒素(CTB) B亚基的c端，我们增加了对增强细胞免疫反应的理解。融合蛋白用于HLA-A0201转基因C57BL/6小鼠免疫。我们观察到通过在PR表位上添加5到10个氨基酸的肽引起细胞免疫反应的不同能力。引发的细胞免疫反应的大小与融合蛋白结合GM-1的能力呈正相关。这种结合能力受到其形成CTB天然五聚体的能力的影响。我们的研究结果表明，含有外源氨基酸修饰表位的功能性CTB五聚体是克服最小肽抗原有限的细胞免疫原性的一种新方法。这种使用功能分析作为读出提高细胞免疫原性的方法可能对难以获得的免疫原如短肽(表位)具有很高的价值。

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ISRN molecular biology

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