Alligator Bioscience AB, Scheelevägen 19A, S-223 70 Lund.
Protein Eng Des Sel. 2010 Feb;23(2):91-101. doi: 10.1093/protein/gzp062. Epub 2009 Dec 3.
Chemotaxis inhibitory protein of Staphylococcus aureus (CHIPS) is a protein that binds and blocks the C5a receptor (C5aR) and formylated peptide receptor, thereby inhibiting the immune cell recruitment associated with inflammation. If CHIPS was less reactive with existing human antibodies, it would be a promising anti-inflammatory drug candidate. Therefore, we applied directed evolution and computational/rational design to the CHIPS gene in order to generate new CHIPS variants displaying lower interaction with human IgG, yet retaining biological function. The optimization was performed in four rounds: one round of random mutagenesis to add diversity into the CHIPS gene and three rounds of DNA recombination by Fragment INduced Diversity (FIND). Every round was screened by phage selection and/or ELISA for decreased interaction with human IgG and retained C5aR binding. The mean binding of human anti-CHIPS IgG decreased with every round of evolution. For further optimization, new amino acid substitutions were introduced by rational design, based on the mutations identified during directed evolution. Finally, seven CHIPS variants with low interaction with human IgG and retained C5aR blocking capacity could be identified.
金黄色葡萄球菌趋化抑制蛋白(CHIPS)是一种能够结合并阻断 C5a 受体(C5aR)和甲酰化肽受体的蛋白,从而抑制与炎症相关的免疫细胞募集。如果 CHIPS 与现有的人类抗体的反应性降低,它将成为一种有前途的抗炎药物候选物。因此,我们将定向进化和计算/合理设计应用于 CHIPS 基因,以产生与人类 IgG 相互作用降低但保留生物学功能的新型 CHIPS 变体。该优化分为四轮进行:一轮随机诱变以增加 CHIPS 基因的多样性,三轮通过片段诱导多样性(FIND)进行 DNA 重组。每一轮都通过噬菌体选择和/或 ELISA 筛选,以降低与人类 IgG 的相互作用并保留 C5aR 结合。随着进化的每一轮进行,人类抗 CHIPS IgG 的平均结合力降低。为了进一步优化,根据定向进化过程中发现的突变,通过合理设计引入新的氨基酸取代。最终,筛选出了 7 种与人类 IgG 相互作用较低且保留 C5aR 阻断能力的 CHIPS 变体。
