Engineered Nanobodies-Based Sandwich-Competitive Immunoassay Broadens the Detection Range for Aflatoxin B1

化学 免疫分析 分析物 半抗原 黄曲霉毒素 线性 色谱法 纳米技术 线性范围 竞争性约束 生物传感器 检出限 生化工程 动态范围 过程开发
作者
Wenxin Xie,Jian Chen,Jinheng Fu,Zhui Tu,Luying Duan,Wuying Yang,Xuetao Hu,Qinghua He,Wenjun Wang,Dan Wang
出处
期刊:Analytical Chemistry [American Chemical Society]
卷期号:97 (43): 24250-24259 被引量:2
标识
DOI:10.1021/acs.analchem.5c05346
摘要

Competitive immunoassays for small-molecule haptens such as aflatoxin B 1 (AFB 1 ) are often limited by insufficient sensitivity and narrow dynamic ranges. This study seeks to address these issues through the genetic engineering of nanobodies and the development of novel immunoassay formats using AFB 1 as a model. An innovative elution-free biopanning strategy was developed for the in vitro evolution of an AFB 1 -specific nanobody, which proved highly suitable for screening high-performance anti-hapten nanobodies. Using this strategy, several mutants with improved analytical performance were obtained, including one that showed a 3.5-fold reduction in the half-maximal inhibitory concentration (IC 50 ) compared with the parent nanobody. Affinity kinetics of five representative mutants demonstrated a positive correlation between the IC 50 values and their affinity for the artificial antigen. By leveraging these mutants, a novel sandwich-competitive immunoassay (SCI) format was constructed using two nanobodies along with a special artificial antigen. The SCI demonstrated a markedly broadened detection range (IC 10 –IC 90 ) with excellent linearity ( R 2 > 0.98), outperforming conventional competitive assays, which showed compromised linearity outside the IC 20 –IC 80 range ( R 2 < 0.92). The broader detection range of SCI can be attributed to the two-stage competitive binding process of the analyte to the sandwich immunocomplex. Spike-recovery experiments confirmed the accuracy and applicability of the SCI in actual sample detection. This study offers a strategy that revitalizes the in vitro evolution of nanobodies targeting haptens and advances immunoassay development for such molecules.
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