亲和配体的物理吸附有助于以低非特异性结合到等离子体金基底的方式检测细胞外囊泡。
Physisorption of Affinity Ligands Facilitates Extracellular Vesicle Detection with Low Non-Specific Binding to Plasmonic Gold Substrates.
作者信息
Kim Kihyeun, Son Taehwang, Hong Jae-Sang, Kwak Tae Joon, Jeong Mi Ho, Weissleder Ralph, Im Hyungsoon
机构信息
Center for Systems Biology, Massachusetts General Hospital, Boston, Massachusetts 02114, United States.
Department of Radiology, Massachusetts General Hospital, Boston, Massachusetts 02114, United States.
出版信息
ACS Appl Mater Interfaces. 2022 Jun 2. doi: 10.1021/acsami.2c07317.
Abstract
Plasmonic biosensors are increasingly being used for the analysis of extracellular vesicles (EVs) originating from disease areas. However, the high non-specific binding of EVs to a gold-sensing surface has been a critical problem and hindered the true translational potential. Here, we report that direct antibody immobilization on the plasmonic gold surface via physisorption shows excellent capture of cancer-derived EVs with ultralow non-specific binding even at very high concentrations. Contrary to commonly used methods that involve thiol-based linker attachment and an EDC/sulfo-NHS reaction, we show a higher specific capture rate and >50-fold lower non-specific on citrate-capped plain and nanopatterned gold surfaces. The method provides a simple, fast, and reproducible means to functionalize plasmonic gold surfaces with antibodies for robust EV biosensing.
摘要
表面等离子体激元生物传感器越来越多地用于分析源自疾病区域的细胞外囊泡(EVs)。然而,EVs与金传感表面的高非特异性结合一直是一个关键问题,并阻碍了其真正的转化潜力。在此,我们报告,通过物理吸附将抗体直接固定在表面等离子体激元金表面,即使在非常高的浓度下,也能以超低的非特异性结合出色地捕获癌症衍生的EVs。与常用的涉及硫醇基连接体附着和EDC/磺基-NHS反应的方法相反,我们发现在柠檬酸盐包覆的平面和纳米图案化金表面上,特异性捕获率更高,非特异性结合降低了50倍以上。该方法提供了一种简单、快速且可重复的方法,用抗体对表面等离子体激元金表面进行功能化,以实现强大的EV生物传感。
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