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在切变流条件下,通过靶向血管细胞黏附分子-1,将生物功能化的超声微泡黏附到内皮细胞上。

Adhesion of bio-functionalized ultrasound microbubbles to endothelial cells by targeting to vascular cell adhesion molecule-1 under shear flow.

机构信息

Department of Biophysics, School of Life Science and Technology, University of Electronic Science and Technology of China, Chengdu, Sichuan.

出版信息

Int J Nanomedicine. 2011;6:2043-51. doi: 10.2147/IJN.S24808. Epub 2011 Sep 21.

DOI:10.2147/IJN.S24808
PMID:21976979
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3181063/
Abstract

The expression of certain endothelial cell adhesion molecules is increased during endothelial dysfunction or inflammatory activation. This has led to the concept of using microbubbles for targeted molecular imaging or drug delivery. In this approach, microbubbles with a specific ligand to receptors expressed at the site of specific diseases are constructed. The present study aimed to engineer a novel type of bio-functionalized microbubbles (vascular cell adhesion molecule 1 [VCAM-1]-targeted microbubbles), and determine whether VCAM-1-targeted microbubbles exhibit specific adhesion to lipopolysaccharide (LPS)-activated endothelial cells. Our data showed that VCAM-1 expression was significantly upregulated in both LPS-activated endothelial cells in vitro and endothelium in a rat atherosclerosis model in vivo. Targeted microbubbles were designed by conjugating anti-VCAM-1 monoclonal antibodies to the shell of microbubbles using biotin-avidin bridging chemistry methods. Microbubble adhesion to endothelial cells was assessed in a flow chamber at two shear stress conditions (6.3 and 10.4 dynes/cm²). Our data showed that microbubble adhesion depends on both the surface anti-VCAM-1 antibody densities and the exposed shear stresses. Adhesion of VCAM-1-targeted microbubbles onto LPS-activated endothelial cells increased with the surface antibody densities, and decreased with the exposed shear stresses. These findings showed that the specific ligand-carrying microbubbles have considerable potential in targeted ultrasound molecular imaging or ultrasound-assisted drug/gene delivery applications.

摘要

某些内皮细胞黏附分子的表达在血管内皮功能障碍或炎症激活期间增加。这导致了使用微泡进行靶向分子成像或药物输送的概念。在这种方法中,构建了带有特定配体的微泡,该配体与特定疾病部位表达的受体结合。本研究旨在设计一种新型的生物功能化微泡(血管细胞黏附分子 1 [VCAM-1]靶向微泡),并确定 VCAM-1 靶向微泡是否与脂多糖(LPS)激活的内皮细胞表现出特异性黏附。我们的数据显示,在体外 LPS 激活的内皮细胞和体内大鼠动脉粥样硬化模型的内皮中,VCAM-1 的表达均显著上调。通过使用生物素-亲和素桥接化学方法将抗 VCAM-1 单克隆抗体偶联到微泡的壳上来设计靶向微泡。在两个剪切应力条件(6.3 和 10.4 dynes/cm²)下,在流动室中评估微泡对内皮细胞的黏附。我们的数据表明,微泡的黏附取决于表面抗 VCAM-1 抗体密度和暴露的剪切应力。VCAM-1 靶向微泡与 LPS 激活的内皮细胞的黏附随着表面抗体密度的增加而增加,随着暴露的剪切应力的增加而减少。这些发现表明,携带特定配体的微泡在靶向超声分子成像或超声辅助药物/基因传递应用中具有相当大的潜力。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a1dd/3181063/5d5be7051209/ijn-6-2043f8.jpg
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