11A-5超声造影剂微泡靶向机制的原子力显微镜研究

V. Sboros, E. Glynos, S. Pye, C. Moran, M. Butler, J. Ross, W. Mcdicken, V. Koutsos
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引用次数: 0

摘要

微泡制剂的科学已经从成像应用扩展到生物靶向和药物/基因传递。然而,大多数靶向微泡是在没有彻底表征其靶向能力的情况下制造的。原子力显微镜具有皮牛顿力分辨率,据报道可以测量单键氢键。本研究旨在将这种纳米传感器引入细胞与目标微泡之间相互作用力的定量探测中。在原子力显微镜下,基于脂质的靶向超声造影剂利用生物素-亲和素化学来携带CD31抗体探测SkHepl细胞培养物。无端悬臂用聚l -赖氨酸功能化,并浸泡在微泡悬浮液中,以便在每个悬臂的末端附加一个微泡。这个系统然后询问单个细胞。在最初的研究中,研究了超过30对气泡细胞,产生了200多条力-距离曲线。结果表明,与对照微泡相比,靶向微泡具有明显更大的粘附力。平均集体附着力为0.68±0.33 nN,与接触深度有关。由于AFM的空间分辨率和力分辨率分别为亚纳米级和亚纳米牛顿级,因此可以在空间上解析目标微泡的粘附位点并测量这些单个位点的力。这些数据的直方图分析表明,在所有测量中存在单一的粘附事件分布,中位数为89.2 pN。总之,该系统能够定量评估靶向超声造影剂对细胞的亲和力,这对这种微泡的制造过程有价值的信息。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
11A-5 Interrogation of the Targeting Mechanisms of Ultrasound Contrast Agent Microbubbles Using Atomic Force Microscopy
The science of microbubble agents has expanded beyond imaging applications to biological targeting and drug/gene delivery. However, the majority of targeted microbubbles are manufactured without thorough characterisation of their targeting ability. Atomic Force Microscopy is capable of picoNewton force resolution, and is reported to measure single hydrogen bonds. The present study aims to introduce this nanosensor in the quantitative probing of the forces of interaction between cells and targeted microbubbles. In-house, lipid based, targeted ultrasound contrast agents that use the biotin-avidin chemistry to carry CD31 antibodies probed cultures of SkHepl cells with an Atomic Force Microscope. Tipless cantilevers were functionalised with poly-L-lysine and were immersed in a suspension of microbubbles in order to attach one at the end of each cantilever. This system then interrogated individual cells. In this initial study over 30 bubble-cell pairs were studied, producing over 200 force-distance curves. It was shown that the targeted microbubbles provide a significantly larger adhesion compared to control microbubbles. The average collective adhesion force was 0.68 plusmn 0.33 nN and was dependent on the depth of contact. As the spatial and force resolution of the AFM is of subnanometer and subnanonewton level, respectively, it is possible to spatially resolve the adhesion sites of targeted microbubbles and measure the forces of these single sites. A histogram analysis of these data demonstrating a single distribution of adhesion events present in all measurements with median at 89.2 pN. In conclusion, this system is capable of quantitative assessment of the avidity of targeted ultrasound contrast agents to cells, which is valuable information to the manufacturing process of such microbubbles.
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