利用原子力显微镜研究cd20 -利妥昔单抗结合力与淋巴B细胞力学性能的关系

2012 International Conference on Manipulation, Manufacturing and Measurement on the Nanoscale (3M-NANO) Pub Date : 2012-08-01 DOI:10.1109/3M-NANO.2012.6472926

Mi Li, Lianqing Liu, N. Xi, Yuechao Wang, Z. Dong, Xiubin Xiao, Weijing Zhang

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引用次数: 0

摘要

原子力显微镜(AFM)的发明为研究单细胞和单分子水平的生理活动提供了新的技术。将聚l -赖氨酸涂在玻片上，将淋巴瘤Raji细胞吸附在玻片上。将抗cd20抗体利妥昔单抗(rituximab)通过PEG连接到AFM尖端，并在3个淋巴瘤Raji细胞上测定cd20 -利妥昔单抗的结合体力。通过获得细胞表面的受力曲线，动态测定了利妥昔单抗活化后Raji细胞的力学性能。淋巴瘤细胞力学性能在前20 ~ 30 min保持稳定，后明显下降。此外，随着cd20 -利妥昔单抗结合力的增加，力学性能下降率也随之增加。实验结果表明，利妥昔单抗的作用与cd20 -利妥昔单抗的结结力有关，可以提高我们对利妥昔单抗在不同患者中不同疗效的认识。

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Investigating the relationship between CD20-Rituximab binding force and mechanical properties of Lymphom B cells using atomic force microscopy

The invention of atomic force microscopy (AFM) provides new technology for investigating the physiological activities at the single cell and single molecule levels. Lymphoma Raji cells were adsorbed onto the glass slides by coating the glass slides with poly-L-lysine. Rituximabs (anti-CD20 antibody) were linked onto the AFM tip by PEG linker and the CD20-Rituximab binding forces were measured on three lymphoma Raji cells. Then the mechanical properties of the Raji cells were dynamically measured after the Rituximab activation by obtaining force curves on the cell surface. The mechanical properties of lymphoma cells kept stable at the first 20-30 min, and then decreased markedly. Besides, as the CD20-Rituximab binding force increased, the mechanical properties decrease rate increased. The experimental results indicated that the Rituximab's effect is related to CD20-Rituximab binding force and can improve our understanding of Rituximab's variable efficacies in different patients.

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2012 International Conference on Manipulation, Manufacturing and Measurement on the Nanoscale (3M-NANO)

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