基于光波导光模光谱的固液界面受体配体反应动力学研究

Characterization of Reaction Kinetics between Ligand and Receptor on the Solid and Liquid Interface Based on Optical Waveguide Lightmode Spectroscopy

为了探讨血管内皮细胞生长因子和其受体作用的动力学特征,在3-氨基3-乙氧基硅烷修饰的光波导传感器芯片表面通过戊二醛将血管内皮细胞生长因子固定,用光波导光模光谱法对溶液中的血管内皮细胞生长因子受体与固定化血管内皮细胞生长因子作用的反应动力学进行了研究。通过对不同浓度的受体分子的在线结合、解离的光波导光模光谱数据的分析,拟合出相应的结合、解离反应速率常数分别为6.86×105L.(mol.s)-1和1.15×10-3s-1。结果表明,非标记的光波导光模光谱法适用于高效、准确的受体配体作用反应动力学特征测量,所建立的基于光波导光模光谱技术的体外研究模型,是相关药物的开发和作用机理研究的方便快捷的平台。

The present paper describes the use of optical waveguide lightmode spectroscopy（OWLS） for study of the binding interaction of the vascular endothelial growth factor（VGEF） with VEGF receptor 2（VEGFR2）.VEGF were immobilized in the surface of an 3-amino 3-propyltriethoxy silane（APTES） modified sensor chip.The solutions with different concentration of VEGFR2 were injected to the system to investigate the kinetic character with OWLS on the solid and liquid interface.The receptor binding and dissociation on the interface,quantified by association and dissociation rate coefficients ka and kd,were determined by the OWLS experiments.The ka and kd is 6.86×105 L·mol-1·s-1 and 1.15×10-3 s-1,respectively.The results show that OWLS method could meet the requirement of kinetic determination of ligand-receptor interaction in applications for related fundamental research and pharmaceutical development.