Study on interactions between targeted ultrasound contrast agents with anti-human interleukin-8 monoclone antibody and activated vascular endothelial cellls
10.3760/cma.j.issn.1004-4477.2012.08.026
- VernacularTitle:携IL-8单抗靶向超声造影剂与血管内皮细胞相互作用的实验研究
- Author:
Wei YANG
;
Yongping LU
;
Yuan YUAN
;
Hong ZHOU
;
Rui LIU
;
Zhi JING
;
Yueyue TANG
- Publication Type:Journal Article
- Keywords:
Ultrasonography;
Microbubbles;
Endothelial cell;
Interleukin-8
- From:
Chinese Journal of Ultrasonography
2012;21(8):715-718
- CountryChina
- Language:Chinese
-
Abstract:
Objective To observe the interactions between a anti-interleukin-8 monoclonal antibody (anti-IL-8 mAb) carried targeted ultrasound contrast agents and the injured vascular endothelial cells,as well as to explore the role of IL-8 in the formation of atherosclerotic plaques and a new assessing method of vascular endothelial functions.Methods The targeted ultrasound contrast agent was prepared by using a erosslinking agent to couple a anti-IL-8 mAb with SonoVue microbubbles.The interactions between SonoVue microbubbles/the targeted microbubbles and normal/injured endothelial cells were observed under an inverted microscope,respectively.The numbers of endothelial cells and adhered microbubbles were counted under high power magnification.The ratio of microbubbles to endothelial cells was calculated for the quantitative analysis of the interactions.Results In the control group,only a slight amount of original SonoVue microbubbles were bound to normal/injured endothelial cells.In contrast,it was visible under the microscope that the anti-IL-8 mAb carried SonoVue could be bound to endothelial cells,and the number of microbubbles bound to the surface of injured endothelial cells was significantly higher than that bound to the normal endothelial cells.Conclusions The anti-IL-8 mAb carried targeted ultrasound contrast agent could be readily bound to the surface of the injured cells specifically,and thus suggesting a new direction for ultrasonic detection of vascular endothelial injury and the ultrasonic assessment of vascular endothelial functions.
