18F-ASEM Imaging for Evaluating Atherosclerotic Plaques Linked to α7-Nicotinic Acetylcholine Receptor

Background: Atherosclerosis is a chronic vascular inflammatory procedure alongside with lipid efflux disorder and foam cell formation. alpha 7-Nicotinic acetylcholine receptor (alpha 7nAChR) is a gated-calcium transmembrane channel widely expressed in neuron and non-neuron cells, such as monocytes and macrophages, activated T cells, dendritic cells, and mast cells. F-18-ASEM is an inhibitor targeted to alpha 7nAChR that had been successfully applied in nervous system diseases. Previous studies had highlighted that alpha 7nAChR was related to the emergency of vulnerable atherosclerotic plaques with excess inflammation cells. Thus, F-18-ASEM could be a complementary diagnostic approach to atherosclerotic plaques. Materials and Methods: The synthesis of ASEM precursor and F-18-labeling had been performed successfully. We had established the ApoE(-/-) mice atherosclerotic plaques model (fed with western diet) and New Zealand rabbits atherosclerotic models (balloon-sprained experiment and western diet). After damage of endothelial cells and primary plaque formation, F-18-ASEM imaging of atherosclerotic plaques linked to alpha 7nAChR had been conducted. In vivo micro-PET/CT imaging of ApoE(-/-) mice and the control group was performed 1 h after injection of F-18-ASEM (100-150 mu Ci); PET/CT imaging for rabbits with atherosclerotic plaques and control ones was also performed. Meanwhile, we also conducted CT scan on the abdominal aorta of these rabbits. After that, the animals were sacrificed, and the carotid and abdominal aorta were separately taken out for circular sections. The paraffin-embedded specimens were sectioned with 5 mu m thickness and stained with hematoxylin-eosin (H&E) and oil red. Results: In vivo vessel binding of F-18-ASEM and alpha 7nAChR expression in the model group with atherosclerosis plaques was significantly higher than that in the control group. PET/CT imaging successfully identified the atherosclerotic plaques in ApoE(-/-) mice and model rabbits, whereas no obvious signals were detected in normal mice or rabbits. Compared with F-18-FDG, F-18-ASEM had more significant effect on the early monitoring of inflammation in carotid atherosclerotic plaques of ApoE(-/-) mice and model rabbits. F-18-ASEM had relatively more palpable effect on the imaging of abdominal aorta with atherosclerosis in rabbits. H&E and oil red staining identified the formation of atherosclerotic plaques in model animals, which provided pathological basis for the evaluation of imaging effects. Conclusion: We first confirmed F-18-ASEM as radiotracer with good imaging properties for precise identification of atherosclerotic diseases.

Automated summary

The study confirmed F-18-ASEM as a radiotracer with good imaging properties for precise identification of atherosclerotic diseases.