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Reactive Oxygen Species-Responsive Sequentially Targeted AIE Fluorescent Probe for Precisely Identifying the Atherosclerotic Plaques

Jie Liu, Zhigui He, Yuan Zhong, Li Zhu, Meng Yan, Nianlian Mou, Kai Qu, Xian Qin, Guixue Wang, Kun Zhang, Weihu Yang, Wei Wu

2023ACS Applied Materials & Interfaces26 citationsDOI

Abstract

The formation of atherosclerosis is the root cause of various cardiovascular diseases (CVDs). Therefore, effective CVD interventions call for precise identification of the plaques to aid in clinical treatment of such diseases. Herein, a reactive oxygen species (ROS)-responsive sequentially targeted fluorescent probe is developed for atherosclerotic plaque recognition. An aggregation-induced emission active fluorophore is linked to maleimide (polyethylene glycol) hydroxyl with a ROS-responsive cleavable bond, which is further functionalized with CLIKKPF peptide (TPAMCF) for specifically binding to phosphatidylserine of the foam cells. After being assembled in aqueous medium, TPAMCF nanoparticles can efficiently accumulate in the plaques through the high affinity of CLIKKPF to the externalized phosphatidylserine of the foam cells. Activated by the locally accumulated ROS in foam cells, the nanoparticles are interrupted, and then TPA can be released and subsequently identify the lipid droplets inside the foam cells to achieve fluorescence imaging of the plaques. Such nanoprobes have the favorable ROS response performance and exhibit a special target binding to the foam cells in vitro . In addition, nanoprobe-based fluorescence imaging permitted the high-contrast and precise detection of atherosclerosis specimens ex vivo . Therefore, as a promising fluorescent probe, TPAMCF is capable of being a potential candidate for the detection of atherosclerotic plaque.

Topics & Concepts

NanoprobeFluorophoreReactive oxygen speciesFluorescencePhosphatidylserineMaterials scienceBiophysicsBiocompatibilityEx vivoNanoparticleIn vitroNanotechnologyChemistryBiochemistryBiologyMembraneQuantum mechanicsMetallurgyPhospholipidPhysicsNanoplatforms for cancer theranosticsAdvanced Nanomaterials in CatalysisMolecular Sensors and Ion Detection
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