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Folic acid functionalized aggregation-induced emission nanoparticles for tumor cell targeted imaging and photodynamic therapy

Danning Wen, Xueyun Zhang, Lei Ding, Huan Wen, Wen Liu, Chengwu Zhang, Bin Wang, Lihong Li, Haipeng Diao

2022RSC Advances15 citationsDOIOpen Access PDF

Abstract

Recently, molecules with aggregation-induced luminescence (AIE) characteristics have received more and more attention due to the fluorescence of traditional dyes being easily quenched in the aggregated state. AIE molecules have significant advantages, such as excellent light stability, bright fluorescence, high contrast, and large Stokes shift. These characteristics have aroused wide interest of researchers and opened up new applications in many fields, especially in the field of biological applications. However, AIE molecules or their aggregates have certain limitations in multifunctional biological research due to their low specific targeting ability, poor biocompatibility, and poor stability in physiological body fluids. In order to overcome these problems, a novel nanoparticle, FFM1, was fabricated and characterized. FFM1 displayed good water solubility, biocompatibility, and AIE emission properties. It could target HeLa cells specifically by recognizing their folate receptor. Reactive oxygen triggered by light irradiation induced tumor cell apoptosis. Summarily, FFM1 displayed excellent capacity in target imaging and photodynamic killing of HeLa cells. It has shown potential application value in targeted diagnosis and photodynamic therapy of tumors, and has important guiding significance for the treatment of malignant tumors. It paves a way for the development of a novel strategy for tumor theranostics.

Topics & Concepts

BiocompatibilityPhotodynamic therapyHeLaFolate receptorAggregation-induced emissionFluorescenceNanotechnologyNanoparticleChemistryFluorescence-lifetime imaging microscopyBiophysicsCancer cellMaterials scienceCellCancerBiochemistryMedicineOrganic chemistryQuantum mechanicsInternal medicinePhysicsBiologyNanoplatforms for cancer theranosticsLuminescence and Fluorescent MaterialsAdvanced biosensing and bioanalysis techniques
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