The discovery of aggregation induced enmission(AIE)effect provides opportunities for the rapid development of fuorescence imaging-guided photodynamic therapy(PDT).In this work,a boron dipyrromethene(BODIPY)-based phot...The discovery of aggregation induced enmission(AIE)effect provides opportunities for the rapid development of fuorescence imaging-guided photodynamic therapy(PDT).In this work,a boron dipyrromethene(BODIPY)-based photosensitizer(ET-BDP-O)with AIE characteristics was developed,in which the two linear arms of BODIPY group were linked with triphenylamine to form an electron Donor-Acceptor-Donor(D-A-D)architecture while side chain was equipped with triethylene glycol group.ET-BDP-O was able to directly self-assemble into nanoparticles(NPs)without supplement of any other matrices or stabilizers due to its amphiphilic property.The as-prepared ET-BDP-O NPs had an excellent colloid stability with the size of 125 nm.Benefiting from the AIE property,ET-BDP-O NPs could generate strong fluorescence and reactive oxygen species under light-emitting diode light rradiation(60mW/cm^(2)).After inter-nalized in cancer cells,ET-BDP-O NPs were able to emit bright red fuorescence signal for bioimaging.In addition,the cell viability assay demonstrated that the ET-BDP-O NPs exhibited excellent photocytotoxicity against cancer cells,while negligible cytotoicity under dark envi-ronment.Thus,ET-BDP-O NPs might be regarded as a promising photosensitizer for fluores-cence imaging-guided PDT in future.展开更多
基金supported by the National Natural Science Foundation of China(Grant No.81871483)the Medical Innovation Project of Fujian Province(Grant No.2021CXA030).
文摘The discovery of aggregation induced enmission(AIE)effect provides opportunities for the rapid development of fuorescence imaging-guided photodynamic therapy(PDT).In this work,a boron dipyrromethene(BODIPY)-based photosensitizer(ET-BDP-O)with AIE characteristics was developed,in which the two linear arms of BODIPY group were linked with triphenylamine to form an electron Donor-Acceptor-Donor(D-A-D)architecture while side chain was equipped with triethylene glycol group.ET-BDP-O was able to directly self-assemble into nanoparticles(NPs)without supplement of any other matrices or stabilizers due to its amphiphilic property.The as-prepared ET-BDP-O NPs had an excellent colloid stability with the size of 125 nm.Benefiting from the AIE property,ET-BDP-O NPs could generate strong fluorescence and reactive oxygen species under light-emitting diode light rradiation(60mW/cm^(2)).After inter-nalized in cancer cells,ET-BDP-O NPs were able to emit bright red fuorescence signal for bioimaging.In addition,the cell viability assay demonstrated that the ET-BDP-O NPs exhibited excellent photocytotoxicity against cancer cells,while negligible cytotoicity under dark envi-ronment.Thus,ET-BDP-O NPs might be regarded as a promising photosensitizer for fluores-cence imaging-guided PDT in future.