Chemotherapy combined with photodynamic therapy has emerged as a promising strategy for cancer treatment.However,simultaneously delivering chemotherapeutic drugs and photosensitizers and precisely adjusting the ratio ...Chemotherapy combined with photodynamic therapy has emerged as a promising strategy for cancer treatment.However,simultaneously delivering chemotherapeutic drugs and photosensitizers and precisely adjusting the ratio of the two components as needed remains a challengeable task.Herein,novel supramolecular nanoparticles(donated as BODIPY-CPT-NPs)for chemo-photodynamic combination cancer therapy are constructed from a glutathione-responsive camptothecin-based prodrug,BODIPY photosensitizer,and dimacrocyclic host molecule through orthogonal host-vip recognitions and co-assembly.With this strategy,the ratio of prodrugs and photosensitizers in nanoparticles can be easily and precisely controlled as needed.Benefiting from the strong host-vip interactions and stable self-assembly,the nanoparticles exhibit excellent stability and photobleaching resistance.Furthermore,camptothecin can be released from nanoparticles for chemotherapy in the presence of reduction agent and single oxygen can be efficiently generated for PDT with light irradiation.The combined effects of the BODIPY-CPT-NPs have been verified in CT26 and HeLa cancer cells.展开更多
The development of preparation methods for XOFs,as a new class of organic frameworks,plays a crucial role in shaping their structures,functions,and potential applications.In this study,we presented the construction of...The development of preparation methods for XOFs,as a new class of organic frameworks,plays a crucial role in shaping their structures,functions,and potential applications.In this study,we presented the construction of chiral supramolecular 2D halogen-bonded organic frameworks(XOFs)through a post-synthetic modification strategy.A linear halogen-bonded organic polymer(XOP),XOP-DPBA,decorated with aldehyde groups,was initially prepared to validate the feasibility of post-synthetic modification for XOF construction and functionalization.XOP-DPBA exhibited excellent reactivity with amines,forming imine bonds.By utilizing this reactivity,a series of cross-linked 2D XOFs were efficiently prepared through post-synthetic modified cross-linking reactions.Furthermore,we successfully introduced chiralα/β-cyclodextrins(α/β-CD)into the XOF skeletons via host-vip interactions,resulting in the fabrication of chiral supramolecular 2D XOFs.These chiral XOFs displayed the induced circular dichroism(ICD)signals and assembled them into helical fibers.The post-synthetic modification strategy demonstrated its versatility and simplicity for the construction and functionalization of XOFs.展开更多
基金supported by National Natural Science Foundation of China(Nos.21702153 and 21801194)Wuhan Science and Technology Bureau(No.whkxjsj009)the support of the Core Facility of Wuhan University and the Large-scale Instrument and Equipment Sharing Foundation of Wuhan University.
文摘Chemotherapy combined with photodynamic therapy has emerged as a promising strategy for cancer treatment.However,simultaneously delivering chemotherapeutic drugs and photosensitizers and precisely adjusting the ratio of the two components as needed remains a challengeable task.Herein,novel supramolecular nanoparticles(donated as BODIPY-CPT-NPs)for chemo-photodynamic combination cancer therapy are constructed from a glutathione-responsive camptothecin-based prodrug,BODIPY photosensitizer,and dimacrocyclic host molecule through orthogonal host-vip recognitions and co-assembly.With this strategy,the ratio of prodrugs and photosensitizers in nanoparticles can be easily and precisely controlled as needed.Benefiting from the strong host-vip interactions and stable self-assembly,the nanoparticles exhibit excellent stability and photobleaching resistance.Furthermore,camptothecin can be released from nanoparticles for chemotherapy in the presence of reduction agent and single oxygen can be efficiently generated for PDT with light irradiation.The combined effects of the BODIPY-CPT-NPs have been verified in CT26 and HeLa cancer cells.
基金supported by the National Natural Science Foundation of China(22371218,21702153,21801194)the Wuhan Science and Technology Bureau(whkxjsj009)+1 种基金the support of the Core Facility of Wuhan Universitythe Large-scale Instrument and Equipment Sharing Foundation of Wuhan University。
文摘The development of preparation methods for XOFs,as a new class of organic frameworks,plays a crucial role in shaping their structures,functions,and potential applications.In this study,we presented the construction of chiral supramolecular 2D halogen-bonded organic frameworks(XOFs)through a post-synthetic modification strategy.A linear halogen-bonded organic polymer(XOP),XOP-DPBA,decorated with aldehyde groups,was initially prepared to validate the feasibility of post-synthetic modification for XOF construction and functionalization.XOP-DPBA exhibited excellent reactivity with amines,forming imine bonds.By utilizing this reactivity,a series of cross-linked 2D XOFs were efficiently prepared through post-synthetic modified cross-linking reactions.Furthermore,we successfully introduced chiralα/β-cyclodextrins(α/β-CD)into the XOF skeletons via host-vip interactions,resulting in the fabrication of chiral supramolecular 2D XOFs.These chiral XOFs displayed the induced circular dichroism(ICD)signals and assembled them into helical fibers.The post-synthetic modification strategy demonstrated its versatility and simplicity for the construction and functionalization of XOFs.
