A diblock copolymer poly(ethylene glycol)-block-polystyrene or PEG-b-PS with an olefinic double bond at the PEG and PS junction has been prepared by modular synthesis via"click"chemistry.This involved the sy...A diblock copolymer poly(ethylene glycol)-block-polystyrene or PEG-b-PS with an olefinic double bond at the PEG and PS junction has been prepared by modular synthesis via"click"chemistry.This involved the synthesis of PS by atom transfer radical polymerization and the nucleophilic substitution of the terminal bromide group with azide to yield azide-terminated PS. PEG with an alkynyl terminal group was prepared from reacting carboxyl-end-functionalized PEG with 4-hydroxybut-2-enyl prop-2-ynyl succinate,which contained an alkynyl group as well as an olefin group.The PS and PEG polymers were linked via the 1,3-dipolar cycloaddition of the end azide and alkyne groups.The obtained copolymer was characterized by 1H NMR spectroscopy and size exclusion chromatography(SEC).SEC analysis indicated that the diblock copolymer produced could be readily cleaved by ozonolysis to regenerate the constituent homopolymers.展开更多
As a powerful tool to advance drug discovery,molecular imaging may provide new insights into the process of drug effect and therapy at cellular and molecular levels.When compared with other detection methods,fluoresce...As a powerful tool to advance drug discovery,molecular imaging may provide new insights into the process of drug effect and therapy at cellular and molecular levels.When compared with other detection methods,fluorescence-based strategies are highly attractive and can be used to illuminate pathways of drugs’transport,with multi-color capacity,high specificity and good sensitivity.The conjugates of fluorescent molecules and therapeutic agents create exciting avenues for real-time monitoring of drug delivery and distribution,both in vitro and in vivo.In this short review,we discuss recent developments of small molecule-based fluorophore-drug conjugates,including non-cleavable and cleavable ones,that are capable of visualizing drug delivery.展开更多
基金the National Natural Science Foundation of China (20704003 & 20974017)Open Project of State Key Laboratory of Supramolecular Structure and Materials(SKLSSM 200906)
文摘A diblock copolymer poly(ethylene glycol)-block-polystyrene or PEG-b-PS with an olefinic double bond at the PEG and PS junction has been prepared by modular synthesis via"click"chemistry.This involved the synthesis of PS by atom transfer radical polymerization and the nucleophilic substitution of the terminal bromide group with azide to yield azide-terminated PS. PEG with an alkynyl terminal group was prepared from reacting carboxyl-end-functionalized PEG with 4-hydroxybut-2-enyl prop-2-ynyl succinate,which contained an alkynyl group as well as an olefin group.The PS and PEG polymers were linked via the 1,3-dipolar cycloaddition of the end azide and alkyne groups.The obtained copolymer was characterized by 1H NMR spectroscopy and size exclusion chromatography(SEC).SEC analysis indicated that the diblock copolymer produced could be readily cleaved by ozonolysis to regenerate the constituent homopolymers.
基金This work was financially supported by the National Natural Science Foundation of China(21708034,21877100,81903574)Fundamental Research Funds for the Provincial Universities of Zhejiang(RF-B2019003).
文摘As a powerful tool to advance drug discovery,molecular imaging may provide new insights into the process of drug effect and therapy at cellular and molecular levels.When compared with other detection methods,fluorescence-based strategies are highly attractive and can be used to illuminate pathways of drugs’transport,with multi-color capacity,high specificity and good sensitivity.The conjugates of fluorescent molecules and therapeutic agents create exciting avenues for real-time monitoring of drug delivery and distribution,both in vitro and in vivo.In this short review,we discuss recent developments of small molecule-based fluorophore-drug conjugates,including non-cleavable and cleavable ones,that are capable of visualizing drug delivery.