Nonviral vectors have been attracting more attention for several advantages in gene delivery and the development of nonviral gene ca rriers with high delivery efficiency and low cytotoxicity has long been a key projec...Nonviral vectors have been attracting more attention for several advantages in gene delivery and the development of nonviral gene ca rriers with high delivery efficiency and low cytotoxicity has long been a key project.Starburst polyamidoamine dendrimers are a class of synthetic polymers with unique structural and physical characteristics.However,when they are used as gene carrier,the gene transfection efficiency is not satisfactory.Herein,a novel thioketal-core polyamidoamine dendrimer(i.e.,ROS-PAMAM)was synthesized and characterized.Compared to ethylenediamine-core dendrimers or widely used cationic polymers of polyetherimide,ROS-PAMAM showed lower cytotoxicity.Moreover,ROS-PAMAM demonstrated reactive oxygen species responsive characteristics,which can facilitate the release of siRNA in the tumor microenvironment.In vitro gene transfection experiments based on A549 cells confirmed that siRNA/ROS-PAMAM exhibits high gene transfection efficiency.It is concluded that ROS-PAMAM shows great potential as a generalizable vehicle for gene therapy applications.展开更多
基金supported by the National Natural Science Foundation of China (Nos.31571020,31570856 and 31300697)
文摘Nonviral vectors have been attracting more attention for several advantages in gene delivery and the development of nonviral gene ca rriers with high delivery efficiency and low cytotoxicity has long been a key project.Starburst polyamidoamine dendrimers are a class of synthetic polymers with unique structural and physical characteristics.However,when they are used as gene carrier,the gene transfection efficiency is not satisfactory.Herein,a novel thioketal-core polyamidoamine dendrimer(i.e.,ROS-PAMAM)was synthesized and characterized.Compared to ethylenediamine-core dendrimers or widely used cationic polymers of polyetherimide,ROS-PAMAM showed lower cytotoxicity.Moreover,ROS-PAMAM demonstrated reactive oxygen species responsive characteristics,which can facilitate the release of siRNA in the tumor microenvironment.In vitro gene transfection experiments based on A549 cells confirmed that siRNA/ROS-PAMAM exhibits high gene transfection efficiency.It is concluded that ROS-PAMAM shows great potential as a generalizable vehicle for gene therapy applications.
