In order to overcome the limitation of traditional active nano-therapeutic drugs on tumor targeting efficiency which cannot reach the receptor/target in sufficient amount in the body,in this work,we developed a monocl...In order to overcome the limitation of traditional active nano-therapeutic drugs on tumor targeting efficiency which cannot reach the receptor/target in sufficient amount in the body,in this work,we developed a monoclonal antibody(mAb)and a polymer-hyd-doxorubicin prodrug conjugate,which enables the self-assembled nanoparticles to have precise targeting,tumor tissue aggregation and pH-sensitive drug release.We first prepared an amphiphilic polymer prodrug,abbreviated as H2N-PEEP-b-PBYP-hyd-DOX,via a combination of ring-opening polymerization(ROP)and"click"chemistry,in which PEEP and PBYP represent two kinds of phosphoester segmemts,-hyd-is hydrazone bond.After self-assembly into prodrug nanoparticles(PDNPs)with a diameter of about 93 nm,CD147 mAb was conjugated onto the PDNPs by EDC/NHS chemistry to form mAb-PDNPs.For the PDNPs and mAb-PDNPs,we also investigated their stability,in vitro drug release behavior and cellular uptake.The results showed that the pH-responsive PDNPs can remain relatively stable under the condition of PB 7.4 buffer solution.However,under acidic conditions or in the presence of phosphodiesterase I(PDE I),both the amount and rate of DOX release increased at the same incubation period.Cytotoxicity assay showed that mAb-PDNPs exhibited higher cytotoxicity(IC50:1.12 mg·L^(-1))against HepG2 cells than PDNPs(IC50:2.62 mg·L^(-1))without monoclonal antibody.The nanoparticles with antibodies mAb-PDNPs have relatively better stability and can directly achieve the targeting drug delivery through CD147 mAb.展开更多
基金financial supports from the National Natural Science Foundation of China(Nos.21975169 and 21374066)the Natural Science Foundation of Jiangsu Province(No.BK20171212)Funded by the Priority Academic Program Development(PAPD)of Jiangsu Higher Education Institutions。
文摘In order to overcome the limitation of traditional active nano-therapeutic drugs on tumor targeting efficiency which cannot reach the receptor/target in sufficient amount in the body,in this work,we developed a monoclonal antibody(mAb)and a polymer-hyd-doxorubicin prodrug conjugate,which enables the self-assembled nanoparticles to have precise targeting,tumor tissue aggregation and pH-sensitive drug release.We first prepared an amphiphilic polymer prodrug,abbreviated as H2N-PEEP-b-PBYP-hyd-DOX,via a combination of ring-opening polymerization(ROP)and"click"chemistry,in which PEEP and PBYP represent two kinds of phosphoester segmemts,-hyd-is hydrazone bond.After self-assembly into prodrug nanoparticles(PDNPs)with a diameter of about 93 nm,CD147 mAb was conjugated onto the PDNPs by EDC/NHS chemistry to form mAb-PDNPs.For the PDNPs and mAb-PDNPs,we also investigated their stability,in vitro drug release behavior and cellular uptake.The results showed that the pH-responsive PDNPs can remain relatively stable under the condition of PB 7.4 buffer solution.However,under acidic conditions or in the presence of phosphodiesterase I(PDE I),both the amount and rate of DOX release increased at the same incubation period.Cytotoxicity assay showed that mAb-PDNPs exhibited higher cytotoxicity(IC50:1.12 mg·L^(-1))against HepG2 cells than PDNPs(IC50:2.62 mg·L^(-1))without monoclonal antibody.The nanoparticles with antibodies mAb-PDNPs have relatively better stability and can directly achieve the targeting drug delivery through CD147 mAb.
