This paper provides a new treatment for gastric cancer with a new OMT delivery system.We synthesized MPEG-PCL,an amphiphilic polymer,to construct a nanoparticle encapsulated OMT by pH gradient method,and then examined...This paper provides a new treatment for gastric cancer with a new OMT delivery system.We synthesized MPEG-PCL,an amphiphilic polymer,to construct a nanoparticle encapsulated OMT by pH gradient method,and then examined the nanodrug’s therapeutic efficacy.An integral analytical method was used to characterize the structure of MPEG-PCL.The single factor method and orthogonal test were utilized to investigate the optimum preparation process.The morphology and average size of the OMT-NPs were analyzed by transmission electron microscopy and Zetasizer.CCK-8 assay and confocal fluorescent microscope were used to study the inhibitory effect on SGC-7901 gastric cancer cells.The average size of nanoparticles was 95.86±1.54 nm.The maximum encapsulation efficiency of OMT was 46.84±4.37%,while the drug loading content was 8.89±1.09%.The cumulative release of nanoparticles was 73.07±1.5%,inspected through dynamic dialysis in vitro.Compared with free OMT,OMT-NPs showed enhanced cytotoxic effects in SGC-7901 cells.The nanoparticles could efficiently deliver the OMT into the cancer cells and release it.The OMT delivery system prepared in this paper provides a potential platform for the treatment of gastric cancer..展开更多
基金Funded by the National Natural Science Foundation of China(No.51273156)the Health Commission of Hubei Province Scientific Research Project(No.WJ2019H275)。
文摘This paper provides a new treatment for gastric cancer with a new OMT delivery system.We synthesized MPEG-PCL,an amphiphilic polymer,to construct a nanoparticle encapsulated OMT by pH gradient method,and then examined the nanodrug’s therapeutic efficacy.An integral analytical method was used to characterize the structure of MPEG-PCL.The single factor method and orthogonal test were utilized to investigate the optimum preparation process.The morphology and average size of the OMT-NPs were analyzed by transmission electron microscopy and Zetasizer.CCK-8 assay and confocal fluorescent microscope were used to study the inhibitory effect on SGC-7901 gastric cancer cells.The average size of nanoparticles was 95.86±1.54 nm.The maximum encapsulation efficiency of OMT was 46.84±4.37%,while the drug loading content was 8.89±1.09%.The cumulative release of nanoparticles was 73.07±1.5%,inspected through dynamic dialysis in vitro.Compared with free OMT,OMT-NPs showed enhanced cytotoxic effects in SGC-7901 cells.The nanoparticles could efficiently deliver the OMT into the cancer cells and release it.The OMT delivery system prepared in this paper provides a potential platform for the treatment of gastric cancer..
