Abstract
BACKGROUND: The aims of this study were to prepare the collagen-poly (3-acrylamidophenylboronic acid) nanoparticles (collagen-PAPBA NPs) encapsulating doxorubicin (DOX) and research their anticancer efficacy in ovarian cancer. METHODS: Collagen-PAPBA NPs were prepared, and their morphology and stability morphology were observed by transmission electron microscopy (TEM) and dynamic light scattering system (DLS). Preparation of doxorubicin-loaded Collagen-PAPBA NPs (DOX-loaded NPs) were then prepared, and the drug-loading content, encapsulation efficiency, and in vitro drug-release profiles were calculated. The morphology of DOX-loaded NPs was also observed by DLS, in vitro cytotoxicity to A2780 cells was analyzed by 3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyl tetrazolium bromide (MTT) assay, in vitro antitumor activity on A2780 cells was observed by immunofluorescence, and in vivo antitumor activity was assessed using an experimental BALB/c mice tumor model. RESULTS: DOX-encapsulating collagen-PAPBA NPs were successfully prepared with mediation by biomolecule. The average hydrodynamic diameter of collagen-PAPBA NPs as measured by DLS was about 79 nm, with a homogeneous distribution of size. TEM revealed that nanoparticles were well-dispersed, spherical, and a roughly uniform 75 nm in size. Collagen-PAPBA NPs were quite stable in a wide range of pH and temperature conditions and associated with the concentration of glucose. DLS revealed that the average hydrodynamic diameter of DOX-loaded NPs was about 81.3 nm, with homogeneous distribution of size. TEM revealed that drug-loaded nanoparticles were spherical, well-dispersed, and gad a roughly uniform size of 79 nm. The proportion of DOX loaded into the nanoparticles was 10%, while the encapsulating efficiency was 97%. The result of the releasing test showed that the drug-loaded nanoparticles, as carriers for DOX, had a good sustained-release effect. The cell toxicity experiment showed that the blank NPs had no cytotoxicity to A2780 cells, and that the drug-loaded NPS had good a sustained-release function. They may thus have potential toxic-reducing side effects. CONCLUSIONS: Under the same doses, the drug-loaded NP had a superior inhibitory effect to free DOX on the growth of human ovarian cancer.