AIM: To investigate the synthesis method of curcumin nanoparticles grafted with deoxycholic acid and the effect of curcumin nanoparticles on human retinal pigment epithelial(hRPE)cells.

METHODS: The synthesis and performance analysis of Cur/Chit-DC. The relationship between FITC/Chit-DC and hRPE cells was observed under an inverted fluorescence microscope after treating hRPE cells with FITC(FITC/Chit-DC)and Cur/Chit-DC(FITC/Cur/Chit-DC)for 24h, keeping them in dark for 1, 3 and 5d respectively.

RESULTS: By mixing Cur and Chit-DC, the nanoparticles containing chitosan derivatives were light yellow. The drug release from the nanoparticles reached equilibrium after 96h, and the cumulative drug release amount was 31.6%. After FITC/Chit-DC was treated with hRPE cells for 1d, most of Chit-DC nanoparticles were still located near the cell membrane. After 3d, the nanoparticles gradually converged towards the nucleus and most of them were located around the nucleus. After 5d, it was observed that Chit-DC nanoparticles had entered the nucleus and were partially degraded under the action of intracellular lysosomes. The relationship between Cur/Chit-DC and cellular action is roughly the same as the relationship between Chit-DC and cellular action.

CONCLUSION: Cur can be continuously released from Cur/Chit-DC nanoparticle, which has long-lasting sustained-release function.