Design of a multifunctional PLGA nanoparticulate drug delivery system: evaluation of its physicochemical properties and anticancer activity to malignant cancer cells.

PURPOSE

Several individual approaches were combined to fabricate a novel nanoparticulate drug delivery system to achieve targeting and anticancer effects in various malignant cancer cells.

METHODS

Doxorubicin was conjugated to Poly(lactic-co-glycolic acid) (PLGA), which was formulated into nanoparticle via solvent-diffusion method. The surface of the nanoparticles was subsequently linked with Poly(ethylene glycol) (PEG) and Arg-Gly-Asp (RGD) peptide to realize both passive and active targeting functions. The multifunctional nanoparticles were then tested against several malignant cancer cell lines.

RESULTS

The conjugation increased loading efficiency of doxorubicin to PLGA nanoparticles (the encapsulation efficiency was over 85%) and alleviated the drug burst release effect substantially. The drug was released from the polymeric matrix in a sustained release manner over a period of 12 days. The resultant nanoparticles were spherically uniform and well-dispersed. The nanoparticle targeting ability was proven through strong affinity to various integrin-expressing cancer cells, and much less affinity to the low integrin expression cancer cells. The nanoparticles also showed high efficacy in inducing apoptosis in specific malignant cancer cell.

CONCLUSION

The developed multifunctional nanoparticles hold potential to treat malignant integrin-expressing cancers.