Nanostructured lipid carriers based temozolomide and gene co-encapsulated nanomedicine for gliomatosis cerebri combination therapy.

BACKGROUND: Co-delivery of gene and anticancer drug into the same cancer cells or tissues by multifunctional nanocarriers may provide a new paradigm in cancer treatment. In this study, nanostructured lipid carriers (NLCs) were constructed as multifunctional nanomedicine for co-delivery of enhanced green fluorescence protein plasmid (DNA) and temozolomide (TMZ). METHODS: TMZ- and DNA-loaded NLCs (TMZ/DNA-NLCs) were prepared. Their particle size, zeta potential, gene-loading capacity (GL) and drug encapsulation efficiency (EE) were evaluated. In vitro cytotoxicity study TMZ/DNA-NLCs was tested in U87 malignant glioma cells (U87 MG cells). In vivo gene transfection and anti-tumor efficacy of the carriers were evaluated on mice bearing malignant glioma model. RESULTS: The optimum TMZ/DNA-NLCs formulations with the particle size of 179 nm and with a +23 mV surface charge; got 91% of GL and 83% of EE. The growth of U87 MG cells in vitro was obviously inhibited. TMZ/DNA-NLCs also displayed the highest gene transfection efficiency and the best antitumor activity than other formulations in vivo. CONCLUSION: The results demonstrated that TMZ/DNA-NLCs were efficient in selective delivery to malignant glioma cells. Also TMZ/DNA-NLCs transfer both drug and gene to the gliomatosis cerebri, enhance the antitumor capacity and gene transfection efficacy. Thus, TMZ/DNA-NLCs could prove to be a superior co-delivery nanomedicine to achieve therapeutic efficacy and this report could be a new promising strategy for treatment in malignant gliomatosis cerebri.