pH sensitive liposomes assisted specific and improved breast cancer therapy using co-delivery of SIRT1 shRNA and Docetaxel.

Combining the bio-therapeutics with chemotherapeutic drugs can assist in augmenting the therapeutic standards by increasing the efficacy and decreasing the toxicity. Hence, in the present investigation Docetaxel (DTX) loaded pH-sensitive SIRT1 shRNA complexed lipoplex (DTX-lipoplex) were developed and explored for their improved breast cancer potential. The DTX-lipoplex were prepared by solvent evaporation and rehydration method and were evaluated for various quality attributes (particle size, % entrapment efficiency, hemotoxicity, DNA stability efficiency etc.), in vitro drug release, cell culture assays, antitumor efficacy and in vivo toxicity. The DTX-lipoplex exhibited a size of ~200 nm and zeta-potential of ~20 mV with ~70% encapsulation. Through systematic in vitro and in vivo examinations, DTX-lipoplex showed ~3 fold higher DTX titre within the tumor cells thereby significantly reducing the tumor burden (~78%) when compared to the marketed non pH sensitive lipid transfection agent and clinical counterpart i.e. Taxotere®. Thus, to conclude it can be said that co-delivering DTX and SIRT1 shRNA in a single tumor-specific nano-platform can improve the therapeutic potential of current therapy.