Multidrug resistance (MDR) is the key cause that accounts for the failure of clinical cancer chemotherapy. To address the problem, herein, we presented an alternative strategy to conquer drug-resistant breast cancer through the combinatorial delivery of Ca2+ channel siRNA with cytotoxic drugs. Mesoporous silica nanocapsules (MSNCs) with mesoporous and hollow structure were fabricated for co-delivery of T-type Ca2+ channel siRNA and doxorubicin (DOX) with high drug loading efficiency. The DOX/siRNA co-loaded MSNCs showed a synergistic therapeutic effect on drug-resistant breast cancer cells MCF-7/ADR, while had only an additive effect on the drug-sensitive MCF-7 counterpart. It was found that the combination of T-type Ca2+ channel siRNA and DOX had a similar effect on MCF-7 and MCF-7/ADR in the knockdown of overexpressed T-type Ca2+ channels and decrease in cytosolic Ca2+ concentration ([Ca2+]i), but it specifically induced G0/G1 phase cell-cycle arrest and intracellular drug accumulation enhancement in MCF-7/ADR. The in vitro and in vivo results demonstrated that the MSNCs with good biocompatibility had a high efficiency for conquering the drug-resistant breast cancer with the DOX/calcium channel siRNA cocktail co-delivery. It provides a biological target for drug/gene delivery enhanced cancer therapy with nanoformulations.
Keywords: Ca2+ channel; Ca2+ signaling; mesoporous silica nanocapsules; multidrug resistance; siRNA delivery.