Nanomedicines have been touted as the future of cancer therapy for decades. However, the field of tumor-targeted nanomedicine has failed to significantly advance toward becoming the primary choice for cancer intervention. One of the largest obstacles that has yet to be overcome is off-target accumulation of the nanoparticles. We propose a novel approach to tumor delivery by focusing on decreasing off-target accumulation of nanomedicines rather than directly increasing tumor delivery. Acknowledging a poorly understood "refractory" response to intravenously injected gene therapy vectors observed in ours and other studies, we hypothesize that virus-like particles (lipoplexes) can be utilized to initiate an anti-viral innate immune response that limits off-target accumulation of subsequently administered nanoparticles. Indeed, our results show a significant reduction in the deposition of both dextran and Doxil® in major organs with a concurrent increase in plasma and tumor accumulation when injection occurred 24 h after a lipoplex injection. Furthermore, our data showing that the direct injection of interferon lambda (IFN-λ) is capable of eliciting this response demonstrates a central role for this type III interferon in limiting accumulation in non-tumor tissues.
Keywords: Cancer; Immune response; Lipoplex; Off-target accumulation; Refractory response; Tumor delivery.
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