Abstract
Subcellular organelle targeted transport is of great significance for accurately delivering drugs to active sites for better pharmacological effects, but there are still a lot of challenges due to transport problems. In addition, the killing effect of one kind of drug on cells is limited. Therefore, it is necessary to develop a multifunctional nanoplatform that can co-deliver synergistic therapeutic agents. Here, we prepare a simple amphiphilic nanocarrier (LC) with rapid endosomal escape ability for nucleus-selective delivery of hydrophilic active protein deoxyribonuclease I (DNase I) and hydrophobic anticancer drug doxorubicin (DOX). LC has been applied to effectively encapsulate DNase I just by simply mixing their aqueous solutions together. In addition, DOX modified with adamantane groups via a redox-responsive linker is incorporated into the architecture of DNase I nanoformulations through host-guest interaction. This multi-component nanoplatform can quickly escape from the endolysosomes into the cytoplasm and make DNase I and DOX highly accumulate in the nucleus and consequently induce strong synergistic anticancer efficacy both in vitro and in vivo. This work illustrates a new platform for codelivery of proteins and drugs that target subcellular compartments for functions.