pH-Reversible Cationic RNase A Conjugates for Enhanced Cellular Delivery and Tumor Cell Killing

Intracellularly-acting therapeutic proteins are considered promising alternatives for the treatment of various diseases. Major limitations of their application are low efficiency of intracellular delivery and possible reduction of protein activity during derivatization. Herein, we report pH-sensitive covalent modification of proteins with a histidine-rich cationic oligomer (689) for efficient intracellular transduction and traceless release of functional proteins. Enhanced Green fluorescent protein (EGFP), as model for the visualization of protein transduction, and RNase A, as therapeutic protein with antitumoral effect, were modified with the pH-sensitive bifunctional AzMMMan linker and varying amounts of cationic oligomer. The modification degree showed impact on the internalization and cellular distribution of EGFP as well as the biological effect of RNase A conjugates, which mediated considerable toxicity against cancer cells at optimal ratio. The presented conjugates demonstrate their qualification to achieve efficient intracellular delivery and controlled release without protein inactivation and potential prospective applications in protein-based therapies.