Systemic delivery of cationic liposome-mediated siRNA EGFR enhances therapeutic efficacy in a human colorectal cancer model

The clinical translation of RNA interference (RNAi) therapeutics remains limited by inefficient delivery and cancer-target accumulation. Here, we report the development of a new cationic liposome (CLP) nanocarrier engineered for delivery and controlled-release of small interfering RNA (siRNA) targeting the epidermal growth factor receptor (EGFR) in human colorectal cancer. CLPs were synthesized from ethylphosphocholine-based lipids and PEGylated components, with folic acid (FA) tissue-specific ligand and fluorophore labelling. These nanocarriers exhibited robust physicochemical stability across a broad pH and temperature range, efficient siRNA complexation, and nuclease-protection of siRNA. Functional studies revealed that CLP-siEGFR achieved effective cytosolic siRNA cargo release and EGFR silencing in vitro, proving to be more effective than conventional lipid-based transfection systems. In human xenograft models, intravenously administered CLP-siEGFR showed enhanced tumor localization, prolonged siRNA retention, and significant tumor growth suppression, accompanied by marked downregulation of EGFR. Importantly, systemic dosing was well-tolerated, with no evidence of hepatotoxicity, nephrotoxicity, or hematological abnormalities. These results position CLP nanocarriers as an effective platform for targeted RNAi therapeutics, offering translational potential for precision oncology applications.