Effect of pH-Responsive Ligands on mRNA Knockdown in EGFR-Targeting Ligand-Conjugated siRNAs

Ligand-conjugated small interfering RNAs (siRNAs) have emerged as a powerful approach to developing nucleic acid-based medicines. To achieve efficient mRNA knockdown, it is important to select targeting receptors with high expression and ligands that exhibit rapid internalization. However, the key characteristics of ligand–receptor sets involved in the postinternalization process remain largely unclear. In this study, we investigated the effect of ligand–receptor binding dissociation under low pH conditions, known as a postendocytic environment. Specifically, we chemically synthesized several modified epidermal growth factor (EGF) ligands that showed a variety of binding activities to the EGF receptor (EGFR) at low pH. Among these modified ligands, the siRNA conjugate with chemically synthesized EGF H10Y/H16Y, which is a less pH-responsive variant, exhibited reduced internalization and mRNA knockdown activity at high concentrations in EGFR-expressing cells. Additionally, we explored the use of antibody-related molecules (anti-EGFR IgG and Fab) as targeting moieties for siRNA conjugates. The anti-EGFR Fab-siRNA, which showed dissociation of EGF under low pH conditions, demonstrated stronger internalization and mRNA knockdown activity compared to the anti-EGFR IgG-siRNA, which strongly binds EGF at low pH. These data emphasize the importance of intracellular ligand–receptor dissociation and provide insights for future advancements in the field.