Selective modulation of ligand-receptor interaction is essential in targeted therapy. In this study, we design an intelligent "scan and unlock" DNA automaton (SUDA) system to equip a native protein-ligand with cell-identity recognition and receptor-mediated signaling in a cell-type-specific manner. Using embedded DNA-based chemical reaction networks (CRNs) on the cell surface, SUDA scans and evaluates molecular profiles of cell-surface proteins via Boolean logic circuits. Therefore, it achieves cell-specific signal modulation by quickly unlocking the protein-ligand in proximity to the target cell-surface to activate its cognate receptor. As a proof of concept, we non-genetically engineered hepatic growth factor (HGF) with distinct logic SUDAs to elicit target cell-specific HGF signaling and wound healing behaviors in multiple heterogeneous cell types. Furthermore, the versatility of the SUDA strategy was shown by engineering tumor necrotic factor-α (TNFα) to induce programmed cell death of target cell subpopulations through cell-specific modulation of TNFR1 signaling.
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