Protease-triggered control of functional DNA has remained unachieved, leaving a significant gap in activatable DNA biotechnology. Herein, we report the design of a protease-activatable aptamer system that can perform molecular sensing and imaging in a tumor-specific manner. The system is constructed by locking the structure-switching activity of an aptamer using a rationally designed PNA-peptide-PNA triblock copolymer. Highly selective protease-mediated cleavage of the peptide substrate results in reduced binding affinity of PNA to the aptamer module, with the subsequent recovery of its biosensing function. We demonstrated that the DNA/ peptide/PNA hybrid system allows for tumor cell-selective ATP imaging in vitro and also produces a fluorescent signal in vivo with improved tumor specificity. This work illustrates the potential of bridging the gap between functional DNA and peptides for precise biomedical applications.
To identify peptides with high affinity and specificity against human epidermal growth factor receptor 2 (HER2), a series of peptides were designed based on the structure of HER2 and its Z(HER2:342) affibody. By using a combination protocol of molecular dynamics modeling, MM/GBSA binding free energy calculations, and binding free energy decomposition analysis, two novel peptides with 27 residues, pep27 and pep27-24M, were successfully obtained. Immunocytochemistry and flow cytometry analysis verified that both peptides can specifically bind to the extracellular domain of HER2 protein at cellular level. The Surface Plasmon Resonance imaging (SPRi) analysis showed that dissociation constants (KD) of these two peptides were around 300 nmol/L. Furthermore, fluorescence imaging of peptides against nude mice xenografted with SKBR3 cells indicated that both peptides have strong affinity and high specificity to HER2 positive tumors.
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