Abstract
Herein, a water-soluble, ultrabright, near-infrared (NIR) fluorescent, mechanically interlocked molecules (MIMs)-peptide bioconjugate is designed with dual targeting capabilities. Cancer cell surface overexpressed αVβ3 integrin targeting two RGDS tetrapeptide residues is tethered at the macrocycle of MIMs-peptide bioconjugate via Cu(I)-catalyzed click chemistry on the Wang resin, and mitochondria targeting lipophilic cationic TPP+ functionality is conjugated at the axle dye. Living carcinoma cell selective active targeting, subsequently cell penetration, mitochondrial imaging, including the ultrastructure of cristae, and real-time tracking of malignant mitochondria by MIMs-peptide bioconjugate (RGDS)2-Mito-MIMs-TPP+ are established by stimulated emission depletion (STED) super-resolved fluorescence microscopy. Water-soluble NIR (RGDS)2-Mito-MIMs-TPP+ is an effective class of MIMs-peptide bioconjugate with promising photophysics; for instance, remarkable photostability and thermal stability, strong and narrow NIR abs/em bands with high quantum yield, ultrabrightness, decent fluorescence lifetime, reasonable stability against cellular nucleophiles, biocompatibility, noncytotoxicity, and dual-targeted living cancer cell submitochondrial imaging ability are all indispensable criteria for targeted super-resolved STED microscopy.
Published Version
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