To label proteins covalently, one faces a trade-off between labeling a protein specifically and using a small tag. Often one must compromise one parameter for the other or use additional components, such as an enzyme, to satisfy both requirements. Here, we report a new reaction that covalently labels proteins by using engineered coiled-coil peptides. Harnessing the concept of "proximity-induced reactivity", the 21-amino-acid three-heptad peptides CCE/CCK were modified with a nucleophilic cysteine and an α-chloroacetyl group at selected positions. When pairs of coiled coils associated, an irreversible covalent bond spontaneously formed between the peptides. The specificity of the cross-linking reaction was characterized, the probes were improved by making them bivalent, and the system was used to label a protein in vitro and receptors on the surface of mammalian cells.
PLNP-Mal-EGFR showed significantly enhanced cellular cytotoxicity against HCC cells overexpressing EGFR compared with nontargeted nanoparticles (polymer-lipid hybrid nanoparticles [containing DSPE-PEG-Mal] and polymer-lipid hybrid nanoparticles [containing DSPE-mPEG] combined with anti-EGFR Fab´). PLNP-Mal-EGFR and nontargeted nanoparticles could significantly reduce the proportion of side-population cells in HCC cells. The in vivo accumulation of PLNP-Mal-EGFR was obviously higher than that of nontargeted nanoparticles in SMMC-7721 HCC cells overexpressing EGFR. Notably, PLNP-Mal-EGFR showed significantly enhanced anti-tumor activity against HCC in vivo compared with nontargeted nanoparticles and free adriamycin. Therefore, PLNP-Mal-EGFR may serve as an effective therapeutic approach for HCC chemotherapy.
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