Abstract
We offer a novel methodology for formulating liposomes by incorporating sequence-specific collagen-mimetic peptides such that they are specifically "uncorked" by a matrix metalloproteinase, MMP-9. By encapsulating carboxyfluorescein (as a self-quenching fluorescent dye), we demonstrate that the time-dependent release of the dye from liposomes is due to the specific enzymatic cleavage of the surface-exposed collagen-mimetic peptides. The specificity of such cleavage is attested by the fact that the liposomal "uncorking" and their content release occur only by MMP-9 and not by a general proteolytic enzyme, trypsin, despite the fact that the collagen mimetic peptides contain the trypsin cleavage site. The mechanistic details underlying the formulations of liposomes and their enzyme-selective "uncorking" and content release are discussed. Arguments are presented that such liposomes can be fine-tuned to serve as the drug delivery vehicles for the detection and treatment of various human diseases, which occur due to the overexpression of a variety of pathogenic matrix metalloproteinases.
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