1. Tailoring Protease-Sensitive Photodynamic Agents to Specific Disease-Associated Enzymes
- Author
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Marino A. Campo, Doris Gabriel, Norbert Lange, and Robert Gurny
- Subjects
Chlorophyll ,Proteases ,Cell Survival ,medicine.medical_treatment ,Biomedical Engineering ,Pharmaceutical Science ,Bioengineering ,Photodynamic therapy ,Peptide ,Peptides/chemistry ,Cleavage (embryo) ,Reactive Oxygen Species/metabolism ,Cell Line, Tumor ,Chlorophyll/analogs & derivatives/chemistry/pharmacology ,Prodrugs/chemical synthesis/pharmacology ,medicine ,Humans ,Polylysine ,Prodrugs ,Trypsin ,Photosensitizer ,Peptide sequence ,Pharmacology ,chemistry.chemical_classification ,ddc:615 ,Photosensitizing Agents ,Protease ,Chemistry ,Organic Chemistry ,Combinatorial chemistry ,Photosensitizing Agents/chemistry/pharmacology ,Trypsin/chemistry ,Photochemotherapy ,Biochemistry ,Polylysine/chemistry ,Peptides ,Reactive Oxygen Species ,Linker ,Cell Survival/drug effects ,Biotechnology - Abstract
We have developed novel polymeric photosensitizer prodrugs (PPPs) for improved photodynamic therapy. In PPPs, multiple photosensitizer units are covalently coupled to a polymeric backbone via protease-cleavable peptide linkers. These initially non-photoactive compounds become fluorescent and phototoxic after specific enzymatic cleavage of the peptide linkers and subsequent release of the photosensitizer moieties. Tethering the photosensitizer via a short and easily modified amino acid sequence to the polymeric backbone allows for the targeting of a wide variety of proteases. Model compounds, sensitive to trypsin-mediated cleavage, with different pheophorbide a-peptide loading ratios and backbone net charges were evaluated with respect to their solubility, "self-quenching" capacity of fluorescence emission, and reactive oxygen species (ROS) generation. In addition, linker sequence impaired selectivity toward enzymatic cleavage was demonstrated either by incubating PPPs with different enzymes having trypsin-like activity or by introducing a single d-arginine mutant in the peptide sequence. In vitro cell culture tests confirmed dose-dependent higher phototoxicity of enzymatically activated PPPs compared to the nonactivated conjugate after irradiation with white light. These data suggest that similar compounds adapted to disease-associated proteases can be used for selective photodynamic therapy.
- Published
- 2007
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