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Phthalocyanines (Pcs) which have been proposed as sensitizers to supersede haematoporphyrin derivatives, are currently undergoing clinical trials for use in the photo- dynamic therapy (PDT) of cancer . This is due to the superior molar absorptivity of these compounds ,at wavelengths permitting greater penetration of light in normal tissues , when compared with photofrin . Among the unsubstituted phthalocyanines, zinc phthalocyanine has been investigated as a possible second- generation PDT sensitizer. Zinc phthalocyanine itself, because of its water insolubility, is used in liposomal form and has shown sufficient PDT activity . Zinc phthalo- cyanine sulfonic acids have perhaps received the closest attention, and their water solubility is a distinct advantage . Methods for synthesis of sulfonated phthalocyanines, however, often yield complex mixtures composed of different levels of substitution and regioisomers . To overcome such solubility problems, we proposed and synthesized the polyfluoroalkoxyl substituted zinc phthalo- cyanines as sensitizers for PDT. First, the improved solubility of the alkyl-, alkoxyl- or fluorine-substituted phthalocyanines makes their separation and identifion more easy ; second, fluorine is similar in size to hydro- gen and can mimic hydrogen in biological environments . But these quite hydrophobic photosensitizers also need to be bound with cancer-specific antibodies or cyclodextrin dimers for an increase of bioactivity and a decrease of unwanted side reactions . The literature reported preparation procedures are quite intricate. On the other hand, the improved solubility in most organic solvents renders the designated drugs more amenable for formulation in various vehicles, including water¨Coil emul- sions and nanoparticles and leads to enhanced interaction with membrane . In this report we synthesized tetra(tri- fluoroethoxyl) zinc phthalocyanine , which was used with perfluorocarbon emulsifying agent F68 for photodynamic actions. These studies were performed on myeloma cells and Chinese hamster ovary cells in vitro. |
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