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Boosting 5-ALA-based photodynamic therapy by a liposomal nanomedicine through intracellular iron ion regulation
Boosting 5-ALA-based photodynamic therapy by a liposomal nanomedicine through intracellular iron ion regulation
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摘要:
5-Aminolevulinic acid(5-ALA)has been approved for clinical photodynamic therapy(PDT)due to its negligible photosensitive toxicity.However,the curative effect of 5-ALA is restricted by intra-cellular biotransformation inactivation of 5-ALA and potential DNA repair of tumor cells.Inspired by the crucial function of iron ions in 5-ALA transformation and DNA repair,a liposomal nanomedicine(MFLs@5-ALA/DFO)with intracellular iron ion regulation property was developed for boosting the PDT of 5-ALA,which was prepared by co-encapsulating 5-ALA and DFO(deferoxamine,a special iron chelator)into the membrane fusion liposomes(MFLs).MFLs@5-ALA/DFO showed an improved phar-maceutical behavior and rapidly fused with tumor cell membrane for 5-ALA and DFO co-delivery.MFLs@5-ALA/DFO could efficiently reduce iron ion,thus blocking the biotransformation of photosen-sitive protoporphyrin Ⅸ(PpⅨ)to heme,realizing significant accumulation of photosensitivity.Mean-while,the activity of DNA repair enzyme was also inhibited with the reduction of iron ion,resulting in the aggravated DNA damage in tumor cells.Our findings showed MFLs@5-ALA/DFO had potential to be applied for enhanced PDT of 5-ALA.
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药学学报(英文版)
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双月刊
ISSN:
2211-3835
CN:
10-1171/R
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出版地:
北京市先农坛街1号
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语种:
eng
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