Transforming a Sword into a Knife: Persistent Phototoxicity Inhibition and Alternative Therapeutical Activation of Highly-Photosensitive Phytochlorin

The phototoxicity of photosensitizers (PSs) is a double-edged sword with one edge beneficial for destroying tumors while the other is detrimental to normal tissues, and the conventional “OFF–ON” strategy provides temporary inhibition so that phototoxicity would come sooner or later due to the inevit...

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Veröffentlicht in:	ACS nano 2021-12, Vol.15 (12), p.19793-19805
Hauptverfasser:	Yu, Nuo, Qiu, Pu, Ren, Qian, Wen, Mei, Geng, Peng, Macharia, Daniel K, Zhu, Meifang, Chen, Zhigang
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Sprache:	eng
Schlagworte:	Biosecurity Cell Line, Tumor Chlorophyllides Photochemotherapy Photosensitizing Agents - pharmacology Photosensitizing Agents - therapeutic use Porphyrins - pharmacology
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creator	Yu, Nuo Qiu, Pu Ren, Qian Wen, Mei Geng, Peng Macharia, Daniel K Zhu, Meifang Chen, Zhigang
description	The phototoxicity of photosensitizers (PSs) is a double-edged sword with one edge beneficial for destroying tumors while the other is detrimental to normal tissues, and the conventional “OFF–ON” strategy provides temporary inhibition so that phototoxicity would come sooner or later due to the inevitable retention and transformation of PSs in vivo. We herein put forward a strategy to convert “double-edged sword” PSs into “single-edged knife” ones with simultaneously persistent phototoxicity inhibition and alternative multiple therapeutical activation. The Chlorin e6 (Ce6) as the PS model directly assembles with Cu2+ ions into nanoscale frameworks (nFs) whose Cu2+-coordination includes both carboxyl groups and a porphyrin ring of Ce6 instead of Fe3+/Mn2+-coordination with only carboxyl groups. Compared to the high phototoxicity of Ce6, the nFs exhibit efficient energy transfer due to the dual-coordination of paramagnetic Cu2+ ions and the aggregation, achieving the persistent and high phototoxicity inhibition rate of >92%. Alternatively, the nFs not only activate a high photoacoustic contrast and near-infrared (NIR)-driven photothermal efficacy (3.5-fold that of free Ce6) due to the aggregation-enhanced nonradiative transition but also initiate tumor microenvironment modulation, structure disassembly, and chemodynamic effect by Cu2+ ions. Given these merits, the nFs achieve long-term biosecurity, no retina injury under sunlight, and a higher therapeutical output than the photodynamic effect of Ce6. This work presents a possibility of converting numerous highly phototoxic porphyrins into safe and efficient ones.
doi_str_mv	10.1021/acsnano.1c07241
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We herein put forward a strategy to convert “double-edged sword” PSs into “single-edged knife” ones with simultaneously persistent phototoxicity inhibition and alternative multiple therapeutical activation. The Chlorin e6 (Ce6) as the PS model directly assembles with Cu2+ ions into nanoscale frameworks (nFs) whose Cu2+-coordination includes both carboxyl groups and a porphyrin ring of Ce6 instead of Fe3+/Mn2+-coordination with only carboxyl groups. Compared to the high phototoxicity of Ce6, the nFs exhibit efficient energy transfer due to the dual-coordination of paramagnetic Cu2+ ions and the aggregation, achieving the persistent and high phototoxicity inhibition rate of >92%. Alternatively, the nFs not only activate a high photoacoustic contrast and near-infrared (NIR)-driven photothermal efficacy (3.5-fold that of free Ce6) due to the aggregation-enhanced nonradiative transition but also initiate tumor microenvironment modulation, structure disassembly, and chemodynamic effect by Cu2+ ions. Given these merits, the nFs achieve long-term biosecurity, no retina injury under sunlight, and a higher therapeutical output than the photodynamic effect of Ce6. 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We herein put forward a strategy to convert “double-edged sword” PSs into “single-edged knife” ones with simultaneously persistent phototoxicity inhibition and alternative multiple therapeutical activation. The Chlorin e6 (Ce6) as the PS model directly assembles with Cu2+ ions into nanoscale frameworks (nFs) whose Cu2+-coordination includes both carboxyl groups and a porphyrin ring of Ce6 instead of Fe3+/Mn2+-coordination with only carboxyl groups. Compared to the high phototoxicity of Ce6, the nFs exhibit efficient energy transfer due to the dual-coordination of paramagnetic Cu2+ ions and the aggregation, achieving the persistent and high phototoxicity inhibition rate of >92%. Alternatively, the nFs not only activate a high photoacoustic contrast and near-infrared (NIR)-driven photothermal efficacy (3.5-fold that of free Ce6) due to the aggregation-enhanced nonradiative transition but also initiate tumor microenvironment modulation, structure disassembly, and chemodynamic effect by Cu2+ ions. Given these merits, the nFs achieve long-term biosecurity, no retina injury under sunlight, and a higher therapeutical output than the photodynamic effect of Ce6. 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subjects	Biosecurity Cell Line, Tumor Chlorophyllides Photochemotherapy Photosensitizing Agents - pharmacology Photosensitizing Agents - therapeutic use Porphyrins - pharmacology
title	Transforming a Sword into a Knife: Persistent Phototoxicity Inhibition and Alternative Therapeutical Activation of Highly-Photosensitive Phytochlorin
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