Redox-Triggered Contents Release from Liposomes

An exciting new direction in responsive liposome research is endogenous triggering of liposomal payload release by overexpressed enzyme activity in affected tissues and offers the unique possibility of active and site-specific release. Bringing to fruition the fully expected capabilities of this new...

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Veröffentlicht in:	Journal of the American Chemical Society 2008-11, Vol.130 (44), p.14739-14744
Hauptverfasser:	Ong, Winston, Yang, Yuming, Cruciano, Angela C, McCarley, Robin L
Format:	Artikel
Sprache:	eng
Schlagworte:	Drug Carriers Fluoresceins - chemistry Fluorescent Dyes - chemistry Liposomes - chemistry Oxidation-Reduction Phosphatidylethanolamines - chemistry Quinones - chemistry
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container_title	Journal of the American Chemical Society
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creator	Ong, Winston Yang, Yuming Cruciano, Angela C McCarley, Robin L
description	An exciting new direction in responsive liposome research is endogenous triggering of liposomal payload release by overexpressed enzyme activity in affected tissues and offers the unique possibility of active and site-specific release. Bringing to fruition the fully expected capabilities of this new class of triggered liposomal delivery system requires a collection of liposome systems that respond to different upregulated enzymes; however, a relatively small number currently exist. Here we show that stable, ∼100 nm diameter liposomes can be made from previously unreported quinone-dioleoyl phosphatidylethanolamine (Q-DOPE) lipids, and complete payload release (quenched fluorescent dye) from Q-DOPE liposomes occurs upon their redox activation when the quinone headgroup possesses specific substituents. The key component of the triggerable, contents-releasing Q-DOPE liposomes is a “trimethyl-locked” quinone redox switch attached to the N-terminus of DOPE lipids that undergoes a cleavage event upon two-electron reduction. Payload release by aggregation and leakage of “uncapped” Q-DOPE liposomes is supported by results from liposomes wherein deliberate alteration of the “trimethyl-locked” switch completely deactivates the redox-destructible phenomena (liposome opening). We expect that Q-DOPE liposomes and their variants will be important in treatment of diseases with associated tissues that overexpress quinone reductases, such as cancers and inflammatory diseases, because the quinone redox switch is a known substrate for this group of reductases.
doi_str_mv	10.1021/ja8050469
format	Article
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Payload release by aggregation and leakage of “uncapped” Q-DOPE liposomes is supported by results from liposomes wherein deliberate alteration of the “trimethyl-locked” switch completely deactivates the redox-destructible phenomena (liposome opening). 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The key component of the triggerable, contents-releasing Q-DOPE liposomes is a “trimethyl-locked” quinone redox switch attached to the N-terminus of DOPE lipids that undergoes a cleavage event upon two-electron reduction. Payload release by aggregation and leakage of “uncapped” Q-DOPE liposomes is supported by results from liposomes wherein deliberate alteration of the “trimethyl-locked” switch completely deactivates the redox-destructible phenomena (liposome opening). 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source	ACS Publications; MEDLINE
subjects	Drug Carriers Fluoresceins - chemistry Fluorescent Dyes - chemistry Liposomes - chemistry Oxidation-Reduction Phosphatidylethanolamines - chemistry Quinones - chemistry
title	Redox-Triggered Contents Release from Liposomes
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