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Biomimetic Photo-Switches Softening Model Lipid Membranes

We report the synthesis and characterization of a novel photo-switch based on biomimetic cyclocurcumin analogous and interacting with the lipid bilayer, which can be used in the framework of oxygen-independent light-induced therapy. More specifically, by using molecular dynamics simulations and free...

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Published in:	Langmuir 2022-12, Vol.38 (50), p.15642-15655
Main Authors:	Pecourneau, Jérémy, Losantos, Raúl, Delova, Anastasiia, Bernhard, Yann, Parant, Stéphane, Mourer, Maxime, Monari, Antonio, Pasc, Andreea
Format:	Article
Language:	English
Subjects:	Biomimetics Chemical Sciences Lipid Bilayers - chemistry Molecular Dynamics Simulation
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creator	Pecourneau, Jérémy Losantos, Raúl Delova, Anastasiia Bernhard, Yann Parant, Stéphane Mourer, Maxime Monari, Antonio Pasc, Andreea
description	We report the synthesis and characterization of a novel photo-switch based on biomimetic cyclocurcumin analogous and interacting with the lipid bilayer, which can be used in the framework of oxygen-independent light-induced therapy. More specifically, by using molecular dynamics simulations and free energy techniques, we show that the inclusion of hydrophobic substituents is needed to allow insertion in the lipid membrane. After having confirmed experimentally that the substituents do not preclude the efficient photoisomerization, we show through UV–vis and dynamic light scattering measurements together with compression isotherms that the chromophore is internalized in both lipid vesicles and monomolecular film, respectively, inducing their fluidification. The irradiation of the chromophore-loaded lipid aggregates modifies their properties due to the different organization of the two diastereoisomers, E and Z. In particular, a competition between a fast structural reorganization and a slower expulsion of the chromophore after isomerization can be observed in the kinetic profiles recorded during E to Z photoisomerization. This report paves the way for future investigations in the optimization of biomimetic photoswitches potentially useful in modern light-induced therapeutic strategies.
doi_str_mv	10.1021/acs.langmuir.2c02425
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source	American Chemical Society:Jisc Collections:American Chemical Society Read & Publish Agreement 2022-2024 (Reading list)
subjects	Biomimetics Chemical Sciences Lipid Bilayers - chemistry Molecular Dynamics Simulation
title	Biomimetic Photo-Switches Softening Model Lipid Membranes
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