Pierre-Henri Guelluy scite author profile

Photodynamic therapy (PDT), induced by a photosensitizer (PS) encapsulated in a nanostructure, has emerged as an appropriate treatment to cure a multitude of oncological and non-oncological diseases. Pyropheophorbide-a methyl ester (PPME) is a second-generation PS tested in PDT, and is a potential candidate for future clinical applications. The present study, carried out in a human colon carcinoma cell line (HCT-116), evaluates the improvement resulting from a liposomal formulation of PPME versus free-PPME. Absorption and fluorescence spectroscopies, fluorescence lifetime measurements, subcellular imaging and co-localization analysis have been performed in order to analyze the properties of PPME for each delivery mode. The benefit of drug encapsulation in DMPC-liposomes is clear from our experiments, with a 5-fold higher intracellular drug delivery than that observed with free-PPME at similar concentrations. The reactive oxygen species (ROSs) produced after PPME-mediated photosensitization have been identified and quantified by using electron spin resonance spectroscopy. Our results demonstrate that PPME-PDT-mediated ROSs are composed of singlet oxygen and a hydroxyl radical. The small amounts of PPME inside mitochondria, as revealed by fluorescence colocalization analysis, could maybe explain the very low apoptotic cell death measured in HCT-116 cells.

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ESR technique for noninvasive way to quantify cyclodextrins effect on cell membranes

Grammenos¹,

Mouithys‐Mickalad²,

Guelluy³

et al. 2010

Biochemical and Biophysical Research Communications

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Quantification of Randomly-methylated-β-cyclodextrin effect on liposome: An ESR study

Grammenos

Bahri

Guelluy

et al. 2009

Biochemical and Biophysical Research Communications

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Photochemical Properties and Activity of Water‐Soluble Polymer/C₆₀ Nanohybrids for Photodynamic Therapy

Hurtgen¹,

Debuigne²,

Hoebeke³

et al. 2012

Macromolecular Bioscience

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Water-soluble star-like poly(vinyl alcohol)/C(60) and poly{[poly(ethylene glycol) acrylate]-co-(vinyl acetate)}/C(60) nanohybrids are prepared by grafting macroradicals onto C(60) and are assessed as photosensitizers for photodynamic therapy. The photophysical and biological properties of both nanohybrids highlight key characteristics influencing their overall efficiency. The macromolecular structure (linear/graft) and nature (presence/absence of hydroxyl groups) of the polymeric arms respectively impact the photodynamic activity and the stealthiness of the nanohybrids. The advantages of both nanohybrids are encountered in a third one, poly[(N-vinylpyrrolidone)-co-(vinyl acetate)]/C(60) , which has linear grafts without hydroxyl groups, and shows a better photodynamic activity.

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