Your search keyword '"Nguyen, Christophe"' showing total 9 results

1. Structural Basis for the IgE-Binding Cross-Reacting Epitopic Peptides of Cup s 3, a PR-5 Thaumatin-like Protein Allergen from Common Cypress (Cupressus sempervirens) Pollen.

Author

Barre, Annick, Sénéchal, Hélène, Nguyen, Christophe, Granier, Claude, Poncet, Pascal, and Rougé, Pierre

Published

2023

2. Photosensitivity of Different Nanodiamond–PMO Nanoparticles in Two-Photon-Excited Photodynamic Therapy.

Author

Bondon, Nicolas, Durand, Denis, Hadj-Kaddour, Kamel, Ali, Lamiaa M. A., Boukherroub, Rabah, Bettache, Nadir, Gary-Bobo, Magali, Raehm, Laurence, Durand, Jean-Olivier, Nguyen, Christophe, and Charnay, Clarence

Subjects

PHOTODYNAMIC therapy, PHOTOSENSITIVITY, REACTIVE oxygen species, AMINO group, NANOPARTICLES

Abstract

Background: In addition to their great optical properties, nanodiamonds (NDs) have recently proved useful for two-photon-excited photodynamic therapy (TPE-PDT) applications. Indeed, they are able to produce reactive oxygen species (ROS) directly upon two-photon excitation but not with one-photon excitation; Methods: Fluorescent NDs (FNDs) with a 100 nm diameter and detonation NDs (DNDs) of 30 nm were compared. In order to use the gems for cancer-cell theranostics, they were encapsulated in a bis(triethoxysilyl)ethylene-based (ENE) periodic mesoporous organosilica (PMO) shell, and the surface of the formed nanoparticles (NPs) was modified by the direct grafting of polyethylene glycol (PEG) and amino groups using PEG-hexyltriethoxysilane and aminoundecyltriethoxysilane during the sol–gel process. The NPs' phototoxicity and interaction with MDA-MB-231 breast cancer cells were evaluated afterwards; Results: Transmission electronic microscopy images showed the formation of core–shell NPs. Infrared spectra and zeta-potential measurements confirmed the grafting of PEG and NH2 groups. The encapsulation of the NDs allowed for the imaging of cancer cells with NDs and for the performance of TPE-PDT of MDA-MB-231 cancer cells with significant mortality. Conclusions: Multifunctional ND@PMO core–shell nanosystems were successfully prepared. The NPs demonstrated high biocompatibility and TPE-PDT efficiency in vitro in the cancer cell model. Such systems hold good potential for two-photon-excited PDT applications. [ABSTRACT FROM AUTHOR]

Published

2022

3. Identification of Potential IgE-Binding Epitopes Contributing to the Cross-Reactivity of the Major Cupressaceae Pectate-Lyase Pollen Allergens (Group 1).

Author

Barre, Annick, Sénéchal, Hélène, Nguyen, Christophe, Granier, Claude, Rougé, Pierre, and Poncet, Pascal

Published

2022

4. Encapsulation of Hydrophobic Porphyrins into Biocompatible Nanoparticles: An Easy Way to Benefit of Their Two-Photon Phototherapeutic Effect without Hydrophilic Functionalization.

Author

Shi, Limiao, Nguyen, Christophe, Daurat, Morgane, Richy, Nicolas, Gauthier, Corentin, Rebecq, Estelle, Gary-Bobo, Magali, Cammas-Marion, Sandrine, Mongin, Olivier, Paul-Roth, Christine O., and Paul, Frédéric

Subjects

*PORPHYRINS, *PHOTOTHERAPY, *BIOMEDICAL materials, *LIGHT, *MOLECULAR structure, *CELL lines, *NANOPARTICLES

Abstract

Simple Summary: Efficient photosensitizers for photodyanmic therapy (PDT) need to be soluble in physiologic media. This requirement often complicates significantly the chemical access to such compounds, resulting in lower availability and higher production costs for the best representatives. Given that their screening and selection is often initially conducted in organic media from series of hydrophobic model compounds, the possibility to use directly such hydrophobic photosensitizers in real PDT studies was highly desirable to speed up their definitive identification but also to alleviate their cost. In this respect, PMLABe polymeric nanoparticles (NPs) were presently probed as nanocarriers to water-solubilize hydophobic star-shaped porphyrin-based which turned out to be promising oxygen photosensitizers for theranostic approaches. We show here that PDT conducted using such NPs loaded with these compounds is as efficient than when functional hydrosoluble analogues of these photosensitiers are tested alone and that tracking of the photosensitizer by fluorescence imaging is even easier. Star-shaped hydrophobic porphyrins, acting as powerful fluorescent two-photon photosensitizers for oxygen in organic solvents, can easily be loaded into PMLABe polymeric nanoparticles at various concentrations. In this contribution, the performance of these porphyrin-containing nanoparticles in terms of photodynamic therapy (PDT) is compared to those of the corresponding water-soluble porphyrin analogues when irradiated in MCF-7 cancer cells. While quite promising results are obtained for performing PDT with these nanoparticles, validating this approach as a mean for using more easily accessible and less expensive photosensitizers, from a synthetic perspective, we also show that their luminescence can still be used for bioimaging purposes in spite of their confinement in the nanoparticles, validating also the use of these nano-objects for theranostic purposes. [ABSTRACT FROM AUTHOR]

Published

2022

5. Study of Cytotoxic and Photodynamic Activities of Dyads Composed of a Zinc Phthalocyanine Appended to an Organotin.

Author

Toubia, Isabelle, Nguyen, Christophe, Diring, Stéphane, Pays, Marine, Mattana, Elodie, Arnoux, Philippe, Frochot, Céline, Gary-Bobo, Magali, Kobeissi, Marwan, Odobel, Fabrice, Mordon, Serge, and Vanden Eynde, Jean Jacques

Subjects

*ZINC phthalocyanine, *PHOTOINDUCED electron transfer, *BREAST cancer, *BENZENEDICARBONITRILE, *DYADS, *REACTIVE oxygen species, *ZINC porphyrins, *ZINC ions

Abstract

The combination of photodynamic therapy and chemotherapy is a promising strategy to enhance cancer therapeutic efficacy and reduce drug resistance. In this study two zinc(II) phthalocyanine-tin(IV) conjugates linked by a triethylene glycol chain were synthesized and characterized. In these complexes, the zinc(II) phthalocyanine was used as a potential photosensitizer for PDT and the tin complex was selected as cytostatic moiety. The two dyads composed of zinc(II) phthalocyanine and tin complexes exhibited high cytotoxicity, in absence of light stimulation, against MCF-7 human breast cancer cells with low LC50 values in the range of 0.016–0.453 µM. In addition, these complexes showed superior cytotoxicity than their mixture of equimolar component, accompanied with a higher activity towards cancer cells compared to human healthy fibroblasts. However, under irradiation of the zinc phthalocyanine unit (at 650 nm) no photodynamic activity could be detected, due to the most likely quenching of zinc(II) phthalocyanine singlet excited state by the nearby tin complex according to a photoinduced electron transfer process. This study demonstrates the potential of heterometallic anticancer chemotherapeutics composed of a zinc phthalocyanine and tin complex, and it highlights that the development of such conjugates requires that the sensitizer preserves its photophysical properties and in particular its singlet oxygen sensitization ability in the conjugate in order to combine the PDT activity with the cytotoxicity of the anticancer drug. [ABSTRACT FROM AUTHOR]

Published

2021

6. Phytoavailability of Cd, Cr, Cu, Hg, Mn, Mo, Ni, Pb, Tl and Zn in Arable Crop Systems Amended for 13 to 15 Years with Organic Waste Products.

Author

Michaud, Aurélia Marcelline, Sappin-Didier, Valérie, Cambier, Philippe, Nguyen, Christophe, Janot, Noémie, Montenach, Denis, Filipovic, Lana, Deltreil, Valentin, and Houot, Sabine

Subjects

WASTE products, ORGANIC wastes, TRACE elements, HEAVY metals, ORGANIC products, CROPPING systems, CARBON in soils

Abstract

Repeated applications of organic waste products (OWP) are a source of trace elements (TE) inputs to agricultural topsoils. The present study aimed at (i) assessing the effects of repeated OWP inputs on the chemical properties of topsoils in two long-term field experiments (13 and 15 years; calcareous and non-calcareous soils), (ii) evaluating TE phytoavailability and their transfer to grain (winter wheat and maize) and (iii) identifying the underlying factors causing alterations of TE phytoavailability. In both field experiments, receiving compliant or slightly high doses of OWP in compliance with regulations, OWP and soil physicochemical properties and TE concentrations in soils and grains were determined. In situ phytoavailability of TE was assessed at two juvenile crop growth stages by analyzing TE concentrations in shoot plantlets. Depending on the OWP input amount, results showed that compared to the soil receiving no organic amendment, repeated OWP inputs significantly increased soil organic carbon content, pH, cation exchange capacity, total soil Cu, Mo and Zn concentration and the phytoavailability of Mo, while the phytoavailability of Cd, Mn, Ni and Tl was significantly reduced. No notable effect was observed for Cr, Cu, Hg, Pb and Zn phytoavailability. Statistical approaches suggested that due to the repeated OWP applications, increased soil organic carbon content and pH, were likely responsible for decreased TE phytoavailability (e.g., Cd). [ABSTRACT FROM AUTHOR]

Published

2021

7. Polythiophenes with Cationic Phosphonium Groups as Vectors for Imaging, siRNA Delivery, and Photodynamic Therapy.

Author

Lichon, Laure, Kotras, Clément, Myrzakhmetov, Bauyrzhan, Arnoux, Philippe, Daurat, Morgane, Nguyen, Christophe, Durand, Denis, Bouchmella, Karim, Ali, Lamiaa Mohamed Ahmed, Durand, Jean-Olivier, Richeter, Sébastien, Frochot, Céline, Gary-Bobo, Magali, Surin, Mathieu, and Clément, Sébastien

Subjects

PHOTODYNAMIC therapy, CATIONIC lipids, CATIONIC polymers, POLYTHIOPHENES, REACTIVE oxygen species, SMALL interfering RNA, MOLECULAR weights

Abstract

In this work, we exploit the versatile function of cationic phosphonium-conjugated polythiophenes to develop multifunctional platforms for imaging and combined therapy (siRNA delivery and photodynamic therapy). The photophysical properties (absorption, emission and light-induced generation of singlet oxygen) of these cationic polythiophenes were found to be sensitive to molecular weight. Upon light irradiation, low molecular weight cationic polythiophenes were able to light-sensitize surrounding oxygen into reactive oxygen species (ROS) while the highest were not due to its aggregation in aqueous media. These polymers are also fluorescent, allowing one to visualize their intracellular location through confocal microscopy. The most promising polymers were then used as vectors for siRNA delivery. Due to their cationic and amphipathic features, these polymers were found to effectively self-assemble with siRNA targeting the luciferase gene and deliver it in MDA-MB-231 cancer cells expressing luciferase, leading to 30–50% of the gene-silencing effect. In parallel, the photodynamic therapy (PDT) activity of these cationic polymers was restored after siRNA delivery, demonstrating their potential for combined PDT and gene therapy. [ABSTRACT FROM AUTHOR]

Published

2020

8. Encapsulation of Upconversion Nanoparticles in Periodic Mesoporous Organosilicas.

Author

Rahmani, Saher, Mauriello Jimenez, Chiara, Aggad, Dina, González-Mancebo, Daniel, Ocaña, Manuel, M. A. Ali, Lamiaa, Nguyen, Christophe, Becerro Nieto, Ana Isabel, Francolon, Nadège, Oliveiro, Erwan, Boyer, Damien, Mahiou, Rachid, Raehm, Laurence, Gary-Bobo, Magali, Durand, Jean-Olivier, and Charnay, Clarence

Subjects

NANOMEDICINE, COMPUTED tomography, PHOTON upconversion, NANOPARTICLES, CELL imaging

Abstract

(1) Background: Nanomedicine has recently emerged as a promising field, particularly for cancer theranostics. In this context, nanoparticles designed for imaging and therapeutic applications are of interest. We, therefore, studied the encapsulation of upconverting nanoparticles in mesoporous organosilica nanoparticles. Indeed, mesoporous organosilica nanoparticles have been shown to be very efficient for drug delivery, and upconverting nanoparticles are interesting for near-infrared and X-ray computed tomography imaging, depending on the matrix used. (2) Methods: Two different upconverting-based nanoparticles were synthesized with Yb3+-Er3+ as the upconverting system and NaYF4 or BaLuF5 as the matrix. The encapsulation of these nanoparticles was studied through the sol-gel procedure with bis(triethoxysilyl)ethylene and bis(triethoxysilyl)ethane in the presence of CTAB. (3) Results: with bis(triethoxysilyl)ethylene, BaLuF5: Yb3+-Er3+, nanoparticles were not encapsulated, but anchored on the surface of the obtained mesoporous nanorods BaLuF5: Yb3+-Er3+@Ethylene. With bis(triethoxysilyl)ethane, BaLuF5: Yb3+-Er3+ and NaYF4: Yb3+-Er3+nanoparticles were encapsulated in the mesoporous cubic structure leading to BaLuF5: Yb3+-Er3+@Ethane and NaYF4: Yb3+-Er3+@Ethane, respectively. (4) Conclusions: upconversion nanoparticles were located on the surface of mesoporous nanorods obtained by hydrolysis polycondensation of bis(triethoxysilyl)ethylene, whereas encapsulation occurred with bis(triethoxysilyl)ethane. The later nanoparticles NaYF4: Yb3+-Er3+@Ethane or BaLuF5: Yb3+-Er3+@Ethane were promising for applications with cancer cell imaging or X-ray-computed tomography respectively. [ABSTRACT FROM AUTHOR]

Published

2019

9. Efficient Photodynamic Therapy of Prostate Cancer Cells through an Improved Targeting of the Cation-Independent Mannose 6-Phosphate Receptor.

Author

Bouffard, Elise, Mauriello Jimenez, Chiara, El Cheikh, Khaled, Maynadier, Marie, Basile, Ilaria, Raehm, Laurence, Nguyen, Christophe, Gary-Bobo, Magali, Garcia, Marcel, Durand, Jean-Olivier, and Morère, Alain

Subjects

PHOTODYNAMIC therapy, MANNOSE, PROSTATE cancer, CANCER cells, CANCER treatment, MESOPOROUS silica

Abstract

The aim of the present work is the development of highly efficient targeting molecules to specifically address mesoporous silica nanoparticles (MSNs) designed for the photodynamic therapy (PDT) of prostate cancer. We chose the strategy to develop a novel compound that allows the improvement of the targeting of the cation-independent mannose 6-phosphate receptor, which is overexpressed in prostate cancer. This original sugar, a dimannoside-carboxylate (M6C-Man) grafted on the surface of MSN for PDT applications, leads to a higher endocytosis and thus increases the efficacy of MSNs. [ABSTRACT FROM AUTHOR]

Published

2019