Nathalie Mignet scite author profile

Cerium oxide nanoparticles are known to catalyze the decomposition of reactive oxygen species such as the superoxide radical and hydrogen peroxide. Herein, we examine the superoxide dismutase (SOD) and catalase (CAT) mimetic catalytic activities of nanoceria and demonstrate the existence of generic behaviors. For particles of sizes 4.5, 7.8, 23 and 28 nm, the SOD and CAT catalytic activities exhibit the characteristic shape of a Langmuir isotherm as a function of cerium concentration. The results show that the catalytic effects are enhanced for smaller particles and for the particles with the largest Ce3+ fraction. The SOD-like activity obtained from the different samples is found to superimpose on a single master curve using the Ce3+ surface area concentration as a new variable, indicating the existence of particle independent redox mechanisms. For the CAT assays, the adsorption of H2O2 molecules at the particle surface modulates the efficacy of the decomposition process and must be taken into account. We design an amperometry-based experiment to evaluate the H2O2 adsorption at nanoceria surfaces, leading to the renormalization of the particle specific area. Depending on the particle type the amount of adsorbed H2O2 molecules varies from 2 to 20 nm-2. The proposed scalings are predictive and allow the determination of the SOD and CAT catalytic properties of cerium oxide solely from physicochemical features.

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Imaging and therapeutic applications of persistent luminescence nanomaterials

Liu

L’Ecuyer

Séguin

et al. 2019

Advanced Drug Delivery Reviews

231

138

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The development of probes for biomolecular imaging and diagnostics is a very active research area. Among the different imaging modalities, optics emerged since it is a noninvasive and cheap imaging technique allowing real time imaging. In vitro, this technique is very useful however in vivo, fluorescence suffers from low signal-to-noise ratio due to tissue autofluorescence under constant excitation. To address this limitation, novel types of optical nanoprobes are actually being developed and among them, persistent luminescence nanoparticles (PLNPs), with long lasting near-infrared (NIR) luminescence capability, allows doing optical imaging without constant excitation and so without autofluorescence. This review will begin by introducing the physical phenomenon associated to the long luminescence decay of such nanoprobes, from minutes to hours after ceasing the excitation. Then we will show how this property can be used to develop in vivo imaging probes and also more recently nanotheranostic agents. Finally, preliminary data on their biocompatibility will be mentioned and we will conclude by envisioning on the future applications and improvements of such nanomaterials.

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AGuIX^® from bench to bedside—Transfer of an ultrasmall theranostic gadolinium-based nanoparticle to clinical medicine

Lux

Tran

Thomas

et al. 2018

BJR

108

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AGuIX are sub-5 nm nanoparticles made of a polysiloxane matrix and gadolinium chelates. This nanoparticle has been recently accepted in clinical trials in association with radiotherapy. This review will summarize the principal preclinical results that have led to first in man administration. No evidence of toxicity has been observed during regulatory toxicity tests on two animal species (rodents and monkeys). Biodistributions on different animal models have shown passive uptake in tumours due to enhanced permeability and retention effect combined with renal elimination of the nanoparticles after intravenous administration. High radiosensitizing effect has been observed with different types of irradiations in vitro and in vivo on a large number of cancer types (brain, lung, melanoma, head and neck…). The review concludes with the second generation of AGuIX nanoparticles and the first preliminary results on human.

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Chemically engineered persistent luminescence nanoprobes for bioimaging

L’Ecuyer¹,

Teston²,

et al. 2016

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Imaging nanoprobes are a group of nanosized agents developed for providing improved contrast for bioimaging. Among various imaging probes, optical sensors capable of following biological events or progresses at the cellular and molecular levels are actually actively developed for early detection, accurate diagnosis, and monitoring of the treatment of diseases. The optical activities of nanoprobes can be tuned on demand by chemists by engineering their composition, size and surface nature. This review will focus on researches devoted to the conception of nanoprobes with particular optical properties, called persistent luminescence, and their use as new powerful bioimaging agents in preclinical assays.

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Physicochemical optimisation of plasmid delivery by cationic lipids

Tranchant¹,

Thompson²,

Nicolazzi³

et al. 2004

J. Gene Med.

133

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SummaryNon-viral gene therapy is based on the use of plasmid expression vectors and chemical or physical plasmid DNA delivery systems. This review discusses the roles of cationic lipids as vectors for gene transfection, reviews different strategies employed to improve cationic lipids for in vivo use, and provides original results on the physicochemistry of lipoplexes. Cationic lipid/DNA delivery vehicles have evolved considerably since their initial gene transfection experiments. Much work has been carried out to investigate their structure/activity relationships, methods of formulation and physicochemical properties. Further work has also focused on enhancing and prolonging their stability in a physiological environment as well as increasing their sitespecific and tissue-specific interactions. Original data presented in this report confirm that cationic lipids associated to DNA form supramolecular lamellar structures, which protect DNA from serum DNAse degradation. The effect of formulation (and hence the size of the particles) on lipoplex in vivo circulation half-life and biodistribution is also discussed. A list of abbreviations can be found at the end of the review. Copyright  2004 John Wiley & Sons, Ltd.Keywords gene therapy; non-viral vectors; cationic lipids; liposomes Cationic lipids-structure/activity relationshipsExtensive reviewing has been focused on the various published structures of cationic lipids, which are composed of a cationic head (titrable amine or quaternary amine, guanidine, etc.), a linker, and a hydrophobic moiety (Figure 1). The hydrophobic moiety provides self-association to form either micelles or liposomes in the presence of a helper lipid such as dioleylphosphatidylethanolamine (DOPE). Much work has been carried out on modifying the different components of cationic lipids for use in gene transfection in order to try to determine if there is a 'best' length of chain (saturated or unsaturated, asymmetric or not), which type of spacer gives the desired function, plus the number and nature of cationic charges present and their molecular shape. Excellent reviews have covered the different aspects of structure/activity relationships of cationic lipids and a very short summary of some of the main points follows [1].The choice of lipid is predominantly between either a two hydrocarbon chain or a cholesterol moiety. Cholesterol has been found to offer rigidity to the lipid bilayer and there are two main examples of cationic lipids containing cholesterol as their lipid [2]; DC-Chol and the more recent BGTC, illustrated in Figure 2, will be described later. Cationic lipids with hydrocarbon chains as their lipid component have been very thoroughly researched. The most common types of chain lengths are C8 : 0 to C18 : 1 and are either linear and saturated or linear and mono-unsaturated. There

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pH-sensitive PEG lipids containing orthoester linkers: new potential tools for nonviral gene delivery

Masson

Garinot

Mignet

et al. 2004

Journal of Controlled Release

137

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Interactions between sub-10-nm iron and cerium oxide nanoparticles and 3T3 fibroblasts: the role of the coating and aggregation state

et al. 2010

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Recent nanotoxicity studies revealed that the physico-chemical characteristics of engineered nanomaterials play an important role in the interactions with living cells. Here, we report on the toxicity and uptake of cerium and iron oxide sub-10-nm nanoparticles by NIH/3T3 mouse fibroblasts. Coating strategies include low-molecular weight ligands (citric acid) and polymers (poly(acrylic acid), M(W) = 2000 g mol(-1)). Electrostatically adsorbed on the surfaces, the organic moieties provide a negatively charged coating in physiological conditions. We find that most particles were biocompatible, as exposed cells remained 100% viable relative to controls. Only the bare and the citrate-coated nanoceria exhibit a slight decrease in mitochondrial activity at very high cerium concentrations (>1 g l(-1)). We also observe that the citrate-coated particles are internalized/adsorbed by the cells in large amounts, typically 250 pg/cell after 24 h incubation for iron oxide. In contrast, the polymer-coated particles are taken up at much lower rates (<30 pg/cell). The strong uptake shown by the citrated particles is related to the destabilization of the dispersions in the cell culture medium and their sedimentation down to the cell membranes. In conclusion, we show that the uptake of nanomaterials by living cells depends on the coating of the particles and on its ability to preserve the colloidal nature of the dispersions.

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Liposomal encapsulation of the natural flavonoid fisetin improves bioavailability and antitumor efficacy

Séguin

Brullé

Boyer

et al. 2013

International Journal of Pharmaceutics

115

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Nathalie Mignet

The enzyme-like catalytic activity of cerium oxide nanoparticles and its dependency on Ce³⁺ surface area concentration

Imaging and therapeutic applications of persistent luminescence nanomaterials

AGuIX^® from bench to bedside—Transfer of an ultrasmall theranostic gadolinium-based nanoparticle to clinical medicine

Chemically engineered persistent luminescence nanoprobes for bioimaging

Physicochemical optimisation of plasmid delivery by cationic lipids

pH-sensitive PEG lipids containing orthoester linkers: new potential tools for nonviral gene delivery

Interactions between sub-10-nm iron and cerium oxide nanoparticles and 3T3 fibroblasts: the role of the coating and aggregation state

Liposomal encapsulation of the natural flavonoid fisetin improves bioavailability and antitumor efficacy

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Nathalie Mignet

The enzyme-like catalytic activity of cerium oxide nanoparticles and its dependency on Ce3+ surface area concentration

Imaging and therapeutic applications of persistent luminescence nanomaterials

AGuIX® from bench to bedside—Transfer of an ultrasmall theranostic gadolinium-based nanoparticle to clinical medicine

Chemically engineered persistent luminescence nanoprobes for bioimaging

Physicochemical optimisation of plasmid delivery by cationic lipids

pH-sensitive PEG lipids containing orthoester linkers: new potential tools for nonviral gene delivery

Interactions between sub-10-nm iron and cerium oxide nanoparticles and 3T3 fibroblasts: the role of the coating and aggregation state

Liposomal encapsulation of the natural flavonoid fisetin improves bioavailability and antitumor efficacy

Contact Info

Product

Resources

About

The enzyme-like catalytic activity of cerium oxide nanoparticles and its dependency on Ce³⁺ surface area concentration

AGuIX^® from bench to bedside—Transfer of an ultrasmall theranostic gadolinium-based nanoparticle to clinical medicine