Your search keyword '"Restier-Verlet, Juliette"' showing total 11 results

1. Accelerated Aging Effects Observed In Vitro after an Exposure to Gamma-Rays Delivered at Very Low and Continuous Dose-Rate Equivalent to 1–5 Weeks in International Space Station.

Author

Restier-Verlet, Juliette, Ferlazzo, Mélanie L., Granzotto, Adeline, Al-Choboq, Joëlle, Bellemou, Camélia, Estavoyer, Maxime, Lecomte, Florentin, Bourguignon, Michel, Pujo-Menjouet, Laurent, and Foray, Nicolas

Subjects

*ATAXIA telangiectasia mutated protein, *DOUBLE-strand DNA breaks, *ASTROPHYSICAL radiation, *SPACE stations, *SKIN tests

Abstract

Radiation impacting astronauts in their spacecraft come from a "bath" of high-energy rays (0.1–0.5 mGy per mission day) that reaches deep tissues like the heart and bones and a "stochastic rain" of low-energy particles from the shielding and impacting surface tissues like skin and lenses. However, these two components cannot be reproduced on Earth together. The MarsSimulator facility (Toulouse University, France) emits, thanks to a bag containing thorium salts, a continuous exposure of 120 mSv/y, corresponding to that prevailing in the International Space Station (ISS). By using immunofluorescence, we assessed DNA double-strand breaks (DSB) induced by 1–5 weeks exposure in ISS of human tissues evoked above, identified at risk for space exploration. All the tissues tested elicited DSBs that accumulated proportionally to the dose at a tissue-dependent rate (about 40 DSB/Gy for skin, 3 times more for lens). For the lens, bones, and radiosensitive skin cells tested, perinuclear localization of phosphorylated forms of ataxia telangiectasia mutated protein (pATM) was observed during the 1st to 3rd week of exposure. Since pATM crowns were shown to reflect accelerated aging, these findings suggest that a low dose rate of 120 mSv/y may accelerate the senescence process of the tested tissues. A mathematical model of pATM crown formation and disappearance has been proposed. Further investigations are needed to document these results in order to better evaluate the risks related to space exploration. [ABSTRACT FROM AUTHOR]

Published

2024

2. Prediction of Cancer Proneness under Influence of X-rays with Four DNA Mutability and/or Three Cellular Proliferation Assays.

Author

El Nachef, Laura, Bodgi, Larry, Estavoyer, Maxime, Buré, Simon, Jallas, Anne-Catherine, Granzotto, Adeline, Restier-Verlet, Juliette, Sonzogni, Laurène, Al-Choboq, Joëlle, Bourguignon, Michel, Pujo-Menjouet, Laurent, and Foray, Nicolas

Subjects

TUMOR risk factors, RISK assessment, PREDICTIVE tests, FLOW cytometry, RESEARCH funding, CELL proliferation, DNA, GENETIC risk score, FIBROBLASTS, X-rays, GENETIC mutation, BIOLOGICAL assay, GENETIC techniques

Abstract

Simple Summary: By hypothesizing that molecular hyper-recombination and cellular proliferation are among the major features of multi-factorial cancer proneness, by using skin fibroblasts derived from eight major cancer syndromes, a significant correlation was found between the hyper-recombination rate quantified by plasmid assay, proliferation capacity assessed by flow cytometry, and excess of relative cancer risk (ERR). The product of the hyper-recombination rate and capacity of proliferation described a linear function of ERR. Context: Although carcinogenesis is a multi-factorial process, the mutability and the capacity of cells to proliferate are among the major features of the cells that contribute together to the initiation and promotion steps of cancer formation. Particularly, mutability can be quantified by hyper-recombination rate assessed with specific plasmid assay, hypoxanthine-guanine phosphoribosyltransferase (HPRT) mutations frequency rate, or MRE11 nuclease activities. Cell proliferation can be assessed by flow cytometry by quantifying G2/M, G1 arrests, or global cellular evasion. Methods: All these assays were applied to skin untransformed fibroblasts derived from eight major cancer syndromes characterized by their excess of relative cancer risk (ERR). Results: Significant correlations with ERR were found between hyper-recombination assessed by the plasmid assay and G2/M arrest and described a third-degree polynomial ERR function and a sigmoidal ERR function, respectively. The product of the hyper-recombination rate and capacity of proliferation described a linear ERR function that permits one to better discriminate each cancer syndrome. Conclusions: Hyper-recombination and cell proliferation were found to obey differential equations that better highlight the intrinsic bases of cancer formation. Further investigations to verify their relevance for cancer proneness induced by exogenous agents are in progress. [ABSTRACT FROM AUTHOR]

Published

2024

3. When Chromatin Decondensation Affects Nuclear γH2AX Foci Pattern and Kinetics and Biases the Assessment of DNA Double-Strand Breaks by Immunofluorescence.

Author

Granzotto, Adeline, El Nachef, Laura, Restier-Verlet, Juliette, Sonzogni, Laurène, Al-Choboq, Joëlle, Bourguignon, Michel, and Foray, Nicolas

Subjects

DOUBLE-strand DNA breaks, IMMUNOFLUORESCENCE, SODIUM butyrate, DNA repair, CELL cycle, BUTYRATES

Abstract

Immunofluorescence with antibodies against phosphorylated forms of H2AX (γH2AX) is revolutionizing our understanding of repair and signaling of DNA double-strand breaks (DSBs). Unfortunately, the pattern of γH2AX foci depends upon a number of parameters (nature of stress, number of foci, radiation dose, repair time, cell cycle phase, gene mutations, etc...) whose one of the common points is chromatin condensation/decondensation. Here, we endeavored to demonstrate how chromatin conformation affects γH2AX foci pattern and influences immunofluorescence signal. DSBs induced in non-transformed human fibroblasts were analyzed by γH2AX immunofluorescence with sodium butyrate treatment of chromatin applied after the irradiation that decondenses chromatin but does not induce DNA breaks. Our data showed that the pattern of γH2AX foci may drastically change with the experimental protocols in terms of size and brightness. Notably, some γH2AX minifoci resulting from the dispersion of the main signal due to chromatin decondensation may bias the quantification of the number of DSBs. We proposed a model called "Christmas light models" to tentatively explain this diversity of γH2AX foci pattern that may also be considered for any DNA damage marker that relocalizes as nuclear foci. [ABSTRACT FROM AUTHOR]

Published

2024

4. The Radiobiological Characterization of Human and Porcine Lens Cells Suggests the Importance of the ATM Kinase in Radiation-Induced Cataractogenesis

Author

Al-Choboq, Joëlle, primary, Mathis, Thibaud, additional, Restier-Verlet, Juliette, additional, Sonzogni, Laurène, additional, El Nachef, Laura, additional, Granzotto, Adeline, additional, Bourguignon, Michel, additional, and Foray, Nicolas, additional

Published

2023

5. X-rays-Induced Bystander Effect Consists in the Formation of DNA Breaks in a Calcium-Dependent Manner: Influence of the Experimental Procedure and the Individual Factor

Author

Restier-Verlet, Juliette, primary, Joubert, Aurélie, additional, Ferlazzo, Mélanie L., additional, Granzotto, Adeline, additional, Sonzogni, Laurène, additional, Al-Choboq, Joëlle, additional, El Nachef, Laura, additional, Le Reun, Eymeric, additional, Bourguignon, Michel, additional, and Foray, Nicolas, additional

Published

2023

6. Molecular Influence of the ATM Protein in the Treatment of Human Cells with Different Radioprotective Drugs: Comparisons between Antioxidative and Pro-Episkevic Strategies

Author

Restier-Verlet, Juliette, primary, Drouet, Michel, additional, Pras, Pauline, additional, Ferlazzo, Mélanie L., additional, Granzotto, Adeline, additional, Sonzogni, Laurène, additional, Al-Choboq, Joëlle, additional, El Nachef, Laura, additional, François, Sabine, additional, Bourguignon, Michel, additional, and Foray, Nicolas, additional

Published

2023

7. Molecular and Cellular Responses to Ionization Radiation in Untransformed Fibroblasts from the Rothmund–Thomson Syndrome: Influence of the Nucleo-Shuttling of the ATM Protein Kinase

Author

Al-Choboq, Joëlle, primary, Nehal, Myriam, additional, Sonzogni, Laurène, additional, Granzotto, Adeline, additional, El Nachef, Laura, additional, Restier-Verlet, Juliette, additional, Maalouf, Mira, additional, Berthel, Elise, additional, Aral, Bernard, additional, Corradini, Nadège, additional, Bourguignon, Michel, additional, and Foray, Nicolas, additional

Published

2023

8. Cancer and Radiosensitivity Syndromes: Is Impaired Nuclear ATM Kinase Activity the Primum Movens?

Author

El Nachef, Laura, primary, Berthel, Elise, additional, Ferlazzo, Mélanie L., additional, Le Reun, Eymeric, additional, Al-Choboq, Joelle, additional, Restier-Verlet, Juliette, additional, Granzotto, Adeline, additional, Sonzogni, Laurène, additional, Bourguignon, Michel, additional, and Foray, Nicolas, additional

Published

2022

9. Quantitative Correlations between Radiosensitivity Biomarkers Show That the ATM Protein Kinase Is Strongly Involved in the Radiotoxicities Observed after Radiotherapy

Author

Le Reun, Eymeric, primary, Bodgi, Larry, additional, Granzotto, Adeline, additional, Sonzogni, Laurène, additional, Ferlazzo, Mélanie L., additional, Al-Choboq, Joëlle, additional, El-Nachef, Laura, additional, Restier-Verlet, Juliette, additional, Berthel, Elise, additional, Devic, Clément, additional, Bouchet, Audrey, additional, Bourguignon, Michel, additional, and Foray, Nicolas, additional

Published

2022

10. Human Radiosensitivity and Radiosusceptibility: What Are the Differences?

Author

El-Nachef, Laura, primary, Al-Choboq, Joelle, additional, Restier-Verlet, Juliette, additional, Granzotto, Adeline, additional, Berthel, Elise, additional, Sonzogni, Laurène, additional, Ferlazzo, Mélanie L., additional, Bouchet, Audrey, additional, Leblond, Pierre, additional, Combemale, Patrick, additional, Pinson, Stéphane, additional, Bourguignon, Michel, additional, and Foray, Nicolas, additional

Published

2021

11. Radiation on Earth or in Space: What Does It Change?

Author

Restier-Verlet, Juliette, primary, El-Nachef, Laura, additional, Ferlazzo, Mélanie L., additional, Al-Choboq, Joëlle, additional, Granzotto, Adeline, additional, Bouchet, Audrey, additional, and Foray, Nicolas, additional

Published

2021