Your search keyword '"Laplagne E"' showing total 5 results

1. A new tool for genotoxic risk assessment: Reevaluation of the cytokinesis-block micronucleus assay using semi-automated scoring following telomere and centromere staining.

Author

Zaguia N, Laplagne E, Colicchio B, Cariou O, Al Jawhari M, Heidingsfelder L, Hempel WM, Jrad BBH, Jeandidier E, Dieterlen A, Carde P, Voisin P, and M'kacher R

Subjects

Aneugens pharmacology, Centromere genetics, Cytokinesis drug effects, Cytokinesis genetics, DNA Damage genetics, Humans, Lymphocytes drug effects, Micronuclei, Chromosome-Defective drug effects, Micronucleus Tests, Mutagens toxicity, Risk Assessment, Telomere genetics, Centromere drug effects, DNA Damage drug effects, Mutagenicity Tests, Telomere drug effects

Abstract

Background: The cytokinesis-block micronucleus (CBMN) assay is an internationally recognized method for measuring DNA damage after exposure to genotoxic agents, as well as a biomarker for DNA repair and chromosomal instability. The high baseline level of micronuclei (MN) in the healthy population has limited the sensitivity and application of the CBMN assay for the follow-up of exposed populations. We reevaluated the sensitivity of the CBNM assay using semi-automated MN scoring following telomere and centromere (TC) staining after in vitro exposure to genotoxic agents (mitomycin or radiation) or aneugenic agents (vinblastine)., Materials and Methods: Blood samples from 12 healthy donors were exposed to 137 Cs at seven doses from 0.1-4 Gy and cultured for 72 h. Cytochalasin B was added at 46 h of culture. The exposure of chemical agents (mitomycin or vinblastine) was performed after 48 h of culture for 3 h. Cytochalasin B was added after treatment and slides were prepared 24 h after. MN was semi-automatically scored following TC staining. Nucleoplasmic bridges (NPBs) and nuclear buds (NBUDs) were assessed in a human cell line after TC staining., Results: The introduction TC staining to the scoring of MN not only renders MN scoring more efficient and robust, but also permits discrimination between exposure to clastogenic (MN with only telomere signals) and aneugenic agents (MN with both TC signals). The resulting improvement of MN detection led to an increase in the sensitivity of the CBMN assay following low-dose radiation exposure (0.3 versus 0.1 Gy). Hyperradiosensitivity phenomenon was observed after low dose exposure. A dose-response curve was obtained for up to 4 Gy. In addition, TC staining permits assessment of the nature of NPBs and NBUDs as biomarkers for genotoxicity and chromosomal instability., Conclusion: These approaches can be potentially used to follow-up populations exposed to genotoxic agents and assess cancer risk., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2020. Published by Elsevier B.V.)

Published

2020

2. Establishment and Characterization of a Reliable Xenograft Model of Hodgkin Lymphoma Suitable for the Study of Tumor Origin and the Design of New Therapies.

Author

M'kacher R, Frenzel M, Al Jawhari M, Junker S, Cuceu C, Morat L, Bauchet AL, Stimmer L, Lenain A, Dechamps N, Hempel WM, Pottier G, Heidingsfelder L, Laplagne E, Borie C, Oudrhiri N, Jouni D, Bennaceur-Griscelli A, Colicchio B, Dieterlen A, Girinsky T, Boisgard R, Bourhis J, Bosq J, Mehrling T, Jeandidier E, and Carde P

Abstract

To identify the cells responsible for the initiation and maintenance of Hodgkin lymphoma (HL) cells, we have characterized a subpopulation of HL cells grown in vitro and in vivo with the aim of establishing a reliable and robust animal model for HL. To validate our model, we challenged the tumor cells in vivo by injecting the alkylating histone-deacetylase inhibitor, EDO-S101, a salvage regimen for HL patients, into xenografted mice. Methodology: Blood lymphocytes from 50 HL patients and seven HL cell lines were used. Immunohistochemistry, flow cytometry, and cytogenetics analyses were performed. The in vitro and in vivo effects of EDO-S101 were assessed. Results: We have successfully determined conditions for in vitro amplification and characterization of the HL L428-c subline, containing a higher proportion of CD30-/CD15- cells than the parental L428 cell line. This subline displayed excellent clonogenic potential and reliable reproducibility upon xenografting into immunodeficient NOD-SCID-gamma (-/-)(NSG) mice. Using cell sorting, we demonstrate that CD30-/CD15- subpopulations can gain the phenotype of the L428-c cell line in vitro. Moreover, the human cells recovered from the seventh week after injection of L428-c cells into NSG mice were small cells characterized by a high frequency of CD30-/CD15- cells. Cytogenetic analysis demonstrated that they were diploid and showed high telomere instability and telomerase activity. Accordingly, chromosomal instability emerged, as shown by the formation of dicentric chromosomes, ring chromosomes, and breakage/fusion/bridge cycles. Similarly, high telomerase activity and telomere instability were detected in circulating lymphocytes from HL patients. The beneficial effect of the histone-deacetylase inhibitor EDO-S101 as an anti-tumor drug validated our animal model. Conclusion: Our HL animal model requires only 10³ cells and is characterized by a high survival/toxicity ratio and high reproducibility. Moreover, the cells that engraft in mice are characterized by a high frequency of small CD30-/CD15- cells exhibiting high telomerase activity and telomere dysfunction.

Published

2018

3. Transmission of Induced Chromosomal Aberrations through Successive Mitotic Divisions in Human Lymphocytes after In Vitro and In Vivo Radiation.

Author

Kaddour A, Colicchio B, Buron D, El Maalouf E, Laplagne E, Borie C, Ricoul M, Lenain A, Hempel WM, Morat L, Al Jawhari M, Cuceu C, Heidingsfelder L, Jeandidier E, Deschênes G, Dieterlen A, El May M, Girinsky T, Bennaceur-Griscelli A, Carde P, Sabatier L, and M'kacher R

Subjects

Chromosomal Instability, Chromosomes, Human genetics, Giant Cells cytology, Humans, Lymphocytes metabolism, Reproducibility of Results, Telomere metabolism, Chromosome Aberrations, Gamma Rays, Lymphocytes cytology, Lymphocytes radiation effects, Mitosis radiation effects

Abstract

The mechanisms behind the transmission of chromosomal aberrations (CA) remain unclear, despite a large body of work and major technological advances in chromosome identification. We reevaluated the transmission of CA to second- and third-division cells by telomere and centromere (TC) staining followed by M-FISH. We scored CA in lymphocytes of healthy donors after in vitro irradiation and those of cancer patients treated by radiation therapy more than 12 years before. Our data demonstrate, for the first time, that dicentric chromosomes (DCs) decreased by approximately 50% per division. DCs with two centromeres in close proximity were more efficiently transmitted, representing 70% of persistent DCs in ≥M3 cells. Only 1/3 of acentric chromosomes (ACs), ACs with four telomeres, and interstitial ACs, were paired in M2 cells and associated with specific DCs configurations. In lymphocytes of cancer patients, 82% of detected DCs were characterized by these specific configurations. Our findings demonstrate the high stability of DCs with two centromeres in close proximity during cell division. The frequency of telomere deletion increased during cell cycle progression playing an important role in chromosomal instability. These findings could be exploited in the follow-up of exposed populations.

Published

2017

4. Detection and automated scoring of dicentric chromosomes in nonstimulated lymphocyte prematurely condensed chromosomes after telomere and centromere staining.

Author

M'kacher R, El Maalouf E, Terzoudi G, Ricoul M, Heidingsfelder L, Karachristou I, Laplagne E, Hempel WM, Colicchio B, Dieterlen A, Pantelias G, and Sabatier L

Subjects

Cobalt Radioisotopes, DNA Repair, Dose-Response Relationship, Radiation, Humans, Metaphase, Radiation Dosage, Time Factors, Centromere genetics, Chromosome Aberrations, Lymphocytes radiation effects, Staining and Labeling, Telomere

Abstract

Purpose: To combine telomere and centromere (TC) staining of premature chromosome condensation (PCC) fusions to identify dicentrics, centric rings, and acentric chromosomes, making possible the realization of a dose-response curve and automation of the process., Methods and Materials: Blood samples from healthy donors were exposed to (60)Co irradiation at varying doses up to 8 Gy, followed by a repair period of 8 hours. Premature chromosome condensation fusions were carried out, and TC staining using peptide nucleic acid probes was performed. Chromosomal aberration (CA) scoring was carried out manually and automatically using PCC-TCScore software, developed in our laboratory., Results: We successfully optimized the hybridization conditions and image capture parameters, to increase the sensitivity and effectiveness of CA scoring. Dicentrics, centric rings, and acentric chromosomes were rapidly and accurately detected, leading to a linear-quadratic dose-response curve by manual scoring at up to 8 Gy. Using PCC-TCScore software for automatic scoring, we were able to detect 95% of dicentrics and centric rings., Conclusion: The introduction of TC staining to the PCC fusion technique has made possible the rapid scoring of unstable CAs, including dicentrics, with a level of accuracy and ease not previously possible. This new approach can be used for biological dosimetry in radiation emergency medicine, where the rapid and accurate detection of dicentrics is a high priority using automated scoring. Because there is no culture time, this new approach can also be used for the follow-up of patients treated by genotoxic therapy, creating the possibility to perform the estimation of induced chromosomal aberrations immediately after the blood draw., (Copyright © 2015 The Authors. Published by Elsevier Inc. All rights reserved.)

Published

2015

5. New tool for biological dosimetry: reevaluation and automation of the gold standard method following telomere and centromere staining.

Author

M'kacher R, Maalouf EE, Ricoul M, Heidingsfelder L, Laplagne E, Cuceu C, Hempel WM, Colicchio B, Dieterlen A, and Sabatier L

Subjects

Adult, Blood Cells metabolism, Blood Cells radiation effects, Chromosome Aberrations radiation effects, Dose-Response Relationship, Radiation, Electronic Data Processing, Female, Humans, Male, Middle Aged, Radiation, Ionizing, Radiometry instrumentation, Radiometry standards, Young Adult, Centromere radiation effects, Radiometry methods, Staining and Labeling methods, Telomere radiation effects

Abstract

Purpose: The dicentric chromosome (dicentric) assay is the international gold-standard method for biological dosimetry and classification of genotoxic agents. The introduction of telomere and centromere (TC) staining offers the potential to render dicentric scoring more efficient and robust. In this study, we improved the detection of dicentrics and all unstable chromosomal aberrations (CA) leading to a significant reevaluation of the dose-effect curve and developed an automated approach following TC staining., Material and Methods: Blood samples from 16 healthy donors were exposed to (137)Cs at 8 doses from 0.1 to 6Gy. CA were manually and automatically scored following uniform (Giemsa) or TC staining. The detection of centromeric regions and telomeric sequences using PNA probes allowed the detection of all unstable CA: dicentrics, centric and acentric rings, and all acentric fragments (with 2, 4 or no telomeres) leading to the precise quantification of estimated double strand breaks (DSB)., Results: Manual scoring following TC staining revealed a significantly higher frequency of dicentrics (p<10(-3)) (up to 30%) and estimated DSB (p<10(-4)) compared to uniform staining due to improved detection of dicentrics with centromeres juxtaposed with other centromeres or telomeres. This improvement permitted the development of the software, TCScore, that detected 95% of manually scored dicentrics compared to 50% for the best currently available software (DCScore™)., Conclusion: The use of TC staining has permitted a reevaluation of the dose-response curve and the highly efficient automation of the scoring process, marking a new step in the management and follow-up of populations exposed to genotoxic agents including ionizing radiation., (Copyright © 2014 The Authors. Published by Elsevier B.V. All rights reserved.)

Published

2014