Your search keyword '"V. De Nadal"' showing total 19 results

1. TOWARDS THE USE OF NANODOSIMETRY TO PREDICT CELL SURVIVAL

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Author

P. Colautti, A Selva, Roberto Cherubini, V. Conte, and V. De Nadal

Subjects

Cell Survival, Radiation, 030218 nuclear medicine & medical imaging, Ion, 03 medical and health sciences, 0302 clinical medicine, Relative biological effectiveness, Nanotechnology, Radiology, Nuclear Medicine and imaging, Irradiation, Radiometry, Cell survival, Probability, Physical quantity, Ions, Physics, Radiological and Ultrasound Technology, Radiation field, Cumulative distribution function, Public Health, Environmental and Occupational Health, Dose-Response Relationship, Radiation, General Medicine, Carbon, Computational physics, 030220 oncology & carcinogenesis, Linear Models, Protons, Relative Biological Effectiveness

Abstract

Experimental nanodosimetry aims to develop a new concept of radiation quality, based on the correlation between initial features of particle tracks and late biological outcome. A direct proportionality has been observed between the cumulative probability of measuring at least k ionisations within a nanometric volume and inactivation cross sections at specific survival levels. Based on this proportionality, physical quantities which are measurable at the nanometre level can be used to estimate the alpha and beta parameters of the linear-quadratic dose-response model, provided that two proportionality factors are determined in a reference radiation field. This work describes the procedure and first results applied to published data for V79 cell survival after irradiation with protons and carbon ions. more...

Published

2018

2. Hyper-radiosensitivity and induced radioresistance and bystander effects in rodent and human cells as a function of radiation quality

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Author

S. Gerardi, V. De Nadal, and Roberto Cherubini

Subjects

Genome instability, Cell Survival, Radiation quality, Heavy Ion Radiotherapy, Radiation Dosage, Radiation Tolerance, Genomic Instability, Chinese hamster, Cricetulus, Cricetinae, Radioresistance, Bystander effect, Animals, Humans, Radiology, Nuclear Medicine and imaging, Irradiation, Lung, Cells, Cultured, Radiation, Radiological and Ultrasound Technology, biology, business.industry, Public Health, Environmental and Occupational Health, Bystander Effect, General Medicine, Fibroblasts, biology.organism_classification, In vitro, Cancer research, Protons, Glioblastoma, Nuclear medicine, business, Function (biology), DNA Damage

Abstract

In the past two decades, a body of experimental evidences in vitro has shown the presence of a plethora of phenomena occurring after low-dose irradiation [including hypersensitivity and induced radioresistance (IRR), adaptive response, bystander effect (BE) and genomic instability], which might imply a non-linear behaviour of cancer risk curves in the low-dose region and question the validity of the linear no-threshold model for cancer risk assessment in such a dose region. In this framework, a systematic investigation have been undertaken on non-linear effects at low doses as a function of different radiation quality and cellular radiosensitivity and in terms of different biological end points. The present article reports the recent results on hyper-radiosensitivity and IRR and BE phenomena, in terms of clonogenic survival in V79 Chinese hamster cells and T98G human glioblastoma cells irradiated with protons and carbon ions with different energy, as a function of dose (and fluence). more...

Published

2015

3. mFISH analysis of irradiated human fibroblasts: a comparison among radiations with different quality in the low-dose range: Figure 1

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Author

Antonio Antoccia, Roberto Cherubini, Francesco Berardinelli, D. Nieri, S. Gerardi, Antonella Sgura, V. De Nadal, and Caterina Tanzarella

Subjects

Range (particle radiation), Radiation, Radiobiology, Materials science, Radiological and Ultrasound Technology, business.industry, Radiation quality, Energy transfer, Low dose, Radiochemistry, Public Health, Environmental and Occupational Health, General Medicine, Ion, Quality (physics), Radiology, Nuclear Medicine and imaging, Irradiation, Nuclear medicine, business

Abstract

The present investigation aimed to characterise the shape of dose-response curve and determining the frequency distribution of various aberration types as a function of dose and radiation quality in AG01522 primary human fibroblasts in the 0.1- to 1-Gy dose range. For this purpose, the cells were irradiated with 7.7 and 28.5 keV µm(-1) low-energy protons, 62 keV µm(-1 4)He(2+) ions (LNL Radiobiology facility) or X rays and samples collected for 24-colour mFISH analysis. X rays and 7.7 keV µm(-1) protons displayed a quadratic dose-response curve solely for total and simple exchanges, whereas for high-linear energy transfer radiations, a linear dose-response curve was observed for all the aberration categories, with the exception of complex exchanges. more...

Published

2015

4. The origin of the radiobiological damage in cells stored in cryostatic conditions

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Author

Antonio Faucitano, Daniele Dondi, Alberto Zeffiro, Armando Buttafava, S. Gerardi, Roberto Cherubini, and V. De Nadal

Subjects

chemistry.chemical_classification, Reactive oxygen species, Radiation, Radical, Analytical chemistry, chemistry.chemical_element, Nitroxyl, Radiation chemistry, Photochemistry, medicine.disease, Oxygen, law.invention, chemistry.chemical_compound, chemistry, law, medicine, Electron paramagnetic resonance, Cell damage, Free-radical theory of aging

Abstract

The radiation induced free radical damage in Chinese hamster lung fibroblast V-79 cells stored in DMEM culture medium containing 10% DMSO has been investigated by matrix EPR spectroscopy in connection with the H2O/DMSO binary phase diagram. A major part of the indirect effect is due to radicals from the DMSO·3H2O phase in the freezing medium, which are released on warming in the temperature range between 130 K and 160 K, that is, far below the eutectic melting temperature (210 K). The radicals trapped in the DMSO·3H2O phase react with oxygen above 160 K giving reactive oxygen species (ROS) of the type of peroxyl radicals. A lower limit yield of 10–15% was calculated for this conversion. Scavenging experiments with a stable nitroxyl radical (tempol) have demonstrated that part of the DMSO·3H2O radicals escape by mutual recombination on melting and are therefore available for inducing indirect cell damage. The same experiments performed with pure frozen water have shown that OH radicals are not available for inducing cell damage. The EPR measurements performed on H2O/DMSO frozen mixtures suggest that the radiation induced radical forming process does not change when passing to the low dose range below 1 Gy, in agreement with the linear model. more...

Published

2012

5. mFISH analysis of irradiated human fibroblasts: a comparison among radiations with different quality in the low-dose range

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Author

F, Berardinelli, D, Nieri, C, Tanzarella, R, Cherubini, V, De Nadal, S, Gerardi, A, Sgura, and A, Antoccia

Subjects

Chromosome Aberrations, X-Rays, Humans, Heavy Ions, Linear Energy Transfer, Fibroblasts, Protons, Radiation Dosage, In Situ Hybridization, Fluorescence

Abstract

The present investigation aimed to characterise the shape of dose-response curve and determining the frequency distribution of various aberration types as a function of dose and radiation quality in AG01522 primary human fibroblasts in the 0.1- to 1-Gy dose range. For this purpose, the cells were irradiated with 7.7 and 28.5 keV µm(-1) low-energy protons, 62 keV µm(-1 4)He(2+) ions (LNL Radiobiology facility) or X rays and samples collected for 24-colour mFISH analysis. X rays and 7.7 keV µm(-1) protons displayed a quadratic dose-response curve solely for total and simple exchanges, whereas for high-linear energy transfer radiations, a linear dose-response curve was observed for all the aberration categories, with the exception of complex exchanges. more...

Published

2015

6. mBAND and mFISH analysis of chromosomal aberrations and breakpoint distribution in chromosome 1 of AG01522 human fibroblasts that were exposed to radiation of different qualities

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Author

Antonella Sgura, M. De Vitis, Roberto Cherubini, D. Nieri, Caterina Tanzarella, Antonio Antoccia, V. De Nadal, S. Gerardi, Francesco Berardinelli, Berardinelli, Francesco, De Vitis, Marco, Nieri, Dino, Cherubini, R., De Nadal, Viviana, Gerardi, S., Tanzarella, Caterina, Sgura, Antonella, Antoccia, Antonio, DE VITIS, Marco, Cherubini, R, DE NADAL, V, Gerardi, S, and Tanzarella, C more...

Subjects

Health, Toxicology and Mutagenesis, Chromosome Breakpoints, Linear energy transfer, Radiation, Biology, Helium, Cell Line, Genetics, Constitutive heterochromatin, Humans, Heavy Ions, Linear Energy Transfer, In Situ Hybridization, Fluorescence, Chromosome Aberrations, X-Rays, Breakpoint, Chromosome, Karyotype, Fibroblasts, Carbon, Chromosome Banding, Distribution (mathematics), Chromosomes, Human, Pair 1, Protons

Abstract

High-resolution multicolour banding FISH (mBAND) and multiplex FISH (mFISH) were used to analyse the aberrations of chromosome 1 in irradiated-AG01522 human primary fibroblasts. The cells were exposed to 1Gy of a panel of radiation of different qualities, such as X-rays, low-energy protons (28keV/μm), helium-ions (62keV/μm) and carbon-ions (96 and 252keV/μm). mBAND and mFISH analysis in calyculin-A G2-condensed chromosome spreads allowed us to detect intra- and interchromosome aberrations involving chromosome 1, including simple and complex-type exchanges, inversions (both para- and pericentric ones), deletions and rings. The data indicate that the induction of chromosomal exchanges was influenced by both Linear energy transfer (LET) and particle types. Moreover, the complex-to-simple exchanges ratio (C-ratio) and interchromosome to intrachromosome exchanges ratio (F-ratio) were evaluated by mFISH and mBAND techniques, respectively. Our results indicate that the C-ratio is a more reliable marker of radiation quality, with values that increased linearly in an LET-dependent manner. In addition, by means of mBAND analysis, the distribution of radiation-induced breakpoints along chromosome 1 was analyzed and compared with the expected distributions of the breaks. The expected values were calculated assuming a random distribution of the breakpoints. The data indicate that, irrespective of the radiation that was used, the breakpoints were non-randomly distributed along chromosome 1. In particular, breaks in the pericentromeric region were encountered at a higher frequency than expected. A deeper analysis revealed that breaks were not located in the constitutive heterochromatin (G-bands 1p11/1q11 and 1q12), but rather in a region comprised between 1p11.2 and 1p22.1, which includes G-light and G-dark bands. more...

Published

2015

7. Lack of hyper-radiosensitivity and induced radioresistance and of bystander effect in V79 cells after proton irradiation of different energies

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Author

D.V. Guryev, Roberto Cherubini, V. De Nadal, and S. Gerardi

Subjects

Cell type, Proton, Cell Survival, Population, Cell, Radiation Dosage, Radiation Tolerance, Cell Line, Cricetulus, Radioresistance, Cricetinae, Bystander effect, medicine, Animals, Radiology, Nuclear Medicine and imaging, Irradiation, education, Chromosome Aberrations, education.field_of_study, Radiation, Radiological and Ultrasound Technology, Chemistry, Public Health, Environmental and Occupational Health, Dose-Response Relationship, Radiation, General Medicine, Bystander Effect, Fibroblasts, medicine.anatomical_structure, Micronucleus test, Biophysics, Protons

Abstract

A huge body of evidence about the hyper-radiosensitivity and induced radioresistance (HRS/IRR) phenomena and the bystander effect (BE) is reported in the literature, in many cell types and in terms of various biological endpoints, after high- and low-linear energy transfer irradiation. However, the mechanisms underlying these effects together with their inter-relationship, and the correlation of HRS/IRR and BE phenomena with radiation quality are not yet well established and elucidated. To study these phenomena, the radiation response of V79 cells has been evaluated in terms of cell survival after irradiation with broad beams of 7.7- and 28.5-keV μm(-1) protons. HRS/IRR has been investigated also in terms of micronuclei and chromosomal aberration induction. The presence of BE has been investigated with a 'partial shielding irradiation' system, which prevents the irradiation of 35 % (on average) of the cell population. No clear evidence of HRS/IRR, nor of a significant BE response, can be identified in the low-dose region of V79 dose-response curves after proton irradiation of different energies. more...

Published

2010

8. Transient activation of the ALT pathway in human primary fibroblasts exposed to high-LET radiation

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Author

V. De Nadal, G.A.P. Cirrone, S. Gerardi, Francesco Berardinelli, Antonella Sgura, Caterina Tanzarella, Antonio Antoccia, Roberto Cherubini, Berardinelli, F, Antoccia, A, Cherubini, R, DE NADAL, V, Gerardi, S, Cirrone, Ga, Tanzarella, C, Sgura, Antonella, Antoccia, Antonio, and Sgura, A. more...

Subjects

Genome instability, Telomerase, Time Factors, DNA damage, Biophysics, In situ hybridization, Promyelocytic Leukemia Protein, Promyelocytic leukemia protein, Humans, Radiology, Nuclear Medicine and imaging, Linear Energy Transfer, ALT and telomerase, In Situ Hybridization, Fluorescence, telomere, Radiation, biology, Dose-Response Relationship, Drug, Genome, Human, Tumor Suppressor Proteins, Colocalization, Nuclear Proteins, Fibroblasts, Telomere, Molecular biology, Cell biology, Protein Transport, biology.protein, Chromatid, Sister Chromatid Exchange, DNA Damage, Transcription Factors

Abstract

It is well established that high-LET radiations efficiently induce chromosome aberrations. However, data on the effect of protons on telomere maintenance, as involved in genomic stability, are scarce and contradictory. Here we demonstrate that high-LET protons induce telomere lengthening in human primary fibroblasts and that this elongation does not involve the telomerase enzyme, supporting the hypothesis that high-LET radiations are able to activate a telomerase-independent mechanism. In tumor cells that lack telomerase, one or more non-telomerase mechanisms for telomere maintenance are present, which are termed alternative lengthening of telomeres (ALT). Since ALT cells are characterized by recombinational events at telomeres, known as telomeric-sister chromatid exchanges (T-SCE), and colocalization of telomeres and premyelocytic leukemia protein (PML), we analyzed both T-SCE and PML. Our results show that high-LET protons induce a 2.5-fold increase of T-SCE and a colocalization of PML protein and telomeric DNA. Furthermore, our data show that the ALT pathway can be activated in human primary cells after induction of severe DNA damage. Thus, since telomeres are known to be involved in chromosome maintenance, the present work may contribute in the elucidation of the mechanism by which ionizing radiation induces genomic instability. more...

Published

2010

9. 318 MEASUREMENTS OF BIOLOGICAL EFFECTIVENESS OF CARBON-IONS IN HUMAN AND RODENT CELLS FOR VALIDATION AND DEVELOPMENT OF RADIOBIOLOGICAL MODELS FOR TPS

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Author

Caterina Tanzarella, Francesco Romano, S. La Rosa, Antonio Antoccia, P. Cirrone, Francesco Berardinelli, Roberto Cherubini, Antonella Sgura, V. De Nadal, S. Gerardi, and D. Nieri

Subjects

medicine.medical_specialty, Oncology, chemistry, Radiochemistry, medicine, chemistry.chemical_element, Radiology, Nuclear Medicine and imaging, Medical physics, Hematology, Carbon

Published

2012

10. LOW-DOSE EFFECTS OF IONIZING RADIATIONS IN IN VITRO AND IN VIVO BIOLOGICAL SYSTEMS: A MULTI-SCALE APPROACH STUDY

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Author

Antoccia A, Argazzi E. b, Balata M, Bedogni R, Bisogni G, Bono M, Bottigli U, Brunetti A, Buttafava A, Castellani G, Centis F, Cesarini W, Cherubini R, Cossu A, Cugia G, Dattena M, De Nadal V, Dondi D, Esposito A, Faucitano A, Fiori P. L, Fusco E, Gerardi S, Laubenstein M, Lucarini A, Marengo M, Masala G. L, Nieri D, Nisi S, Picardi F, Pintus G, Posadino A, Randaccio P, Remondini D, Stramigioli S, Tanzarella C, Valentini M, Zamai L, Zini G, Zironi I., BERARDINELLI, FRANCESCO, SGURA, Antonella, A. Antoccia, E. Argazzi, M. Balata, R. Bedogni, F. Berardinelli, G. Bisogni, M. Bono, U. Bottigli, A. Brunetti, A. Buttafava, G. Castellani, F. Centi, W. Cesarini, R. Cherubini, A. Cossu, G. Cugia, M. Dattena, V. De Nadal, D. Dondi, A. Esposito, A. Faucitano, P. L. Fiori, E. Fusco, S. Gerardi, M. Laubenstein, A. Lucarini, M. Marengo, G. L. Masala, D. Nieri, S. Nisi, F. Picardi, G. Pintu, A. Posadino, P. Randaccio, D. Remondini, A. Sgura, S. Stramigioli, C. Tanzarella, M. Valentini, L. Zamai, G. Zini, I. Zironi, Antoccia, A, Argazzi E., B, Balata, M, Bedogni, R, Berardinelli, Francesco, Bisogni, G, Bono, M, Bottigli, U, Brunetti, A, Buttafava, A, Castellani, G, Centis, F, Cesarini, W, Cherubini, R, Cossu, A, Cugia, G, Dattena, M, De Nadal, V, Dondi, D, Esposito, A, Faucitano, A, Fiori P., L, Fusco, E, Gerardi, S, Laubenstein, M, Lucarini, A, Marengo, M, Masala G., L, Nieri, D, Nisi, S, Picardi, F, Pintus, G, Posadino, A, Randaccio, P, Remondini, D, Sgura, Antonella, Stramigioli, S, Tanzarella, C, Valentini, M, Zamai, L, Zini, G, and Zironi, I. more...

Subjects

ionizing radiation, apoptosis, cell survival, apoptosis, ionizing radiation, BIOLOGICAL EFFECTS, cell survival

Abstract

""Long-term biological effects of low-dose radiation are little known nowadays and its carcinogenic risk is estimated on the assumption that the risk remains linearly proportional to the radiation dose down to low-dose levels. However in the last 20 years this hypothesis has gradually begun to seem in contrast with a huge collection of experimental evidences, which has shown the presence of a plethora of non-linear phenomena (including hypersensitivity and induced radioresistance, adaptive response, and non-targeted phenomena like bystander effect and genomic instability) occurring after low-dose irradiation. These phenomena might imply a non-linear behaviour of cancer risk curves in the low-dose region and question the validity of the Linear No-Threshold (LNT) model currently used for cancer risk assessment through extrapolation from existing high-dose data. Moreover only few information is available regarding the effects induced on cryopreserved cells by multi-year background radiation exposure, which might induce a radiation-damage accumulation, due to the inhibition of cellular repair mechanisms. In this framework, the multi-year EXCALIBUR (EXposure effeCts At Low doses of Ionizing radiation in Biological CultURes) experiment, funded by INFN-CNS5, has undertaken a multiscale approach investigation on the biological effects induced in in vitro and in vivo biological systems, in culture and cryopreserved conditions, as a function of radiation quality (X\\\/γ-rays, protons, He-4 ions of various energies) and dose, with particular emphasis on the low-dose region and non-linear phenomena, in terms of different biological endpoints. PACS 87.53.-j-Effects of ionizing radiation on biological systems. PACS 87.53.Ay-Biophysical mechanisms of interaction. PACS 87.53.Bn-Dosimetry\\\/exposure assessment. PACS 87.18.Gh-Cell-cell communication; collective behavior of motile cells"" more...

Published

2011

11. Interphase Cytogenetic Analysis of G0 Lymphocytes Exposed to α-Particles, C-Ions, and Protons Reveals their Enhanced Effectiveness for Localized Chromosome Shattering-A Critical Risk for Chromothripsis.

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Author

Pantelias A, Zafiropoulos D, Cherubini R, Sarchiapone L, De Nadal V, Pantelias GE, Georgakilas AG, and Terzoudi GI

Abstract

For precision cancer radiotherapy, high linear energy transfer (LET) particle irradiation offers a substantial advantage over photon-based irradiation. In contrast to the sparse deposition of low-density energy by χ- or γ-rays, particle irradiation causes focal DNA damage through high-density energy deposition along the particle tracks. This is characterized by the formation of multiple damage sites, comprising localized clustered patterns of DNA single- and double-strand breaks as well as base damage. These clustered DNA lesions are key determinants of the enhanced relative biological effectiveness (RBE) of energetic nuclei. However, the search for a fingerprint of particle exposure remains open, while the mechanisms underlying the induction of chromothripsis-like chromosomal rearrangements by high-LET radiation (resembling chromothripsis in tumors) await to be elucidated. In this work, we investigate the transformation of clustered DNA lesions into chromosome fragmentation, as indicated by the induction and post-irradiation repair of chromosomal damage under the dynamics of premature chromosome condensation in G0 human lymphocytes. Specifically, this study provides, for the first time, experimental evidence that particle irradiation induces localized shattering of targeted chromosome domains. Yields of chromosome fragments and shattered domains are compared with those generated by γ-rays; and the RBE values obtained are up to 28.6 for α-particles (92 keV/μm), 10.5 for C-ions (295 keV/μm), and 4.9 for protons (28.5 keV/μm). Furthermore, we test the hypothesis that particle radiation-induced persistent clustered DNA lesions and chromatin decompaction at damage sites evolve into localized chromosome shattering by subsequent chromatin condensation in a single catastrophic event-posing a critical risk for random rejoining, chromothripsis, and carcinogenesis. Consistent with this hypothesis, our results highlight the potential use of shattered chromosome domains as a fingerprint of high-LET exposure, while conforming to the new model we propose for the mechanistic origin of chromothripsis-like rearrangements. more...

Published

2020

12. THE RADIOBIOLOGICAL PLATFORM AT ARRONAX.

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Author

Koumeir C, De Nadal V, Cherubini R, Cherel M, Garrido E, Gouard S, Guertin A, Haddad F, Métivier V, Michel N, Poirier F, Servagent N, Sounalet T, and Varmenot N

Subjects

Equipment Design, France, Humans, Cyclotrons, Radiobiology instrumentation

Abstract

The cyclotron ARRONAX can deliver different types of particles (protons, deuterons, alpha-particles) in an energy range up to 68 MeV. One of its six experimental halls is dedicated to studying the interactions of radiation with matter including living matter. A horizontal beamline for cell irradiation has been setup and characterized. The radiobiological characterization was done in terms of V79 cells survival after irradiation with 68 MeV protons. The results demonstrate that radiobiological studies can be successfully performed confirming the high potential of the facility., (© The Author(s) 2019. Published by Oxford University Press. All rights reserved. For Permissions, please email: journals.permissions@oup.com.) more...

Published

2019

13. mBAND and mFISH analysis of chromosomal aberrations and breakpoint distribution in chromosome 1 of AG01522 human fibroblasts that were exposed to radiation of different qualities.

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Author

Berardinelli F, De Vitis M, Nieri D, Cherubini R, De Nadal V, Gerardi S, Tanzarella C, Sgura A, and Antoccia A

Subjects

Carbon, Cell Line, Chromosomes, Human, Pair 1 genetics, Heavy Ions, Helium, Humans, Linear Energy Transfer, Protons, X-Rays, Chromosome Aberrations, Chromosome Banding methods, Chromosome Breakpoints, Chromosomes, Human, Pair 1 radiation effects, Fibroblasts radiation effects, In Situ Hybridization, Fluorescence methods

Abstract

High-resolution multicolour banding FISH (mBAND) and multiplex FISH (mFISH) were used to analyse the aberrations of chromosome 1 in irradiated-AG01522 human primary fibroblasts. The cells were exposed to 1Gy of a panel of radiation of different qualities, such as X-rays, low-energy protons (28keV/μm), helium-ions (62keV/μm) and carbon-ions (96 and 252keV/μm). mBAND and mFISH analysis in calyculin-A G2-condensed chromosome spreads allowed us to detect intra- and interchromosome aberrations involving chromosome 1, including simple and complex-type exchanges, inversions (both para- and pericentric ones), deletions and rings. The data indicate that the induction of chromosomal exchanges was influenced by both Linear energy transfer (LET) and particle types. Moreover, the complex-to-simple exchanges ratio (C-ratio) and interchromosome to intrachromosome exchanges ratio (F-ratio) were evaluated by mFISH and mBAND techniques, respectively. Our results indicate that the C-ratio is a more reliable marker of radiation quality, with values that increased linearly in an LET-dependent manner. In addition, by means of mBAND analysis, the distribution of radiation-induced breakpoints along chromosome 1 was analyzed and compared with the expected distributions of the breaks. The expected values were calculated assuming a random distribution of the breakpoints. The data indicate that, irrespective of the radiation that was used, the breakpoints were non-randomly distributed along chromosome 1. In particular, breaks in the pericentromeric region were encountered at a higher frequency than expected. A deeper analysis revealed that breaks were not located in the constitutive heterochromatin (G-bands 1p11/1q11 and 1q12), but rather in a region comprised between 1p11.2 and 1p22.1, which includes G-light and G-dark bands., (Copyright © 2015 Elsevier B.V. All rights reserved.) more...

Published

2015

14. Cyogenetics effects in AG01522 human primary fibroblasts exposed to low doses of radiations with different quality.

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Author

Nieri D, Berardinelli F, Sgura A, Cherubini R, De Nadal V, Gerardi S, Tanzarella C, and Antoccia A

Subjects

Anaphase, Cells, Cultured, Cytogenetics, Dose-Response Relationship, Radiation, Fibroblasts radiation effects, Fibroblasts ultrastructure, Humans, Linear Energy Transfer, Chromosome Aberrations, Telomere radiation effects

Abstract

Purpose: Biological effects produced by low doses of ionizing radiations, though relevant for the risk assessment, have not been fully elucidated. The aim of the present work was to evaluate cytogenetic endpoints, as telomere dysfunctions and chromosome instability in the low-dose range as a function of radiation quality. In particular, we analyzed whether the telomere length was modulated, as well as the involvement of telomeres in chromosomal alterations at anaphase, and the yield of stable simple and complex chromosome aberrations., Materials and Methods: AG01522 human primary fibroblasts were irradiated with 0.1-1 Gy of X-rays, protons (28.5 keV/μm), and 4He(2+) ions (62 keV/μm). Frequency of chromosome bridges carrying or not telomeric signals and telomere length were measured in irradiated samples up to 72 h. Moreover, chromosome instability was measured using multicolor fluorescence in situ hybridization (mFISH)., Results: The results evidenced a linear energy transfer (LET)- and dose-dependent response in the frequency of anaphase bridges induction and in their persistence as a function of time. However, neither variation in telomere length and telomere loss, nor in the proportion of bridges bearing telomeric signals, was detected, thus indicating a minor role of telomeres in the generation of the radiation-induced chromosome bridges. Chromosome instability followed a linear-dependence with dose and LET, showing a far higher extent of complex translocations in helium-ion-irradiated cells than in proton- or X-ray-irradiated samples., Conclusions: Altogether, the results indicated the lack of telomere involvement in cytogenetic effects induced by low-dose ionizing radiation. On the contrary, chromosome aberration yield and spectrum were LET- and dose-dependent. more...

Published

2013

15. Radiation response of chemically derived mitochondrial DNA-deficient AG01522 human primary fibroblasts.

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Author

Nieri D, Fioramonti M, Berardinelli F, Leone S, Cherubini R, De Nadal V, Gerardi S, Moreno S, Nardacci R, Tanzarella C, and Antoccia A

Subjects

Antimetabolites pharmacology, Cell Survival radiation effects, Cells, Cultured, DNA Damage genetics, DNA Damage radiation effects, DNA Repair genetics, DNA Repair radiation effects, DNA, Mitochondrial drug effects, DNA, Mitochondrial radiation effects, Fibroblasts cytology, Fibroblasts metabolism, Humans, In Situ Hybridization, Fluorescence, Linear Energy Transfer, Membrane Potential, Mitochondrial radiation effects, Mitochondria drug effects, Mitochondria genetics, Reactive Oxygen Species metabolism, Telomere genetics, X-Rays, Chromosome Aberrations, DNA, Mitochondrial metabolism, Fibroblasts radiation effects, Mitochondria radiation effects, Zalcitabine pharmacology

Abstract

Mitochondria are the main cellular source of Reactive Oxygen Species (ROS). Alterations of mitochondrial metabolism and consequent loss of mitochondrial membrane potential may lead to redox imbalance and in turn to DNA damage, chromosomal instability and apoptosis. On the other hand, impaired mitochondrial functions may either exacerbate the detrimental effects of geno- and cytotoxic agents or may bring beneficial cellular responses. To study the role of mitochondria within this framework, AG01522 human primary fibroblasts were incubated with the mitochondrial polymerase γ inhibitor 2',3'-dideoxycytidine (ddC), leading to mitochondrial DNA (mtDNA) depletion and to mitochondrial dysfunctions. The successful treatment toward mtDNA depletion was confirmed by Complex-IV subunit I (COX-I) immunofluorescence and western blot assays. mtDNA-depleted cells and their counterparts were ultrastructurally characterized by transmission electron microscopy. mtDNA-depleted cells showed dramatic mitochondrial alterations such as fragmentation and cristae disruption along with a reduction of the mitochondrial membrane potential and elevated levels of ROS. Despite increased ROS levels, we did not find any difference in telomere length between ddC-treated and untreated cells. The spontaneous rate of DNA double-strand breaks (DSBs) and chromosome aberrations was significantly enhanced in mtDNA-depleted cells whereas the induction of DSBs by low-Linear Energy Transfer (LET) (X-rays; 7.7keV/μm protons) and high-LET radiations (28.5keV/μm protons) did not differ when compared with normal cells. However, in irradiated cells impaired mitochondrial functions seemed to bring beneficial cellular responses to the detrimental effect of radiations. In fact, after X-irradiation mtDNA-depleted cells show less remaining unrejoined DSBs than normal cells and furthermore a lower induction of cytogenetic damage. Overall, these data show that active mitochondrial functions are required for the proper maintenance of cellular genome stability in primary fibroblasts., (Copyright © 2013 Elsevier B.V. All rights reserved.) more...

Published

2013

16. The role of telomere length modulation in delayed chromosome instability induced by ionizing radiation in human primary fibroblasts.

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Author

Berardinelli F, Antoccia A, Buonsante R, Gerardi S, Cherubini R, De Nadal V, Tanzarella C, and Sgura A

Subjects

Anaphase radiation effects, Cell Line, Dose-Response Relationship, Radiation, Fibroblasts cytology, Fibroblasts ultrastructure, Humans, In Situ Hybridization, Fluorescence, Protons, Telomere ultrastructure, X-Rays, Chromosomal Instability radiation effects, Fibroblasts radiation effects, Telomere radiation effects, Telomere Homeostasis radiation effects, Telomere Shortening radiation effects

Abstract

Telomere integrity is important for chromosome stability. The main objective of our study was to investigate the relationship between telomere length modulation and mitotic chromosome segregation induced by ionizing radiation in human primary fibroblasts. We used X-rays and low-energy protons because of their ability to induce different telomeric responses. Samples irradiated with 4 Gy were fixed at different times up to 6 days from exposure and telomere length, anaphase abnormalities, and chromosome aberrations were analyzed. We observed that X-rays induced telomere shortening in cells harvested at 96 hrs, whereas protons induced a significant increase in telomere length at short as well as at long harvesting times (24 and 96 hrs). Consistent with this, the analysis of anaphase bridges at 96 hrs showed a fourfold increase in X-ray- compared with proton-irradiated samples, suggesting a correlation between telomere length/dysfunction and chromosome missegregation. In line with these findings, the frequency of dicentrics and rings decreased with time for protons whereas it remained stable after X-rays irradiation. Telomeric FISH staining on anaphases revealed a higher percentage of bridges with telomere signals in X-ray-treated samples than that observed after proton irradiation, thus suggesting that the aberrations observed after X-ray irradiation originated from telomere attrition and consequent chromosome end-to-end fusion. This study shows that, beside an expected "early" chromosome instability induced shortly after irradiation, a delayed one occurs as a result of alterations in telomere metabolism and that this mechanism may play an important role in genomic stability., (Copyright © 2013 Wiley Periodicals, Inc.) more...

Published

2013

17. Telomere alterations and genomic instability in long-term cultures of normal human fibroblasts irradiated with X rays and protons.

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Author

Berardinelli F, Antoccia A, Cherubini R, De Nadal V, Gerardi S, Tanzarella C, and Sgura A

Subjects

Cell Line, Dose-Response Relationship, Radiation, Humans, Photons, Radiation Dosage, Telomere ultrastructure, X-Rays, Chromosomal Instability genetics, Chromosomal Instability radiation effects, Telomere genetics, Telomere radiation effects

Abstract

Telomeres are the end of linear chromosomes, responsible for chromosome stability and cell viability. It is well known that radiations are able to induce chromosome instability but it has not yet been investigated whether telomere structure is affected by the radiation exposure and if radiations with different quality act in a different way on telomeres. The effect of radiations with different quality on telomere structure and chromosome instability was analysed in human primary fibroblasts exposed to X rays or low-energy protons (28.5 keV μm(-1)). Telomere length was evaluated at different harvesting times from 24 h up to 360 h (15 days), whereas chromosome instability was evaluated in terms of sister chromatid exchanges (SCEs) (48 h from irradiation) and chromosome painting (360 h from irradiation). Results indicated a delayed telomere lengthening 360 h after X-ray treatment, whereas protons were able to induce such a lengthening shortly from irradiation as well as at longer harvesting times. Data obtained from chromosome instability analysis indicated an increase of SCE frequency only after proton irradiation, but, on the contrary, at the longer harvesting time chromosome painting analysis displayed a higher frequency of aberrations after X-ray treatment, suggesting a role of selective process against highly damaged cells. more...

Published

2011

18. Lack of hyper-radiosensitivity and induced radioresistance and of bystander effect in V79 cells after proton irradiation of different energies.

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Author

Cherubini R, De Nadal V, Gerardi S, and Guryev D

Subjects

Animals, Cell Line, Cell Survival radiation effects, Cricetinae, Cricetulus, Dose-Response Relationship, Radiation, Protons, Radiation Dosage, Bystander Effect physiology, Bystander Effect radiation effects, Chromosome Aberrations radiation effects, Fibroblasts physiology, Fibroblasts radiation effects, Radiation Tolerance physiology

Abstract

A huge body of evidence about the hyper-radiosensitivity and induced radioresistance (HRS/IRR) phenomena and the bystander effect (BE) is reported in the literature, in many cell types and in terms of various biological endpoints, after high- and low-linear energy transfer irradiation. However, the mechanisms underlying these effects together with their inter-relationship, and the correlation of HRS/IRR and BE phenomena with radiation quality are not yet well established and elucidated. To study these phenomena, the radiation response of V79 cells has been evaluated in terms of cell survival after irradiation with broad beams of 7.7- and 28.5-keV μm(-1) protons. HRS/IRR has been investigated also in terms of micronuclei and chromosomal aberration induction. The presence of BE has been investigated with a 'partial shielding irradiation' system, which prevents the irradiation of 35 % (on average) of the cell population. No clear evidence of HRS/IRR, nor of a significant BE response, can be identified in the low-dose region of V79 dose-response curves after proton irradiation of different energies. more...

Published

2011

19. Transient activation of the ALT pathway in human primary fibroblasts exposed to high-LET radiation.

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Author

Berardinelli F, Antoccia A, Cherubini R, De Nadal V, Gerardi S, Cirrone GA, Tanzarella C, and Sgura A

Subjects

DNA Damage, Dose-Response Relationship, Drug, Genome, Human genetics, Humans, In Situ Hybridization, Fluorescence, Nuclear Proteins metabolism, Promyelocytic Leukemia Protein, Protein Transport radiation effects, Sister Chromatid Exchange radiation effects, Telomerase metabolism, Telomere genetics, Time Factors, Transcription Factors metabolism, Tumor Suppressor Proteins metabolism, Fibroblasts metabolism, Fibroblasts radiation effects, Linear Energy Transfer, Telomere metabolism, Telomere radiation effects

Abstract

It is well established that high-LET radiations efficiently induce chromosome aberrations. However, data on the effect of protons on telomere maintenance, as involved in genomic stability, are scarce and contradictory. Here we demonstrate that high-LET protons induce telomere lengthening in human primary fibroblasts and that this elongation does not involve the telomerase enzyme, supporting the hypothesis that high-LET radiations are able to activate a telomerase-independent mechanism. In tumor cells that lack telomerase, one or more non-telomerase mechanisms for telomere maintenance are present, which are termed alternative lengthening of telomeres (ALT). Since ALT cells are characterized by recombinational events at telomeres, known as telomeric-sister chromatid exchanges (T-SCE), and colocalization of telomeres and premyelocytic leukemia protein (PML), we analyzed both T-SCE and PML. Our results show that high-LET protons induce a 2.5-fold increase of T-SCE and a colocalization of PML protein and telomeric DNA. Furthermore, our data show that the ALT pathway can be activated in human primary cells after induction of severe DNA damage. Thus, since telomeres are known to be involved in chromosome maintenance, the present work may contribute in the elucidation of the mechanism by which ionizing radiation induces genomic instability. more...

Published

2010