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2. Low to moderate dose 137 Cs (γ) radiation enhances M2 type macrophages function at short term associated with reduced inflammation at long term exposure in ApoE (-/-) mice

Author

Rey, N., primary, Ebrahimian, T., additional, Gloaguen, C ., additional, Kereselidze, D., additional, Elie, C., additional, Brizais, C., additional, Bachelot, F., additional, Riazi, G., additional, Monceau, V., additional, Demarquay, C ., additional, Zineddine, I. Garali, additional, Klokov, D ., additional, Lehoux, S., additional, and Ebrahimian, T.G., additional

Published
2024
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4. Low to moderate dose 137Cs (γ) radiation promotes M2 type macrophage skewing and reduces atherosclerotic plaque CD68+ cell content in ApoE(−/−) mice.

Author

Rey, N., Ebrahimian, T., Gloaguen, C., Kereselidze, D., Christelle, E., Brizais, C., Bachelot, F., Riazi, G., Monceau, V., Demarquay, C., Zineddine, I. Garali, Klokov, D., Lehoux, S., and Ebrahimian, Teni G.

Subjects
DOSE-response relationship (Radiation), ATHEROSCLEROTIC plaque, MACROPHAGES, STAINS & staining (Microscopy), IONIZING radiation, MUSCLE cells
Abstract

The effects of low doses of ionizing radiation on atherosclerosis remain uncertain, particularly as regards the generation of pro- or anti-inflammatory responses, and the time scale at which such effects can occur following irradiation. To explore these phenomena, we exposed atheroprone ApoE(−/−) mice to a single dose of 0, 0.05, 0.5 or 1 Gy of 137Cs (γ) administered at a 10.35 mGy min−1 dose rate and evaluated short-term (1–10 days) and long-term consequences (100 days). Bone marrow-derived macrophages were derived from mice 1 day after exposure. Irradiation was associated with a significant skewing of M0 and M2 polarized macrophages towards the M2 phenotype, as demonstrated by an increased mRNA expression of Retnla, Arg1, and Chil3 in cells from mice exposed to 0.5 or 1 Gy compared with non-irradiated animals. Minimal effects were noted in M1 cells or M1 marker mRNA. Concurrently, we observed a reduced secretion of IL-1β but enhanced IL-10 release from M0 and M2 macrophages. Effects of irradiation on circulating monocytes were most marked at day 10 post-exposure, when the 1 Gy dose was associated with enhanced numbers of both Ly6CHigh and Ly6Low cells. By day 100, levels of circulating monocytes in irradiated and non-irradiated mice were equivalent, but anti-inflammatory Ly6CLow monocytes were significantly increased in the spleen of mice exposed to 0.05 or 1 Gy. Long term exposures did not affect atherosclerotic plaque size or lipid content, as determined by Oil red O staining, whatever the dose applied. Similarly, irradiation did not affect atherosclerotic plaque collagen or smooth muscle cell content. However, we found that lesion CD68+ cell content tended to decrease with rising doses of radioactivity exposure, culminating in a significant reduction of plaque macrophage content at 1 Gy. Taken together, our results show that short- and long-term exposures to low to moderate doses of ionizing radiation drive an anti-inflammatory response, skewing bone marrow-derived macrophages towards an IL-10-secreting M2 phenotype and decreasing plaque macrophage content. These results suggest a low-grade athero-protective effect of low and moderate doses of ionizing radiation. [ABSTRACT FROM AUTHOR]

Published
2024
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12. In vivo animal studies help achieve international consensus on standards and guidelines for health risk estimates for chronic exposure to low levels of tritium in drinking water

Author

Guéguen, Y., Priest, N.D., Dublineau, I., Bannister, L., Benderitter, M., Durand, C., Ebrahimian, T.G., Grégoire, E., Grison, S., Ibanez, C., Legendre, A., Lestaevel, P., Roch-Lefèvre, S., Roy, L., Tack, K., Wyatt, H., Leblanc, J., Jourdain, J.-R., Klokov, D., Institut de Radioprotection et de Sûreté Nucléaire (IRSN), Canadian Nuclear Safety Commission (CNSC), and Atomic Energy of Canada Limited, AECLCanadian Nuclear Safety Commission, CNSC R535.1CANDU Owners Group, COG 30213

Subjects
inorganic chemicals, [SDV]Life Sciences [q-bio]
Abstract

International audience; Existing and future nuclear fusion technologies involve the production and use of large quantities of tritium, a highly volatile, but low toxicity beta-emitting isotope of hydrogen. Tritium has received international attention because of public and scientific concerns over its release to the environment and the potential health impact of its internalization. This article provides a brief summary of the current state of knowledge of both the biological and regulatory aspects of tritium exposure; it also explores the gaps in this knowledge and provides recommendations on the best ways forward for improving our understanding of the health effects of low-level exposure to it. Linking health effects specifically to tritium exposure is challenging in epidemiological studies due to high uncertainty in tritium dosimetry and often suboptimal cohort sizes. We therefore argued that limits for tritium in drinking water should be based on evidence derived from controlled in vivo animal tritium toxicity studies that use realistically low levels of tritium. This article presents one such mouse study, undertaken within an international collaboration, and discusses the implications of its main findings, such as the similarity of the biokinetics of tritiated water (HTO) and organically bound tritium (OBT) and the higher biological effectiveness of OBT. This discussion is consistent with the position expressed in this article that in vivo animal tritium toxicity studies carried out within large, multi-partner collaborations allow evaluation of a great variety of health-related endpoints and essential to the development of international consensus on the regulation of tritium levels in the environment. Environ. Mol. Mutagen. 59586–594, 2018. © 2018 The Authors Environmental and Molecular Mutagenesis published by Wiley Periodicals, Inc. on behalf of Environmental Mutagen Society. © 2018 The Authors Environmental and Molecular Mutagenesis published by Wiley Periodicals, Inc. on behalf of Environmental Mutagen Society

Published
2018
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13. Cytogenetic damage analysis in mice chronically exposed to low-dose internal tritium beta-particle radiation

Author

Roch-Lefèvre, S., Grégoire, E., Martin-Bodiot, C., Flegal, M., Fréneau, A., Blimkie, M., Bannister, L., Wyatt, H., Barquinero, J.-F., Roy, L., Benadjaoud, M., Priest, N., Jourdain, J.-R., Klokov, D., PSE-SANTE, Institut de Radioprotection et de Sûreté Nucléaire (IRSN), Autonomous University of Barcelona, and Institut de Radioprotection et de SÛreté Nucléaire, IRSNCanadian Nuclear Safety Commission, CNSCCANDU Owners Group, COG

Subjects
[SDV]Life Sciences [q-bio]
Abstract

International audience; The aim of this study was to carry out a comprehensive examination of potential genotoxic effects of low doses of tritium delivered chronically to mice and to compare these effects to the ones resulting from equivalent doses of gamma-irradiation. Mice were chronically exposed for one or eight months to either tritiated water (HTO) or organically bound tritium (OBT) in drinking water at concentrations of 10 kBq/L, 1 MBq/L or 20 MBq/L. Dose rates of internal β-particle resulting from such tritium treatments were calculated and matching external gamma-exposures were carried out. We measured cytogenetic damage in bone marrow and in peripheral blood lymphocytes (PBLs) and the cumulative tritium doses (0.009 - 181 mGy) were used to evaluate the dose-response of OBT in PBLs, as well as its relative biological effectiveness (RBE). Neither tritium, nor gamma exposures produced genotoxic effects in bone marrow. However, significant increases in chromosome damage rates in PBLs were found as a result of chronic OBT exposures at 1 and 20 M Bq/L, but not at 10 kBq/L. When compared to an external acute gamma-exposure ex vivo, the RBE of OBT for chromosome aberrations induction was evaluated to be significantly higher than 1 at cumulative tritium doses below 10 mGy. Although found non-existent at 10 kBq/L (the WHO limit), the genotoxic potential of low doses of tritium ( > 10 kBq/L), mainly OBT, may be higher than currently assumed. © Roch-Lefèvre et al.

Published
2018
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15. Models of forest machines based on reliability

Author

Klokov, D. V. and Turlay, I. V.

Subjects
models of forest machines, forest machines, reliability of forest machines
Abstract

A new model of forestry systems taking into account technical and technological failures at various stages of work is proposed, the formulas to determine the effectiveness of systems according to the criteria determining the probabilities of states with rational parameters of operation (flow rate of raw materials, their processing and repair of equipment) are offered.

Published
2012

23. The influence of very low dose rate gamma-radiation on genetic structures of mice: molecular and cytogenetic study.

Author

Osipov, A. N., Elakov, A. L., Puchkov, P. V., Sypin, V. D., Pomerantseva, M. D., Ramaiya, L. K., Shevchenko, V. A., and Klokov, D. Yu.

Subjects
MOLECULAR genetics, CYTOGENETICS, RADIATION, LYMPHOCYTES, MICE
Abstract

The results of investigation of molecular genetic and cytogenetic characteristics of CBA/lac male mice exposed to continuous very low dose rate gamma-radiation (0.17 cGy/day) during 40, 80, 120, and 210 days are presented in this study. Total accumulated doses were 6.8, 13.6, 20.4, 35.7 cGy, respectively. The parameters studied were levels of DNA-protein cross-links (DPCs) and DNA breaks in spleen lymphocytes (SLs), as well as percentage of bone marrow polychromatic erythrocytes with micronuclei (MNPCEs) and peripheral blood normochromatic erythrocytes with micronuclei (MNNCEs), using the DNA precipitation, the DNA alkali unwinding, the single cell gel electrophoresis (comet) assays and the micronucleus test, respectively. In addition, the induction of DNA damage in SLs after incubation with hydrogen peroxide (H2O2 at 0.1-5 mM) was studied. An increase in the sensitivity of SLs to H2O2 was revealed at 40 days of irradiation (6.7 cGy) as compared to SLs from non-irradiated control animals. However, after 120 days of exposure to radiation (20.4 cGy), SLs became more resistant to H2O2 treatment. This effect could be attributed to a development of adaptation processes triggered upon accumulation of a certain dose (in our experiments it is 〉20 cGy). Beginning from 80 days of irradiation (13.6 cGy), an increased level of DNA relaxation was observed, most likely indicating the induction of proliferation of SLs. Noteworthy is that populations of cells with markedly high level of DNA damage and apoptotic cells were registered. A level of DPCs in SLs was increased at 40 days of point only. No increase in bone marrow MNPCE or peripheral blood MNCCE in mice continuously exposed to very low-dose rate radiation was registered as compared with non-irradiated mice. [ABSTRACT FROM AUTHOR]

Published
2004
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27. Models of forest machines based on reliability

Author

Klokov, D. V., Turlay, I. V., Klokov, D. V., and Turlay, I. V.

Abstract

A new model of forestry systems taking into account technical and technological failures at various stages of work is proposed, the formulas to determine the effectiveness of systems according to the criteria determining the probabilities of states with rational parameters of operation (flow rate of raw materials, their processing and repair of equipment) are offered.

28. Residual γH2AX foci as an indication of lethal DNA lesions

Author

Banuelos C Adriana, MacPhail Susan H, Klokov Dmitry, Banáth Judit P, and Olive Peggy L

Subjects
Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282
Abstract

Abstract Background Evidence suggests that tumor cells exposed to some DNA damaging agents are more likely to die if they retain microscopically visible γH2AX foci that are known to mark sites of double-strand breaks. This appears to be true even after exposure to the alkylating agent MNNG that does not cause direct double-strand breaks but does produce γH2AX foci when damaged DNA undergoes replication. Methods To examine this predictive ability further, SiHa human cervical carcinoma cells were exposed to 8 DNA damaging drugs (camptothecin, cisplatin, doxorubicin, etoposide, hydrogen peroxide, MNNG, temozolomide, and tirapazamine) and the fraction of cells that retained γH2AX foci 24 hours after a 30 or 60 min treatment was compared with the fraction of cells that lost clonogenicity. To determine if cells with residual repair foci are the cells that die, SiHa cervical cancer cells were stably transfected with a RAD51-GFP construct and live cell analysis was used to follow the fate of irradiated cells with RAD51-GFP foci. Results For all drugs regardless of their mechanism of interaction with DNA, close to a 1:1 correlation was observed between clonogenic surviving fraction and the fraction of cells that retained γH2AX foci 24 hours after treatment. Initial studies established that the fraction of cells that retained RAD51 foci after irradiation was similar to the fraction of cells that retained γH2AX foci and subsequently lost clonogenicity. Tracking individual irradiated live cells confirmed that SiHa cells with RAD51-GFP foci 24 hours after irradiation were more likely to die. Conclusion Retention of DNA damage-induced γH2AX foci appears to be indicative of lethal DNA damage so that it may be possible to predict tumor cell killing by a wide variety of DNA damaging agents simply by scoring the fraction of cells that retain γH2AX foci.

Published
2010
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29. Residual gammaH2AX foci as an indication of lethal DNA lesions.

Author

Banáth JP, Klokov D, Macphail SH, Banuelos CA, Olive PL, Banáth, Judit P, Klokov, Dmitry, MacPhail, Susan H, Banuelos, C Adriana, and Olive, Peggy L

Abstract

Background: Evidence suggests that tumor cells exposed to some DNA damaging agents are more likely to die if they retain microscopically visible gammaH2AX foci that are known to mark sites of double-strand breaks. This appears to be true even after exposure to the alkylating agent MNNG that does not cause direct double-strand breaks but does produce gammaH2AX foci when damaged DNA undergoes replication.Methods: To examine this predictive ability further, SiHa human cervical carcinoma cells were exposed to 8 DNA damaging drugs (camptothecin, cisplatin, doxorubicin, etoposide, hydrogen peroxide, MNNG, temozolomide, and tirapazamine) and the fraction of cells that retained gammaH2AX foci 24 hours after a 30 or 60 min treatment was compared with the fraction of cells that lost clonogenicity. To determine if cells with residual repair foci are the cells that die, SiHa cervical cancer cells were stably transfected with a RAD51-GFP construct and live cell analysis was used to follow the fate of irradiated cells with RAD51-GFP foci.Results: For all drugs regardless of their mechanism of interaction with DNA, close to a 1:1 correlation was observed between clonogenic surviving fraction and the fraction of cells that retained gammaH2AX foci 24 hours after treatment. Initial studies established that the fraction of cells that retained RAD51 foci after irradiation was similar to the fraction of cells that retained gammaH2AX foci and subsequently lost clonogenicity. Tracking individual irradiated live cells confirmed that SiHa cells with RAD51-GFP foci 24 hours after irradiation were more likely to die.Conclusion: Retention of DNA damage-induced gammaH2AX foci appears to be indicative of lethal DNA damage so that it may be possible to predict tumor cell killing by a wide variety of DNA damaging agents simply by scoring the fraction of cells that retain gammaH2AX foci. [ABSTRACT FROM AUTHOR]

Published
2010
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30. Investigation of the low-dose γ-irradiation effect on the spontaneous and high-dose radiation-induced level of cytogenetic damage in mouse bone marrow cells in vivo.

Author

Zaichkina, S. I., Rozanova, O. M., Aptikaeva, G. F., Akhmadieva, A. Kh., Klokov, D. Yu., Smirnova, H. N., and Balakin, V. E.

Subjects
IRRADIATION, CYTOGENETICS, NUCLEOLUS, BONE marrow, MUTAGENESIS
Abstract

The effect of low-dose gamma-irradiation (0.1 or 0.2 Gy with a dose rate of 0.125 Gy/min) of mice on the spontaneous and high-dose radiation-induced level of cytogenetic damage during ageing of animals was studied using the micronucleus test. It was shown that a single low dose of gamma-radiation induces a cytogenetic adaptive response in mouse bone marrow cells, which persists for up to 12 months after irradiation; the ability of inducing the adaptive response does not depend on the age of animals at the moment of adapting irradiation; single low-dose γ-irradiation decreases the cytogenetic damage to a level below the spontaneous rate at the end of the lifetime (20 months) of animals. The mechanisms underlying adaptive response not only protect from cytogenetic damage induced by high-dose irradiation but also may play a role during spontaneous mutagenesis. [ABSTRACT FROM AUTHOR]

Published
2006
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31. Investigation of the low-dose y-irradiation effect on the spontaneous and high-dose radiation-induced level of cytogenetic damage in mouse bone marrow cells in vivo.

Author

Zaichkina, S. I., Rozanova, O. M., Aptikaeva, G. F., Akhmadieva, A. Kh., Klokov, D. Yu., Smirnova, H. N., and Balakin, V. E.

Subjects
IRRADIATION, RADIATION doses, BONE marrow cells, CYTOGENETICS, LABORATORY mice
Abstract

Presents an abstract of a study on the low-dose y-irradiation effect on the spontaneous and high-dose radiation-induced level of cytogenetic damage in mouse bone marrow cells in vivo. Test used to examine the effect of low-dose gamma-irradiation of mice on the spontaneous and high-dose radiation induced level of cytogenetic damage during aging of animals; Effect of a single low dose of gamma radiation on cytogenetic adaptive response in mouse bone marrow cells; Mechanism that may play a role during spontaneous mutagenesis.

Published
2005

32. Exposure to tungsten particles via inhalation triggers early toxicity marker expression in the rat brain.

Author

Macé L, Brizais C, Bachelot F, Manoury A, Thomé S, Gloaguen C, Garali I, Magneron V, Monceau V, Sache A, Voyer F, Elie C, Roy L, Gensdarmes F, Klokov D, Block ML, and Ibanez C

Subjects
Animals, Male, Rats, Biomarkers metabolism, Microglia drug effects, Microglia metabolism, Neurons drug effects, Neurons metabolism, Lung drug effects, Lung metabolism, Olfactory Bulb drug effects, Olfactory Bulb metabolism, Apoptosis drug effects, Oxidative Stress drug effects, Tungsten toxicity, Inhalation Exposure adverse effects, Brain drug effects, Brain metabolism, Rats, Wistar
Abstract

Objective: Our work is focused on tungsten, considered as an emerging contaminant. Its environmental dispersion is partly due to mining and military activities. Exposure scenario can also be occupational, in areas such as the hard metal industry and specific nuclear facilities. Our study investigated the cerebral effects induced by the inhalation of tungsten particles., Methods: Inhalation exposure campaigns were carried out at two different concentrations (5 and 80 mg/m 3 ) in single and repeated modes (4 consecutive days) in adult rats within a nose-only inhalation chamber. Processes involved in brain toxicity were investigated 24 h after exposure., Results and Discussion: Site-specific effects in terms of neuroanatomy and concentration-dependent changes in specific cellular actors were observed. Results obtained in the olfactory bulb suggest a potential early effect on the survival of microglial cells. Depending on the mode of exposure, these cells showed a decrease in density accompanied by an increase in an apoptotic marker. An abnormal phenotype of the nuclei of mature neurons, suggesting neuronal suffering, was also observed in the frontal cortex, and can be linked to the involvement of oxidative stress. The differential effects observed according to exposure patterns could involve two components: local (brain-specific) and/or systemic. Indeed, tungsten, in addition to being found in the lungs and kidneys, was present in the brain of animals exposed to the high concentration., Conclusion: Our data question the perceived innocuity of tungsten relative to other metals and raise hypotheses regarding possible adaptive or neurotoxic mechanisms that could ultimately alter neuronal integrity.

Published
2024
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33. Artificial intelligence in biology and medicine, and radioprotection research: perspectives from Jerusalem.

Author

Socol Y, Richardson A, Garali-Zineddine I, Grison S, Vares G, and Klokov D

Abstract

While AI is widely used in biomedical research and medical practice, its use is constrained to few specific practical areas, e.g., radiomics. Participants of the workshop on "Artificial Intelligence in Biology and Medicine" (Jerusalem, Feb 14-15, 2023), both researchers and practitioners, aimed to build a holistic picture by exploring AI advancements, challenges and perspectives, as well as to suggest new fields for AI applications. Presentations showcased the potential of large language models (LLMs) in generating molecular structures, predicting protein-ligand interactions, and promoting democratization of AI development. Ethical concerns in medical decision making were also addressed. In biological applications, AI integration of multi-omics and clinical data elucidated the health relevant effects of low doses of ionizing radiation. Bayesian latent modeling identified statistical associations between unobserved variables. Medical applications highlighted liquid biopsy methods for non-invasive diagnostics, routine laboratory tests to identify overlooked illnesses, and AI's role in oral and maxillofacial imaging. Explainable AI and diverse image processing tools improved diagnostics, while text classification detected anorexic behavior in blog posts. The workshop fostered knowledge sharing, discussions, and emphasized the need for further AI development in radioprotection research in support of emerging public health issues. The organizers plan to continue the initiative as an annual event, promoting collaboration and addressing issues and perspectives in AI applications with a focus on low-dose radioprotection research. Researchers involved in radioprotection research and experts in relevant public policy domains are invited to explore the utility of AI in low-dose radiation research at the next workshop., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2024 Socol, Richardson, Garali-Zineddine, Grison, Vares and Klokov.)

Published
2024
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34. In utero exposure to ionizing radiation and metabolic regulation: perspectives for future multi- and trans-generation effects studies.

Author

Grison S, Braga-Tanaka II, Baatout S, and Klokov D

Subjects
Humans, Female, Animals, Pregnancy, Radiation, Ionizing, Risk Assessment, Epigenesis, Genetic radiation effects, Radiation Exposure adverse effects, Prenatal Exposure Delayed Effects
Abstract

Purpose: The radiation protection community has been particularly attentive to the risks of delayed effects on offspring from low dose or low dose-rate exposures to ionizing radiation. Despite this, the current epidemiologic studies and scientific data are still insufficient to provide the necessary evidence for improving risk assessment guidelines. This literature review aims to inform future studies on multigenerational and transgenerational effects. It primarily focuses on animal studies involving in utero exposure and discusses crucial elements for interpreting the results. These elements include in utero exposure scenarios relative to the developmental stages of the embryo/fetus, and the primary biological mechanisms responsible for transmitting heritable or hereditary effects to future generations. The review addresses several issues within the contexts of both multigenerational and transgenerational effects, with a focus on hereditary perspectives., Conclusions: Knowledge consolidation in the field of Developmental Origins of Health and Disease (DOHaD) has led us to propose a new study strategy. This strategy aims to address the transgenerational effects of in utero exposure to low dose and low dose-rate radiation. Within this concept, there is a possibility that disruption of epigenetic programming in embryonic and fetal cells may occur. This disruption could lead to metabolic dysfunction, which in turn may cause abnormal responses to future environmental challenges, consequently increasing disease risk. Lastly, we discuss methodological limitations in our studies. These limitations are related to cohort size, follow-up time, model radiosensitivity, and analytical techniques. We propose scientific and analytical strategies for future research in this field.

Published
2024
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35. The scientific basis for the use of the linear no-threshold (LNT) model at low doses and dose rates in radiological protection.

Author

Laurier D, Billarand Y, Klokov D, and Leuraud K

Subjects
Humans, Linear Models, Radiobiology, Carcinogenesis, Dose-Response Relationship, Radiation, Risk Assessment methods, Radiation Protection, Neoplasms, Radiation-Induced prevention & control, Neoplasms, Radiation-Induced epidemiology
Abstract

The linear no-threshold (LNT) model was introduced into the radiological protection system about 60 years ago, but this model and its use in radiation protection are still debated today. This article presents an overview of results on effects of exposure to low linear-energy-transfer radiation in radiobiology and epidemiology accumulated over the last decade and discusses their impact on the use of the LNT model in the assessment of radiation-related cancer risks at low doses. The knowledge acquired over the past 10 years, both in radiobiology and epidemiology, has reinforced scientific knowledge about cancer risks at low doses. In radiobiology, although certain mechanisms do not support linearity, the early stages of carcinogenesis comprised of mutational events, which are assumed to play a key role in carcinogenesis, show linear responses to doses from as low as 10 mGy. The impact of non-mutational mechanisms on the risk of radiation-related cancer at low doses is currently difficult to assess. In epidemiology, the results show excess cancer risks at dose levels of 100 mGy or less. While some recent results indicate non-linear dose relationships for some cancers, overall, the LNT model does not substantially overestimate the risks at low doses. Recent results, in radiobiology or in epidemiology, suggest that a dose threshold, if any, could not be greater than a few tens of mGy. The scientific knowledge currently available does not contradict the use of the LNT model for the assessment of radiation-related cancer risks within the radiological protection system, and no other dose-risk relationship seems more appropriate for radiological protection purposes., (Creative Commons Attribution license.)

Published
2023
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36. Ionizing radiation exposure during adulthood and risk of developing central nervous system tumors: systematic review and meta-analysis.

Author

Lopes J, Baudin C, Leuraud K, Klokov D, and Bernier MO

Subjects
Adult, Environmental Exposure, Humans, Radiation, Ionizing, Young Adult, Central Nervous System Neoplasms epidemiology, Central Nervous System Neoplasms etiology, Nuclear Weapons, Occupational Exposure adverse effects, Radiation Exposure adverse effects
Abstract

Many studies on ionizing radiation (IR) exposure during childhood have shown deleterious effects on the central nervous system (CNS), however results regarding adult exposure are inconsistent, and no systematic reviews have been performed. The objectives are to synthesize the findings and draw evidence-based conclusions from epidemiological studies on the risk of benign and malignant brain and CNS tumors in humans exposed to low-to-moderate doses (< 0.5 Gy) of IR during adulthood/young adulthood. A systematic literature search of four electronic databases, supplemented by a hand search, was performed to retrieve relevant epidemiological studies published from 2000 to 2022. Pooled excess relative risk (ERR pooled ) was estimated using a random effect model. Eighteen publications were included in the systematic review and twelve out of them were included in a meta-analysis. The following IR sources were considered: atomic bombs, occupational, and environmental exposures. No significant dose-risk association was found for brain/CNS tumors (ERR pooled at 100 mGy = - 0.01; 95% CI: - 0.05, 0.04). Our systematic review and meta-analysis did not show any association between exposure to low-to-moderate doses of IR and risk of CNS tumors. Further studies with histological information and precise dose assessment are needed., (© 2022. The Author(s).)

Published
2022
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37. Risk of Developing Non-Cancerous Central Nervous System Diseases Due to Ionizing Radiation Exposure during Adulthood: Systematic Review and Meta-Analyses.

Author

Lopes J, Leuraud K, Klokov D, Durand C, Bernier MO, and Baudin C

Abstract

Background: High-dose ionizing radiation (IR) (>0.5 Gy) is an established risk factor for cognitive impairments, but this cannot be concluded for low-to-moderate IR exposure (<0.5 Gy) in adulthood as study results are inconsistent. The objectives are to summarize relevant epidemiological studies of low-to-moderate IR exposure in adulthood and to assess the risk of non-cancerous CNS diseases. Methods: A systematic literature search of four electronic databases was performed to retrieve relevant epidemiological studies published from 2000 to 2022. Pooled standardized mortality ratios, relative risks, and excess relative risks (ERR) were estimated with a random effect model. Results: Forty-five publications were included in the systematic review, including thirty-three in the quantitative meta-analysis. The following sources of IR-exposure were considered: atomic bomb, occupational, environmental, and medical exposure. Increased dose-risk relationships were found for cerebrovascular diseases incidence and mortality (ERRpooled per 100 mGy = 0.04; 95% CI: 0.03−0.05; ERRpooled at 100 mGy = 0.01; 95% CI: −0.00−0.02, respectively) and for Parkinson’s disease (ERRpooled at 100 mGy = 0.11; 95% CI: 0.06−0.16); Conclusions: Our findings suggest that adult low-to-moderate IR exposure may have effects on non-cancerous CNS diseases. Further research addressing inherent variation issues is encouraged.

Published
2022
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38. International expert group collaboration for developing an adverse outcome pathway for radiation induced leukemia.

Author

Klokov D, Applegate K, Badie C, Brede DA, Dekkers F, Karabulutoglu M, Le Y, Rutten EA, Lumniczky K, and Gomolka M

Subjects
Humans, Adverse Outcome Pathways, Leukemia, Radiation-Induced, Radiation Protection
Abstract

Purpose: The concept of the adverse outcome pathway (AOP) has recently gained significant attention as to its potential for incorporation of mechanistic biological information into the assessment of adverse health outcomes following ionizing radiation (IR) exposure. This work is an account of the activities of an international expert group formed specifically to develop an AOP for IR-induced leukemia. Group discussions were held during dedicated sessions at the international AOP workshop jointly organized by the MELODI (Multidisciplinary European Low Dose Initiative) and the ALLIANCE (European Radioecology Alliance) associations to consolidate knowledge into a number of biological key events causally linked by key event relationships and connecting a molecular initiating event with the adverse outcome. Further knowledge review to generate a weight of evidence support for the Key Event Relationships (KERs) was undertaken using a systematic review approach., Conclusions: An AOP for IR-induced acute myeloid leukemia was proposed and submitted for review to the OECD-curated AOP-wiki (aopwiki.org). The systematic review identified over 500 studies that link IR, as a stressor, to leukemia, as an adverse outcome. Knowledge gap identification, although requiring a substantial effort via systematic review of literature, appears to be one of the major added values of the AOP concept. Further work, both within this leukemia AOP working group and other similar working groups, is warranted and is anticipated to produce highly demanded products for the radiation protection research community.

Published
2022
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39. Radiation adverse outcome pathways (AOPs) are on the horizon: advancing radiation protection through an international Horizon-Style exercise.

Author

Burtt JJ, Leblanc J, Randhawa K, Ivanova A, Rudd MA, Wilkins R, Azzam EI, Hecker M, Horemans N, Vandenhove H, Adam-Guillermin C, Armant O, Klokov D, Audouze K, Kaiser JC, Moertl S, Lumniczky K, Tanaka IB 3rd, Yamada Y, Hamada N, Al-Nabulsi I, Preston RJ, Bouffler S, Applegate K, Cool D, Beaton D, Tollefsen KE, Garnier-Laplace J, Laurier D, and Chauhan V

Subjects
Risk Assessment methods, Research Design, Surveys and Questionnaires, Adverse Outcome Pathways, Radiation Protection
Abstract

Purpose: The Adverse Outcome Pathway (AOP) framework, a systematic tool that can link available mechanistic data with phenotypic outcomes of relevance to regulatory decision-making, is being explored in areas related to radiation risk assessment. To examine the challenges including the use of AOPs to support the radiation protection community, an international horizon-style exercise was initiated through the Organisation for Economic Co-operation and Development Nuclear Energy Agency High-Level Group on Low Dose Research Radiation/Chemical AOP Joint Topical Group. The objective of the HSE was to facilitate the collection of ideas from a range of experts, to short-list a set of priority research questions that could, if answered, improve the description of the radiation dose-response relationship for low dose/dose-rate exposures, as well as reduce uncertainties in estimating the risk of developing adverse health outcomes following such exposures., Materials and Methods: The HSE was guided by an international steering committee of radiation risk experts. In the first phase, research questions were solicited on areas that can be supported by the AOP framework, or challenges on the use of AOPs in radiation risk assessment. In the second phase, questions received were refined and sorted by the SC using a best-worst scaling method. During a virtual 3-day workshop, the list of questions was further narrowed. In the third phase, an international survey of the broader radiation protection community led to an orderly ranking of the top questions., Results: Of the 271 questions solicited, 254 were accepted and categorized into 9 themes. These were further refined to the top 25 prioritized questions. Among these, the higher ranked questions will be considered as 'important' to drive future initiatives in the low dose radiation protection community. These included questions on the ability of AOPs to delineate responses across different levels of biological organization, and how AOPs could be applied to address research questions on radiation quality, doses or dose-rates, exposure time patterns and deliveries, and uncertainties in low dose/dose-rate effects. A better understanding of these concepts is required to support the use of the AOP framework in radiation risk assessment., Conclusion: Through dissemination of these results and considerations on next steps, the JTG will address select priority questions to advance the development and use of AOPs in the radiation protection community. The major themes observed will be discussed in the context of their relevance to areas of research that support the system of radiation protection.

Published
2022
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40. Biomarkers of Genotoxicity in Medical Workers Exposed to Low-Dose Ionizing Radiation: Systematic Review and Meta-Analyses.

Author

Baudin C, Bernier MO, Klokov D, and Andreassi MG

Subjects
Dose-Response Relationship, Radiation, Humans, Occupational Exposure adverse effects, Biomarkers analysis, Chromosome Aberrations radiation effects, DNA Damage, Health Personnel statistics & numerical data, Occupational Exposure analysis, Radiation, Ionizing
Abstract

Medical staff represent the largest group of workers occupationally exposed to ionizing radiation (IR). Chronic exposure to low-dose IR may result in DNA damage and genotoxicity associated with increased risk of cancer. This review aims to identify the genotoxicity biomarkers that are the most elevated in IR-exposed vs. unexposed health workers. A systematic review of the literature was performed to retrieve relevant studies with various biomarkers of genotoxicity. Subsequent meta-analyses produced a pooled effect size for several endpoints. The search procedure yielded 65 studies. Chromosome aberrations (CA) and micronuclei (MN) frequencies were significantly different between IR-exposed and unexposed workers (θ pooled = 3.19, 95% CI 1.46-4.93; and θ pooled = 1.41, 95% CI 0.97-1.86, for total aberrant cells and MN frequencies, respectively), which was not the case for ring chromosomes and nucleoplasmic bridges. Although less frequently used, stable translocations, sister chromatid exchanges (SCE) and comet assay endpoints were also statistically different between IR-exposed and unexposed workers. This review confirms the relevance of CA and MN as genotoxicity biomarkers that are consistently elevated in IR-exposed vs. unexposed workers. Other endpoints are strong candidates but require further studies to validate their usefulness. The integration of the identified biomarkers in future prospective epidemiological studies is encouraged.

Published
2021
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41. Ionizing Radiation and Translation Control: A Link to Radiation Hormesis?

Author

Kabilan U, Graber TE, Alain T, and Klokov D

Subjects
Animals, Humans, RNA, Messenger genetics, Radiation, Ionizing, Signal Transduction genetics, Hormesis genetics, Protein Biosynthesis genetics
Abstract

Protein synthesis, or mRNA translation, is one of the most energy-consuming functions in cells. Translation of mRNA into proteins is thus highly regulated by and integrated with upstream and downstream signaling pathways, dependent on various transacting proteins and cis-acting elements within the substrate mRNAs. Under conditions of stress, such as exposure to ionizing radiation, regulatory mechanisms reprogram protein synthesis to translate mRNAs encoding proteins that ensure proper cellular responses. Interestingly, beneficial responses to low-dose radiation exposure, known as radiation hormesis, have been described in several models, but the molecular mechanisms behind this phenomenon are largely unknown. In this review, we explore how differences in cellular responses to high- vs. low-dose ionizing radiation are realized through the modulation of molecular pathways with a particular emphasis on the regulation of mRNA translation control.

Published
2020
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43. Ionizing radiation affects miRNA composition in both young and old mice.

Author

Bugden M, Billing S, Mak KC, Norton F, Klokov D, and Wang Y

Subjects
Animals, Biomarkers, Dose-Response Relationship, Radiation, Gamma Rays, Gene Expression Profiling, Immune System radiation effects, Male, Mice, Mice, Inbred C57BL, MicroRNAs blood, Phenotype, Radiobiology, Aging, Cobalt Radioisotopes, MicroRNAs metabolism, Radiation, Ionizing
Abstract

Purpose: Humans are exposed to both natural (e.g. soil, cosmic rays) and human-made radiation sources (e.g. medical devices, nuclear energy production) on a daily basis. The use of medical radiation sources such as Computed Tomography (CT) scans and X-ray has increased rapidly, especially in the treatment of older populations. Micro Ribonucleic Acids (miRNAs) are the major regulators of multiple low-dose radiation-induced biological processes through post-translational inhibition. As a result, understanding age-related changes of miRNA profiles that may compromise the population after low dose radiation exposure has become increasingly important. Materials and methods: In this study, we irradiated both young (2 months) and old (26 months) C57BL/6J mice with low dose radiation (10 mGy and 100 mGy at 1 mGy/min using an open beam 60 Co gamma source) and checked the miRNA expression profiles. Results: The global miRNA expression of old mice was significantly reduced compared to that of young mice. Low dose radiation at 10 mGy significantly increased the global miRNA expression in both old and young mice one week following irradiation, which suggests that 10 mGy low dose radiation may reverse the global inhibition effects of aging on miRNA expression. Higher 100 mGy radiation slightly reduced the global expression of miRNAs. We also identified several miRNAs that were elevated or reduced in all of the radiation treatment groups; these can be further explored as candidates for the radiation-induced bio-markers. Conclusions: The results of our study demonstrate that both radiation and aging can influence the global expression of miRNAs, while low dose radiation modulates the expression of miRNAs in a dose-, time-, and age-dependent manner.

Published
2019
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44. Low-dose radiobiology program at Canadian nuclear laboratories: past, present, and future.

Author

Wang Y, Bannister LA, Sebastian S, Le Y, Ismail Y, Didychuk C, Richardson RB, Flegal F, Paterson LC, Causey P, Fawaz A, Wyatt H, Priest N, and Klokov D

Subjects
Algorithms, Animals, Canada, DNA Repair, Disease Models, Animal, Humans, Immune System, International Cooperation, Linear Models, Mice, Mitochondria radiation effects, Neoplasms radiotherapy, Neoplasms, Radiation-Induced epidemiology, Neoplasms, Radiation-Induced prevention & control, Neutrons, Radiometry, Reactive Oxygen Species, Stem Cells, Nuclear Energy, Radiobiology trends, Research trends
Abstract

Health risks associated with the exposure of humans to low-dose ionizing radiation are currently estimated using the Linear-No-Threshold model. Over the last few decades, however, this model has been widely criticized for inconsistency with a large body of experimental evidence. Substantial efforts have been made to delineate biological mechanisms and health-related outcomes of low-dose radiation. These include a large DOE-funded Low Dose program operated in the 2000s, as well as the EU funded programs, previously NOTE and DOREMI and currently MELODI. Although not as widely known, the Atomic Energy of Canada Limited (AECL) in Chalk River, operated a low-dose radiobiology program since as early as 1948. The Canadian Nuclear Laboratories (CNL), the successor to AECL since 2015, has expanded this program into new areas making it the world's most robust, centrally coordinated and long-lived research efforts to delineate the biological effects of low-dose radiation. The purpose of this review is to provide a high-level overview of the low-dose radiobiology program maintained at CNL while capturing the historical perspectives. Past studies carried out at CNL have substantially influenced the area of low-dose radiobiology, exemplified by highly cited papers showing delays in spontaneous tumorigenesis in low-dose irradiated mice. The current low-dose research program at CNL is not only addressing a wide range of mechanistic questions about the biological effects of low doses - from genetic to epigenetic to immunological questions - but also moving toward novel areas, such as the dosimetry and health consequences of space radiation and the use of low-dose radiation in cancer therapy and regenerative medicine.

Published
2019
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45. Funding for radiation research: past, present and future.

Author

Cho K, Imaoka T, Klokov D, Paunesku T, Salomaa S, Birschwilks M, Bouffler S, Brooks AL, Hei TK, Iwasaki T, Ono T, Sakai K, Wojcik A, Woloschak GE, Yamada Y, and Hamada N

Subjects
Animals, Canada, European Union, History, 19th Century, History, 20th Century, History, 21st Century, Humans, Japan, Radiation Injuries, Radiation Protection methods, Radiation, Ionizing, Radioactive Hazard Release, Radiobiology education, Radiotherapy adverse effects, Radiotherapy trends, Republic of Korea, Research, United States, Radiation Exposure, Radiobiology economics, Radiobiology trends, Radiotherapy economics, Research Support as Topic history, Research Support as Topic trends
Abstract

For more than a century, ionizing radiation has been indispensable mainly in medicine and industry. Radiation research is a multidisciplinary field that investigates radiation effects. Radiation research was very active in the mid- to late 20th century, but has then faced challenges, during which time funding has fluctuated widely. Here we review historical changes in funding situations in the field of radiation research, particularly in Canada, European Union countries, Japan, South Korea, and the US. We also provide a brief overview of the current situations in education and training in this field. A better understanding of the biological consequences of radiation exposure is becoming more important with increasing public concerns on radiation risks and other radiation literacy. Continued funding for radiation research is needed, and education and training in this field are also important.

Published
2019
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46. Formation of γH2AX and pATM Foci in Human Mesenchymal Stem Cells Exposed to Low Dose-Rate Gamma-Radiation.

Author

Ulyanenko S, Pustovalova M, Koryakin S, Beketov E, Lychagin A, Ulyanenko L, Kaprin A, Grekhova A, M Ozerova A, V Ozerov I, Vorobyeva N, Shegay P, Ivanov S, Leonov S, Klokov D, and Osipov AN

Subjects
Cells, Cultured, DNA Breaks, Double-Stranded, Humans, Mesenchymal Stem Cells metabolism, Ataxia Telangiectasia Mutated Proteins metabolism, Gamma Rays, Histones metabolism, Mesenchymal Stem Cells radiation effects
Abstract

DNA double-strand breaks (DSB) are among the most harmful DNA lesions induced by ionizing radiation (IR). Although the induction and repair of radiation-induced DSB is well studied for acute irradiation, responses to DSB produced by chronic IR exposures are poorly understood, especially in human stem cells. The aim of this study was to examine the formation of DSB markers (γH2AX and phosphorylated kinase ATM, pATM, foci) in human mesenchymal stem cells (MSCs) exposed to chronic gamma-radiation (0.1 mGy/min) in comparison with acute irradiation (30 mGy/min) at cumulative doses of 30, 100, 160, 240 and 300 mGy. A linear dose-dependent increase in the number of both γH2AX and pATM foci, as well as co-localized γH2AX/pATM foci ("true" DSB), were observed after an acute radiation exposure. In contrast, the response of MSCs to a chronic low dose-rate IR exposure deviated from linearity towards a threshold model, for γH2AX, pATM foci and γH2AX/pATM foci, with an indication of a "plateau". The state of equilibrium between newly formed DSB at a low rate during the protracted exposure time and the elimination of a fraction of DSB is proposed as a mechanistic explanation of the non-linear DSB responses following a low dose-rate irradiation. This notion is supported by the observation of the elimination of a substantial fraction of DSB 6 h after the cessation of the exposures. Our results demonstrate non-linear dose responses for γH2AX and pATM foci in human MSCs exposed to low dose-rate IR and showed the existence of a threshold, which may have implications for radiation protection in humans.

Published
2019
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47. In vivo animal studies help achieve international consensus on standards and guidelines for health risk estimates for chronic exposure to low levels of tritium in drinking water.

Author

Guéguen Y, Priest ND, Dublineau I, Bannister L, Benderitter M, Durand C, Ebrahimian TG, Grégoire E, Grison S, Ibanez C, Legendre A, Lestaevel P, Roch-Lefèvre S, Roy L, Tack K, Wyatt H, Leblanc J, Jourdain JR, and Klokov D

Subjects
Amino Acids analysis, Amino Acids pharmacokinetics, Animals, Binding Sites, Consensus, Drinking Water analysis, Gamma Rays adverse effects, In Vivo Dosimetry, Male, Mice, Mice, Inbred C57BL, Models, Animal, Radiation Monitoring, Risk, Tissue Distribution, Tritium analysis, Tritium pharmacokinetics, Tritium toxicity, World Health Organization, Drinking Water adverse effects, Tritium adverse effects
Abstract

Existing and future nuclear fusion technologies involve the production and use of large quantities of tritium, a highly volatile, but low toxicity beta-emitting isotope of hydrogen. Tritium has received international attention because of public and scientific concerns over its release to the environment and the potential health impact of its internalization. This article provides a brief summary of the current state of knowledge of both the biological and regulatory aspects of tritium exposure; it also explores the gaps in this knowledge and provides recommendations on the best ways forward for improving our understanding of the health effects of low-level exposure to it. Linking health effects specifically to tritium exposure is challenging in epidemiological studies due to high uncertainty in tritium dosimetry and often suboptimal cohort sizes. We therefore argued that limits for tritium in drinking water should be based on evidence derived from controlled in vivo animal tritium toxicity studies that use realistically low levels of tritium. This article presents one such mouse study, undertaken within an international collaboration, and discusses the implications of its main findings, such as the similarity of the biokinetics of tritiated water (HTO) and organically bound tritium (OBT) and the higher biological effectiveness of OBT. This discussion is consistent with the position expressed in this article that in vivo animal tritium toxicity studies carried out within large, multi-partner collaborations allow evaluation of a great variety of health-related endpoints and essential to the development of international consensus on the regulation of tritium levels in the environment. Environ. Mol. Mutagen. 59:586-594, 2018. © 2018 The Authors Environmental and Molecular Mutagenesis published by Wiley Periodicals, Inc. on behalf of Environmental Mutagen Society., (© 2018 The Authors Environmental and Molecular Mutagenesis published by Wiley Periodicals, Inc. on behalf of Environmental Mutagen Society.)

Published
2018
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48. Cytogenetic damage analysis in mice chronically exposed to low-dose internal tritium beta-particle radiation.

Author

Roch-Lefèvre S, Grégoire E, Martin-Bodiot C, Flegal M, Fréneau A, Blimkie M, Bannister L, Wyatt H, Barquinero JF, Roy L, Benadjaoud M, Priest N, Jourdain JR, and Klokov D

Abstract

The aim of this study was to carry out a comprehensive examination of potential genotoxic effects of low doses of tritium delivered chronically to mice and to compare these effects to the ones resulting from equivalent doses of gamma-irradiation. Mice were chronically exposed for one or eight months to either tritiated water (HTO) or organically bound tritium (OBT) in drinking water at concentrations of 10 kBq/L, 1 MBq/L or 20 MBq/L. Dose rates of internal β-particle resulting from such tritium treatments were calculated and matching external gamma-exposures were carried out. We measured cytogenetic damage in bone marrow and in peripheral blood lymphocytes (PBLs) and the cumulative tritium doses (0.009 - 181 mGy) were used to evaluate the dose-response of OBT in PBLs, as well as its relative biological effectiveness (RBE). Neither tritium, nor gamma exposures produced genotoxic effects in bone marrow. However, significant increases in chromosome damage rates in PBLs were found as a result of chronic OBT exposures at 1 and 20 M Bq/L, but not at 10 kBq/L. When compared to an external acute gamma-exposure ex vivo , the RBE of OBT for chromosome aberrations induction was evaluated to be significantly higher than 1 at cumulative tritium doses below 10 mGy. Although found non-existent at 10 kBq/L (the WHO limit), the genotoxic potential of low doses of tritium (>10 kBq/L), mainly OBT, may be higher than currently assumed., Competing Interests: CONFLICTS OF INTEREST None declared.

Published
2018
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49. Vive la radiorésistance!: converging research in radiobiology and biogerontology to enhance human radioresistance for deep space exploration and colonization.

Author

Cortese F, Klokov D, Osipov A, Stefaniak J, Moskalev A, Schastnaya J, Cantor C, Aliper A, Mamoshina P, Ushakov I, Sapetsky A, Vanhaelen Q, Alchinova I, Karganov M, Kovalchuk O, Wilkins R, Shtemberg A, Moreels M, Baatout S, Izumchenko E, de Magalhães JP, Artemov AV, Costes SV, Beheshti A, Mao XW, Pecaut MJ, Kaminskiy D, Ozerov IV, Scheibye-Knudsen M, and Zhavoronkov A

Abstract

While many efforts have been made to pave the way toward human space colonization, little consideration has been given to the methods of protecting spacefarers against harsh cosmic and local radioactive environments and the high costs associated with protection from the deleterious physiological effects of exposure to high-Linear energy transfer (high-LET) radiation. Herein, we lay the foundations of a roadmap toward enhancing human radioresistance for the purposes of deep space colonization and exploration. We outline future research directions toward the goal of enhancing human radioresistance, including upregulation of endogenous repair and radioprotective mechanisms, possible leeways into gene therapy in order to enhance radioresistance via the translation of exogenous and engineered DNA repair and radioprotective mechanisms, the substitution of organic molecules with fortified isoforms, and methods of slowing metabolic activity while preserving cognitive function. We conclude by presenting the known associations between radioresistance and longevity, and articulating the position that enhancing human radioresistance is likely to extend the healthspan of human spacefarers as well., Competing Interests: CONFLICTS OF INTEREST Ivan V. Ozerov, Jane Schastnaya, Alexander Aliper, Polina Mamoshina, Quentin Vanhaelen, Artem V. Artemov, Alex Zhavoronkov, Alexey Moskalev, Evgeny Izumchenko, Dmitry Kaminskiy, Charles Cantor are associated with Insilico Medicine, Inc, an artificial intelligence company focused on drug discovery and aging research with a number of commercial projects in regenerative medicine, aging research geared towards increasing human radioresistance and longevity.

Published
2018
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50. Residual γH2AX foci induced by low dose x-ray radiation in bone marrow mesenchymal stem cells do not cause accelerated senescence in the progeny of irradiated cells.

Author

Pustovalova M, Astrelina ТA, Grekhova A, Vorobyeva N, Tsvetkova A, Blokhina T, Nikitina V, Suchkova Y, Usupzhanova D, Brunchukov V, Kobzeva I, Karaseva Т, Ozerov IV, Samoylov A, Bushmanov A, Leonov S, Izumchenko E, Zhavoronkov A, Klokov D, and Osipov AN

Subjects
Adult, Bone Marrow Cells metabolism, Bone Marrow Cells pathology, Cells, Cultured, Dose-Response Relationship, Radiation, Humans, Ki-67 Antigen metabolism, Male, Mesenchymal Stem Cells metabolism, Mesenchymal Stem Cells pathology, Signal Transduction radiation effects, Time Factors, X-Rays, beta-Galactosidase metabolism, Bone Marrow Cells radiation effects, Cell Proliferation radiation effects, Cellular Senescence radiation effects, Histones metabolism, Mesenchymal Stem Cells radiation effects
Abstract

Mechanisms underlying the effects of low-dose ionizing radiation (IR) exposure (10-100 mGy) remain unknown. Here we present a comparative study of early (less than 24h) and delayed (up to 11 post-irradiation passages) radiation effects caused by low (80 mGy) vs intermediate (1000 mGy) dose X-ray exposure in cultured human bone marrow mesenchymal stem cells (MSCs). We show that γН2АХ foci induced by an intermediate dose returned back to the control value by 24 h post-irradiation. In contrast, low-dose irradiation resulted in residual γН2АХ foci still present at 24 h. Notably, these low dose induced residual γН2АХ foci were not co-localized with рАТМ foci and were observed predominantly in the proliferating Кi67 positive (Кi67+) cells. The number of γН2АХ foci and the fraction of nonproliferating (Кi67-) and senescent (SA-β-gal+) cells measured at passage 11 were increased in cultures exposed to an intermediate dose compared to unirradiated controls. These delayed effects were not seen in the progeny of cells that were irradiated with low-dose X-rays, although such exposure resulted in residual γН2АХ foci in directly irradiated cells. Taken together, our results support the hypothesis that the low-dose IR induced residual γH2AХ foci do not play a role in delayed irradiation consequences, associated with cellular senescence in cultured MSCs.

Published
2017
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