Your search keyword '"Mothersill C"' showing total 25 results

1. Main radiation pathways in the landscape of Armenia

Author

Arakelyan, V. B., primary, Khachatryan, G. E., additional, Nalbandyan-Schwarz, A. G., additional, Mothersill, C. E., additional, Seymour, C. B., additional, and Korogodina, V. L., additional

Published

2023

2. Towards an ecological modelling approach for assessing ionizing radiation impact on wildlife populations

Author

Vives i Batlle, J, primary, Biermans, G, additional, Copplestone, D, additional, Kryshev, A, additional, Melintescu, A, additional, Mothersill, C, additional, Sazykina, T, additional, Seymour, C, additional, Smith, K, additional, and Wood, M D, additional

Published

2022

3. INCREASE IN THE SIZE OF THE SURVIVAL CURVE SHOULDER WITH INCREASING DOSE-RATES: FLASH EFFECT ON CELL SURVIVAL

Author

Fernandez-Palomo, C., primary, Pellicioli, P., additional, Fazzari, J., additional, Trappetti, V., additional, Mothersill, C., additional, Seymour, C., additional, Martin, O., additional, and Djonov, V., additional

Published

2022

4. EPD088 - INCREASE IN THE SIZE OF THE SURVIVAL CURVE SHOULDER WITH INCREASING DOSE-RATES: FLASH EFFECT ON CELL SURVIVAL

Author

Fernandez-Palomo, C., Pellicioli, P., Fazzari, J., Trappetti, V., Mothersill, C., Seymour, C., Martin, O., and Djonov, V.

Published

2022

5. EGO to ECO: Tracing the History of Radioecology from the 1950's to the Present Day.

Author

Matarèse BFE, Desai R, Oughton DH, and Mothersill C

Subjects

History, 20th Century, History, 21st Century, Humans, Animals, Ecosystem, Radiation Protection history, Ecology

Abstract

This paper starts with a brief history of the birth of the field of radioecology during the Cold War with a focus on US activity. We review the establishment of the international system for radiation protection and the science underlying the guidelines. We then discuss the famous ICRP 60 statement that if "Man" is protected, so is everything else and show how this led to a focus in radioecology on pathways to "Man" rather than concern about impacts on environments or ecosystems. We then review the contributions of Radiation Research Society members and papers published in Radiation Research which contributed to the knowledge base about effects on non-human species. These fed into international databases and computer-based tools such as ERICA and ResRad Biota to guide regulators. We then examine the origins of the concern that ICRP 60 is not sufficient to protect ecosystems and discuss the establishment of ICRP Committee 5 and its recommendations to establish reference animals and plants. The review finishes with current concerns that reference animals and plants (RAPs) are not sufficient to protect ecosystems, given the complexity of interacting factors such as the climate emergency and discusses the efforts of ICRP, the International Union of Radioecologists and other bodies to capture the concepts of ecosystem services and ecosystem complexity modelling in radioecology., (© 2024 by Radiation Research Society. All rights of reproduction in any form reserved.)

Published

2024

6. "Lethal Mutations" a Misnomer or the Start of a Scientific Revolution?

Author

Mothersill C, Desai R, Seymour CB, and Mendonca MS

Subjects

Humans, History, 20th Century, Genomic Instability radiation effects, Animals, Genes, Lethal, History, 21st Century, Mutation

Abstract

The aim of this paper is to review the history surrounding the discovery of lethal mutations, later described as delayed reproductive death. Lethal mutations were suggested very early on, to be due to a generalised instability in a cell population and are considered now to be one of the first demonstrations of "radiation-induced genomic instability" which led later to the establishment of the field of "non-targeted effects." The phenomenon was first described by Seymour et al. in 1986 and was confirmed by Trott's group in Europe and by Little and colleagues in the United States before being extended by Mendonca et al. in 1989, who showed conclusively that the distinguishing feature of lethal mutation occurrence was that it happened suddenly after about 9-10 population doublings in progeny which had survived the original dose of ionizing radiation. However, many authors then suggested that in fact, lethal mutations were implicit in the original experiments by Puck and Marcus in 1956 and were described in the extensive work by Sinclair in 1964, who followed clonal progeny for up to a year after irradiation and described "small colony formation" as a persistent consequence of ionizing radiation exposure. In this paper, we examine the history from 1956 to the present using the period from 1986-1989 as an anchor point to reach into the past and to go forward through the evolution of the field of low dose radiobiology where non-targeted effects predominate., (© 2024 by Radiation Research Society. All rights of reproduction in any form reserved.)

Published

2024

7. Factors Influencing Effects of Low-dose Radiation Exposure.

Author

Mothersill C, Seymour C, Cocchetto A, and Williams D

Subjects

Humans, DNA Damage, Mitochondria, Radiation, Ionizing, Cataract, Radiation Exposure adverse effects

Abstract

Abstract: It is now well accepted that the mechanisms induced by low-dose exposures to ionizing radiation (LDR) are different from those occurring after high-dose exposures. However, the downstream effects of these mechanisms are unclear as are the quantitative relationships between exposure, effect, harm, and risk. In this paper, we will discuss the mechanisms known to be important with an overall emphasis on how so-called "non-targeted effects" (NTE) communicate and coordinate responses to LDR. Targeted deposition of ionizing radiation energy in cells causing DNA damage is still regarded as the dominant trigger leading to all downstream events whether targeted or non-targeted. We regard this as an over-simplification dating back to formal target theory. It ignores that last 100 y of biological research into stress responses and signaling mechanisms in organisms exposed to toxic substances, including ionizing radiation. We will provide evidence for situations where energy deposition in cellular targets alone cannot be plausible as a mechanism for LDR effects. An example is where the energy deposition takes place in an organism not receiving the radiation dose. We will also discuss how effects after LDR depend more on dose rate and radiation quality rather than actual dose, which appears rather irrelevant. Finally, we will use recent evidence from studies of cataract and melanoma induction to suggest that after LDR, post-translational effects, such as protein misfolding or defects in energy metabolism or mitochondrial function, may dominate the etiology and progression of the disease. A focus on such novel pathways may open the way to successful prophylaxis and development of new biomarkers for better risk assessment after low dose exposures., (Copyright © 2024 Health Physics Society.)

Published

2024

8. Quantum Biology and the Potential Role of Entanglement and Tunneling in Non-Targeted Effects of Ionizing Radiation: A Review and Proposed Model.

Author

Matarèse BFE, Rusin A, Seymour C, and Mothersill C

Subjects

Radiation Tolerance, Radiation, Ionizing, Biology, Bystander Effect radiation effects, Signal Transduction

Abstract

It is well established that cells, tissues, and organisms exposed to low doses of ionizing radiation can induce effects in non-irradiated neighbors (non-targeted effects or NTE), but the mechanisms remain unclear. This is especially true of the initial steps leading to the release of signaling molecules contained in exosomes. Voltage-gated ion channels, photon emissions, and calcium fluxes are all involved but the precise sequence of events is not yet known. We identified what may be a quantum entanglement type of effect and this prompted us to consider whether aspects of quantum biology such as tunneling and entanglement may underlie the initial events leading to NTE. We review the field where it may be relevant to ionizing radiation processes. These include NTE, low-dose hyper-radiosensitivity, hormesis, and the adaptive response. Finally, we present a possible quantum biological-based model for NTE.

Published

2023

9. A Proposed New Model to Explain the Role of Low Dose Non-DNA Targeted Radiation Exposure in Chronic Fatigue and Immune Dysfunction Syndrome.

Author

Cocchetto A, Seymour C, and Mothersill C

Subjects

Humans, Reactive Oxygen Species, Fatigue Syndrome, Chronic etiology, Radiation Exposure, Radiation Injuries, Immune System Diseases etiology, Melanoma

Abstract

Chronic Fatigue and Immune Dysfunction Syndrome (CFIDS) is considered to be a multidimensional illness whose etiology is unknown. However, reports from Chernobyl, as well as those from the United States, have revealed an association between radiation exposure and the development of CFIDS. As such, we present an expanded model using a systems biology approach to explain the etiology of CFIDS as it relates to this cohort of patients. This paper proposes an integrated model with ionizing radiation as a suggested trigger for CFIDS mediated through UVA induction and biophoton generation inside the body resulting from radiation-induced bystander effects (RIBE). Evidence in support of this approach has been organized into a systems view linking CFIDS illness markers with the initiating events, in this case, low-dose radiation exposure. This results in the formation of reactive oxygen species (ROS) as well as important immunologic and other downstream effects. Furthermore, the model implicates melanoma and subsequent hematopoietic dysregulation in this underlying process. Through the identification of this association with melanoma, clinical medicine, including dermatology, hematology, and oncology, can now begin to apply its expansive knowledge base to provide new treatment options for an illness that has had few effective treatments.

Published

2023

10. Investigation of presence and impact of radiation-induced bystander effect in Acheta domesticus .

Author

Li X, Seymour CB, Mothersill C, and Rollo CD

Subjects

Male, Animals, Humans, Radiation, Ionizing, Bystander Effect radiation effects, Radiation Injuries

Abstract

Purpose: Radiation-induced bystander effect (RIBE), a non-targeted effect of ionizing radiation in which non-irradiated individuals behave as if they have been irradiated after interactions with irradiated individuals, has been well documented in vertebrates. However, little research has been done investigating RIBE in terrestrial insects, this paucity of invertebrate RIBE leads to lack of knowledge on invertebrates living in fallout and exclusion zones. This paper aims to better understand the impacts of RIBE on terrestrial insects. Methods and materials : House crickets who have interacted with irradiated crickets were examined to investigate population effects of ionizing radiation exposure to better understand RIBE in insects., Results: The results demonstrated RIBE in crickets and found that cohabitated males had higher growth rate (mg/day) when compared to non-cohabitated males. Further, cohabitated males and females matured significantly faster with no significant difference in maturation weight than non-cohabitated populations. Experiment with adult irradiated crickets found saturability of bystander signals and similar shifts in maturation parameters. These results highlight that bystander signals can impacted development and maturation in crickets., Conclusion: Given long-term impacts of RIBE in insects, these results may have significant implications for interactions between insects inhabiting fringe nuclear exclusion zones and those outside of it.

Published

2023

11. X-ray-induced bio-acoustic emissions from cultured cells.

Author

Matarèse BFE, Rahmoune H, Vo NTK, Seymour CB, Schofield PN, and Mothersill C

Subjects

Animals, Humans, X-Rays, Radiography, Cell Line, Acoustics, Radiation, Ionizing, Bystander Effect radiation effects

Abstract

Purpose: We characterize for the first time the emission of acoustic waves from cultured cells irradiated with X-ray photon radiation., Methods and Materials: Human cancer cell lines (MCF-7, HL-60) and control cell-free media were exposed to 1 Gy X-ray photons while recording the sound generated before, during and after irradiation using custom large-bandwidth ultrasound transducer. The effects of dose rate and cell viability were investigated., Results: We report the first recorded acoustic signals captured from a collective pressure wave response to ionizing irradiation in cell culture. The acoustic signal was co-terminous with the radiation pulse, its magnitude was dependent on radiation dose rate, and live and dead cells showed qualitatively and quantitatively different acoustic signal characteristics. The signature of the collective acoustic peaks was temporally wider and with higher acoustic power for irradiated HL-60 than for irradiated MCF-7., Conclusions: We show that X-ray irradiation induces two cultured cancer cell types to emit a characteristic acoustic signal for the duration of the radiation pulse. The rapid decay of the signal excludes acoustic emissions themselves from contributing to the inter-organism bystander signal previously reported in intact animals, but they remain a potential component of the bystander process in tissues and cell cultures. This preliminary study suggests that further work on the potential role of radiation-induced acoustic emission (RIAE) in the inter-cellular bystander effect is merited.

Published

2023

12. Low Dose and Non-Targeted Radiation Effects in Environmental Protection and Medicine-A New Model Focusing on Electromagnetic Signaling.

Author

Mothersill C, Cocchetto A, and Seymour C

Subjects

Conservation of Natural Resources, Dose-Response Relationship, Radiation, Electromagnetic Phenomena, Humans, Radiation, Ionizing, Reactive Oxygen Species metabolism, Bystander Effect radiation effects, Radiation Injuries

Abstract

The role of signalling in initiating and perpetuating effects triggered by deposition of ionising radiation energy in parts of a system is very clear. Less clear are the very early steps involved in converting energy to chemical and biological effects in non-targeted parts of the system. The paper aims to present a new model, which could aid our understanding of the role of low dose effects in determining ultimate disease outcomes. We propose a key role for electromagnetic signals resulting from physico-chemical processes such as excitation decay, and acoustic waves. These lead to the initiation of damage response pathways such as elevation of reactive oxygen species and membrane associated changes in key ion channels. Critically, these signalling pathways allow coordination of responses across system levels. For example, depending on how these perturbations are transduced, adverse or beneficial outcomes may predominate. We suggest that by appreciating the importance of signalling and communication between multiple levels of organisation, a unified theory could emerge. This would allow the development of models incorporating time, space and system level to position data in appropriate areas of a multidimensional domain. We propose the use of the term "infosome" to capture the nature of radiation-induced communication systems which include physical as well as chemical signals. We have named our model "the variable response model" or "VRM" which allows for multiple outcomes following exposure to low doses or to signals from low dose irradiated cells, tissues or organisms. We suggest that the use of both dose and infosome in radiation protection might open up new conceptual avenues that could allow intrinsic uncertainty to be embraced within a holistic protection framework.

Published

2022

13. Isolated Clones of a Human Colorectal Carcinoma Cell Line Display Variation in Radiosensitivity Following Gamma Irradiation.

Author

Desai R, Seymour C, and Mothersill C

Abstract

Objective: To determine whether the width of the shoulder and the size of the bystander effect are correlated using clonal lineages derived from a cultured cell line., Methods: HCT 116 (p53 wildtype) cells were grown at cloning density and individual viable colonies were picked off and grown to establish a series of cell lines from both unirradiated and irradiated progenitors. These cell lines were then irradiated to generate full survival curves. Highly variant clones were then tested to determine the level of the bystander effect using a medium transfer protocol., Results: The multi-target model gave the best fit in these experiments and size of the shoulder n is assessed in terms of radiosensitivity. The parent cell line has an n value of 1.1 while the most variant clones have n values of 0.88 (Clone G) and 5.5 (Clone A). Clonal lines subject to irradiation prior to isolation differed in bystander signal strength in comparison to clonal lines which were not initially irradiated ( P = .055)., Conclusions: Based on these experiments we suggest there may be a link between shoulder size of a mammalian cell line and the strength of a bystander effect produced in vitro. This may have implications for radiotherapy related to out-of-field effects., Competing Interests: Declaration of Conflicting Interests: The author(s) declared no potential conflicts of interest with respect to the research, authorship, and/or publication of this article., (© The Author(s) 2022.)

Published

2022

14. Low dose radiation mechanisms: The certainty of uncertainty.

Author

Mothersill C and Seymour C

Subjects

Risk Assessment, Uncertainty

Abstract

This paper reviews the current understanding of low dose radiobiology, and how it has evolved from classical target theory. It highlights the uncertainty around low dose effects, which is due in part to the complexity of "context" surrounding the ultimate expression of biological effects following low dose exposure. The paper makes special reference to low dose non-targeted effects which, are currently ignored in radiation protection and population level risk assessment, because it is unclear what they mean for risk. The view of the authors is that this "lack of clarity" about what the effects mean is precisely the point. It indicates the uncertainty of outcomes after a given exposure. The uncertainty stems from multiple outcome options resulting from the intrinsic uncertainty of the stochastic interaction of low dose radiation with matter. This uncertainty should be embraced rather than eschewed. The impacts of the uncertainties identified in this paper is explored and an approach to quantifying mutation probability in relation to dose is presented., (Copyright © 2022. Published by Elsevier B.V.)

Published

2022

15. Commonalities in the Features of Cancer and Chronic Fatigue Syndrome (CFS): Evidence for Stress-Induced Phenotype Instability?

Author

Rusin A, Seymour C, Cocchetto A, and Mothersill C

Subjects

Circadian Clocks, Humans, Inflammation immunology, Inflammation pathology, Neoplasms immunology, Phenotype, Practice Patterns, Physicians', Stress, Psychological immunology, Neoplasms psychology, Stress, Psychological pathology

Abstract

Chronic Fatigue Syndrome/Myalgic Encephalomyelitis (CFS/ME) and Cancer-Related Fatigue (CRF) are syndromes with considerable overlap with respect to symptoms. There have been many studies that have compared the two conditions, and some of this research suggests that the etiologies of the conditions are linked in some cases. In this narrative review, CFS/ME and cancer are introduced, along with their known and putative mechanistic connections to multiple stressors including ionizing radiation. Next, we summarize findings from the literature that suggest the involvement of HPA-axis dysfunction, the serotonergic system, cytokines and inflammation, metabolic insufficiency and mitochondrial dysfunction, and genetic changes in CRF and CFS/ME. We further suspect that the manifestation of fatigue in both diseases and its causes could indicate that CRF and CFS/ME lie on a continuum of potential biological effects which occur in response to stress. The response to this stress likely varies depending on predisposing factors such as genetic background. Finally, future research ideas are suggested with a focus on determining if common biomarkers exist in CFS/ME patients and those afflicted with CRF. Both CFS/ME and CRF are relatively heterogenous syndromes, however, it is our hope that this review assists in future research attempting to elucidate the commonalities between CRF and CFS/ME.

Published

2022

16. Environmental radiation on large Japanese field mice in Fukushima reduced colony forming potential in hematopoietic progenitor cells without inducing genomic instability.

Author

Ariyoshi K, Miura T, Kasai K, Goh VST, Fujishima Y, Nakata A, Takahashi A, Shimizu Y, Shinoda H, Yamashiro H, Seymour C, Mothersill C, and Yoshida MA

Subjects

Animals, Arvicolinae, Genomic Instability, Hematopoietic Stem Cells radiation effects, Mice, Murinae, Fukushima Nuclear Accident

Abstract

Purpose: To study the environmental radiation effects of wild animals after the Fukushima Dai-ichi nuclear power plant accident, we assessed effects on hematopoietic progenitor cells (HPCs) in large Japanese field mice ( Apodemus speciosus )., Materials and Methods: A. speciosus were collected from three contaminated sites and control area. The air dose-rates at the control and contaminated areas were 0.96 ± 0.05 μGy/d (Hirosaki), 14.4 ± 2.4 μGy/d (Tanashio), 208.8 ± 31.2 μGy/d (Ide), 470.4 ± 93.6 μGy/d (Omaru), respectively. We investigated possible DNA damage and pro-inflammatory markers in the bone marrow (BM) cells. The colony-forming potential of BM cells was estimated by the number of HPC colony-forming cells. Radiation-induced genomic instability (RIGI) in HPCs was also analyzed by quantifying delayed DNA damage in CFU-GM clones., Results: Although no significant differences in DNA damage and inflammation markers in BM cells from control and contaminated areas, the number of HPC colonies exhibited an inverse correlation with air dose-rate. With regard to RIGI, no significant differences in DNA damage of CFU-GM clones between the mice from the control and the three contaminated areas., Conclusions: Our study suggests that low dose-rate radiation of more than 200 Gy/d reduced HPCs, possibly eliminating genomically unstable HPCs.

Published

2022

17. Marie and Irène Curie, two brilliant women who pioneered the development of nuclear chemistry, radiotherapy, and radiobiology.

Author

Janiak MK and Mothersill C

Subjects

Female, Health Physics, History, 20th Century, Humans, Radiography, X-Rays, Radiation Oncology, Radiobiology

Abstract

Objective: To describe the contributions of Marie Sklodowska-Curie and her daughter Irene Curie to radiation science and how these studies in physics, chemistry and medicine led to the need to study radiobiological effects., Conclusions: The seminal discoveries of Maria Sklodowska-Curie in radiation physics and chemistry provided the basis for later investigations of the effects of ionizing radiation on cells and tissues and the role of radioactivity in mutagenesis and carcinogenesis. Both Maria and Irene contributed to the development of radiotherapy and the use of x-rays and radioisotopes in medical diagnosis. Their legacy is not confined to their own generation but can be traced through grand- and great-grand-students of these pioneering women.

Published

2022

18. Professor Ludwik Dobrzyński 1941-2022.

Author

Socol Y, Feinendegen L, Fornalski KW, Janiak M, Mothersill C, and Waligórski MPR

Published

2022

19. Bio-acoustic signaling; exploring the potential of sound as a mediator of low-dose radiation and stress responses in the environment.

Author

Matarèse BFE, Lad J, Seymour C, Schofield PN, and Mothersill C

Subjects

Acoustics, Animals, Humans, Bystander Effect genetics, Signal Transduction

Abstract

Objectives: This commentary reviews and evaluates the role of sound signals as part of the infosome of cells and organisms. Emission and receipt of sound has recently been identified as a potentially important universal signaling mechanism invoked when organisms are stressed. Recent evidence from plants, animals and microbes suggests that it could be a stimulus for specific or general molecular cellular stress responses in different contexts, and for triggering population level responses. This paper reviews the current status of the field with particular reference to the potential role of sound signaling as an immediate/early bystander effector (RIBE) during radiation-induced stress., Conclusions: While the chemical effectors involved in intercellular and inter-organismal signaling have been the subject of intense study in the field of Chemical Ecology, less appears to be known about physical signals in general and sound signals in particular. From this review we conclude that these signals are ubiquitous in each kingdom and behave very like physical bystander signals leading to regulation of metabolic pathways and gene expression patterns involved in adaptation, synchronization of population responses, and repair or defence against damage. We propose the hypothesis that acoustic energy released on interaction of biota with electromagnetic radiation may represent a signal released by irradiated cells leading to, or complementing, or interacting with, other responses, such as endosome release, responsible for signal relay within the unirradiated individuals in the targeted population.

Published

2022

20. Editorial.

Author

Schofield P and Mothersill C

Published

2022

21. Environmental and industrial developments in radiation cataractogenesis.

Author

Laskowski L, Williams D, Seymour C, and Mothersill C

Subjects

Animals, Dose-Response Relationship, Radiation, Industrial Development, Mammals, Radiation Dosage, Radiation, Ionizing, Cataract etiology, Cataract prevention & control, Lens, Crystalline radiation effects

Abstract

Purpose: This review discusses recent developments in our understanding of biological and physiological mechanisms underlying radiation cataractogenesis. The areas discussed include effects of low-dose exposures to the lens including potential relevance of non-targeted effects, the development of new personal-protective equipment (PPE) and standards in clinical and nuclear settings motivated by the updated ICRP recommendations to mitigate exposures to the lens of the eye. The review also looks at evidence from the field linking cataracts in birds and mammals to low dose exposures., Conclusions: The review suggests that there is evidence that cataractogenesis is not a tissue reaction (deterministic effect) but rather is a low dose effect which shows a saturable dose response relationship similar to that seen for non-targeted effects in general. The review concludes that new research is needed to determine the dose response relationship in environmental studies where field data are contradictory and lab studies confined to rodent models for human exposure studies.

Published

2022

22. Radiobiological and social considerations following a radiological terrorist attack; mechanisms, detection and mitigation: review of new research developments.

Author

Kugathasan T and Mothersill C

Subjects

Humans, Radiobiology, Disaster Planning, Nuclear Weapons, Radiation Monitoring, Radiation Protection, Terrorism

Abstract

Purpose: This review focuses on recent research in understanding the different aspects of what society should expect from a radiological attack. Although some scenarios of a radiologic event can be impossible to be prepared for, the effort put toward educating and better preparing for these types of events can help minimize some of the issues. The different areas discussed in this review include radioisotopes of concern, detection of radiation dose, biological effects of ionizing radiation exposures, low dose effects, targeted and non-targeted effects (NTE), psychological effects, mitigations, with a brief mention of other considerations such as medical preparedness, communication, policy implications and ethical issues. This review also discusses solutions to rectify the issues faced at hand that may come up in the event of a radiologic terrorist attack., Conclusions: A review of recent work in the area shows that a multi-layered and interdisciplinary approach is needed to prepare for a radiological terrorist attack. As well as medical preparedness, the approach needs to include sociological and psychological planning as well as an understanding of ethical issues. Since the likely 'dirty bomb' scenarios may involve low dose exposures to high numbers of people, a much better theoretical and practical understanding of low dose radiobiology and the development of robust low dose exposure biomarkers is needed as part of an integrated plan.

Published

2022

23. Editorial for special issue 'women in radiobiology'.

Author

Mothersill C, Jeggo P, and Tsakanova G

Subjects

Female, Humans, Radiobiology

Published

2022

24. Women's contributions to radiobiology in Ireland; from small beginnings….

Author

Howe O, Lyng FM, and Mothersill C

Subjects

Academies and Institutes, Culture Media, Female, Humans, Ireland, Ecosystem, Radiobiology

Abstract

Objectives: To describe the contribution of women radiobiologists in Ireland to the development of the discipline internationally and at home and to discuss the history of radiobiology in Ireland to date. This parallels the history of the evolution of a small radiobiology group in Kevin Street, Dublin Institute of Technology (DIT) which was formerly part of the City of Dublin Vocational Education Committee. There followed years of development first as a radiobiological research center which evolved in the FOCAS Research Institute now embedded within Technological University Dublin (TU Dublin)., Conclusions: Over the last 45 years, the women of the Radiation and Environmental Science Centre (RESC) contributed to the major paradigm shift in low dose radiobiology contributing exciting new research concerning non-targeted effects, including discovery of lethal mutations, medium transfer bystander mechanisms, and signaling pathways. They also developed translational research using human explant culture systems with unique immunocytochemical methods and more recently evolved to molecular and spectroscopic analysis of clinical samples. The RESC also developed unique in vitro research methods into effects of radiation on non-human species of concern in ecosystems.

Published

2022

25. Copper uptake in adult rainbow trout irradiated during early life stages and in non-irradiated bystander trout which swam with the irradiated fish.

Author

Smith R, Nadella S, Moccia R, Seymour C, and Mothersill C

Subjects

Animals, Bystander Effect radiation effects, Copper pharmacology, Larva radiation effects, Proteomics, Oncorhynchus mykiss physiology, Radiation Injuries, Water Pollutants, Chemical pharmacology

Abstract

Purpose: This investigation forms part of a wider study into the legacy effects of exposure of rainbow trout eggs 38 h after fertilization, eyed eggs, yolk sac larvae (YSL) or first feeders to a single 0.5 Gy X-ray dose, including the induction of a bystander effect, by the irradiated fish, to non-irradiated fish. Fish may be exposed to multiple environmental stressors, including waterborne metals, during their lifespan and, while there are data on how the legacy of early life stage irradiation and bystander effect induction is affected by waterborne aluminum and cadmium, there are no studies into the effects radiation or the radiation induced bystander effect on metal uptake. Therefore the aim of this investigation was to determine if the legacy of early life stage irradiation included an effect on copper uptake by adult fish and by non-irradiated bystander adult trout which swam with the irradiated fish., Methods: The four early life stages mentioned above were exposed to a single 0.5 Gy X-ray dose and then maintained, for two years with no further irradiation. At two years old the irradiated fish were allowed to swim, for 2 h with non-irradiated bystander trout (also two years old). After this time copper uptake was determined using 64 Cu., Results: Copper uptake was increased in adult trout irradiated as eggs at 48 h after fertilization and as first feeders but eyed egg or YSL irradiation had no effect. Copper uptake was also increased in the bystander trout which swam with trout irradiated as eggs at 48 h after fertilization and as eyed eggs but there was no effect on non-irradiated adult trout which swam with trout irradiated as YSL or first feeders., Conclusions: When put in context with the proteomic changes observed in these fish we propose the increased copper uptake in adult trout irradiated as eggs at 48 h after fertilization could be part of an anti-tumorigenic response and the increase in copper uptake in adult trout irradiated as first feeders could be part of a potentially protective pro-apoptotic response. Similarly we propose the increase in copper uptake in non-irradiated adult trout, induced by trout irradiated as eggs at 48 h after fertilization or as eyed eggs, was part of the universally anti-tumorigenic nature of the X-ray induced bystander effect in fish. However this was exclusive to embryonic irradiation.

Published

2022