Dose-Dependent Metabolic Alterations in Human Cells Exposed to Gamma Irradiation

Kwon, Yong-Kook; Ha, In-Joong; Bae, Hyun; Jang, Won Gyo; Yun, Hyun Jin; Kim, So Ra; Lee, Eun Kyeong; Kang, Chang‐Mo; Hwang, Geum‐Sook

doi:10.1371/journal.pone.0113573

Cited by 30 publications

(52 citation statements)

References 41 publications

(56 reference statements)

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“…Both cell types reacted with reduced proliferation upon irradiation. These results are in line with the findings of the proliferation assay and support both our and others′ previously published data of a diminished cell viability of fibroblasts …”

Section: Discussionsupporting

confidence: 93%

Imaging of pH and pO₂ gives insight in molecular processes of irradiated cells

Reinders

Meier

Liebsch

et al. 2019

Experimental Dermatology

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One of the major challenges in radiation therapy is the interference with tissue repair processes due to hypoxic characteristics and pH dysregulation. In this study, we present dual imaging of pH and oxygenation in vitro based on luminescent biocompatible sensor foils that allow studying the effects of irradiation on different cell types in culture. Different sensitivities of fibroblast and oral squamous carcinoma cells were observed by complementing oxygen and pH differences with proliferation assays. This study highlights especially the distinct role of oxygen after irradiation and the difference in proliferation processes of irradiated normal dermal cells in contrast to irradiated tumor cells.

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Section: Discussionsupporting

confidence: 93%

Imaging of pH and pO₂ gives insight in molecular processes of irradiated cells

Reinders

Meier

Liebsch

et al. 2019

Experimental Dermatology

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“…Similarly, o ‐phosphocholine decreased by more than 64% in the spleen and o ‐phosphoethanolamine decreased by more than 35% in the high‐dose radiation group. One study demonstrated that changes in the levels of phospholipid‐metabolism‐associated metabolites indicate ROS‐induced membrane damage caused by radiation . Total choline levels also change significantly as a result of changes in membrane choline phospholipid metabolism in response to increasing amounts of radiation .…”

Section: Discussionmentioning

confidence: 99%

Investigation of relative metabolic changes in the organs and plasma of rats exposed to X‐ray radiation using HR‐MAS ¹H NMR and solution ¹H NMR

et al. 2016

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Excess exposure to ionizing radiation generates reactive oxygen species and increases the cellular inflammatory response by modifying various metabolic pathways. However, an investigation of metabolic perturbations and organ-specific responses based on the amount of radiation during the acute phase has not been conducted. In this study, high-resolution magic-angle-spinning (HR-MAS) NMR and solution NMR-based metabolic profiling were used to investigate dose-dependent metabolic changes in multiple organs and tissues--including the jejunum, spleen, liver, and plasma--of rats exposed to X-ray radiation. The organs, tissues, and blood samples were obtained 24, 48, and 72 h after exposure to low-dose (2 Gy) and high-dose (6 Gy) X-ray radiation and subjected to metabolite profiling and multivariate analyses. The results showed the time course of the metabolic responses, and many significant changes were detected in the high-dose compared with the low-dose group. Metabolites with antioxidant properties showed acute responses in the jejunum and spleen after radiation exposure. The levels of metabolites related to lipid and protein metabolism were decreased in the jejunum. In addition, amino acid levels increased consistently at all post-irradiation time points as a consequence of activated protein breakdown. Consistent with these changes, plasma levels of tricarboxylic acid cycle intermediate metabolites decreased. The liver did not appear to undergo remarkable metabolic changes after radiation exposure. These results may provide insight into the major metabolic perturbations and mechanisms of the biological systems in response to pathophysiological damage caused by X-ray radiation.

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“…Histological and ultrastructure examination in the present study were observed after 72 h from radiation exposure to quit cell's adaptive protection against an array of exogenous attack (Kwon et al, 2014). Our major observed anomalies in the midgut epithelium of B. polycresta were in the nucleus of both the regenerative and the digestive cells.…”

Section: Discussionmentioning

confidence: 53%

Midgut cells alteration in gamma-irradiated beetles (Blaps polycresta, Coleoptera: Tenebrionidae)

Kheirallah

El-Samad

2020

Braz. J. Biol.

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Abstract This study was conducted to examine the effect of gamma radiation on biological specimens. Thus, our concept is to clarify that exposure to accumulated dose of 0.2 Gy gamma rays (0.66 rad/Sec. dose rate) from Cs137 source induces cellular perturbations in the midgut epithelium of the F1 progeny of Blaps polycresta, therefore affecting nutrition and growth. Beetles were reared in laboratory conditions and the newly emerged adults were irradiated with the aforementioned dose. Histological and ultrastructure anomalies of midgut cells (digestive and regenerative cells) were observed by 72 h after radiation exposure to ensure that the cells will not return to control state. Retardation in the development of the F1 progeny was also noticed and beetles died through two weeks. In the light of these observations, biological tissue act as an indicator to the continuous exposure to environmental radiation.

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Dose-Dependent Metabolic Alterations in Human Cells Exposed to Gamma Irradiation

Cited by 30 publications

References 41 publications

Imaging of pH and pO₂ gives insight in molecular processes of irradiated cells

Imaging of pH and pO₂ gives insight in molecular processes of irradiated cells

Investigation of relative metabolic changes in the organs and plasma of rats exposed to X‐ray radiation using HR‐MAS ¹H NMR and solution ¹H NMR

Midgut cells alteration in gamma-irradiated beetles (Blaps polycresta, Coleoptera: Tenebrionidae)

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Dose-Dependent Metabolic Alterations in Human Cells Exposed to Gamma Irradiation

Cited by 30 publications

References 41 publications

Imaging of pH and pO2 gives insight in molecular processes of irradiated cells

Imaging of pH and pO2 gives insight in molecular processes of irradiated cells

Investigation of relative metabolic changes in the organs and plasma of rats exposed to X‐ray radiation using HR‐MAS 1H NMR and solution 1H NMR

Midgut cells alteration in gamma-irradiated beetles (Blaps polycresta, Coleoptera: Tenebrionidae)

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Imaging of pH and pO₂ gives insight in molecular processes of irradiated cells

Imaging of pH and pO₂ gives insight in molecular processes of irradiated cells

Investigation of relative metabolic changes in the organs and plasma of rats exposed to X‐ray radiation using HR‐MAS ¹H NMR and solution ¹H NMR