An estimate assay for low-level exposure to ionizing radiation based on mass spectrometry quantification of γ-H2AX in human peripheral blood lymphocytes

Exposure to environmental ionizing radiation (IR) is ubiquitous, and large-dose exposure to IR is known to cause DNA damage and genotoxicity which is associated with an increased risk of cancer. Whether such detrimental effects are caused by exposure to low-dose IR is still debated. Therefore, rapid...

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Autores principales: Zhao, Hongling, Qu, Minmin, Li, Yuchen, Wen, Ke, Xu, Hua, Song, Man, Xie, Dafei, Ao, Xingkun, Gong, Yihao, Sui, Li, Guan, Hua, Zhou, Pingkun, Xie, Jianwei
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Frontiers Media S.A. 2022
Materias:
Public Health
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9651621/
https://www.ncbi.nlm.nih.gov/pubmed/36388350
http://dx.doi.org/10.3389/fpubh.2022.1031743
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author Zhao, Hongling
Qu, Minmin
Li, Yuchen
Wen, Ke
Xu, Hua
Song, Man
Xie, Dafei
Ao, Xingkun
Gong, Yihao
Sui, Li
Guan, Hua
Zhou, Pingkun
Xie, Jianwei
author_facet Zhao, Hongling
Qu, Minmin
Li, Yuchen
Wen, Ke
Xu, Hua
Song, Man
Xie, Dafei
Ao, Xingkun
Gong, Yihao
Sui, Li
Guan, Hua
Zhou, Pingkun
Xie, Jianwei
author_sort Zhao, Hongling
collection PubMed
description Exposure to environmental ionizing radiation (IR) is ubiquitous, and large-dose exposure to IR is known to cause DNA damage and genotoxicity which is associated with an increased risk of cancer. Whether such detrimental effects are caused by exposure to low-dose IR is still debated. Therefore, rapid and early estimation of absorbed doses of IR in individuals, especially at low levels, using radiation response markers is a pivotal step for early triage during radiological incidents to provide adequate and timely clinical interventions. However, there is currently a crucial shortage of methods capable of determining the extent of low-dose IR exposure to human beings. The phosphorylation of histone H2AX on serine 139 (designated γ-H2AX), a classic biological dosimeter, can be used to evaluate the DNA damage response. We have developed an estimation assay for low-level exposure to IR based on the mass spectrometry quantification of γ-H2AX in blood. Human peripheral blood lymphocytes sensitive to low-dose IR, maintaining low temperature (4°C) and adding enzyme inhibitor are proven to be key steps, possibly insuring that a stable and marked γ-H2AX signal in blood cells exposed to low-dose IR could be detected. For the first time, DNA damage at low dose exposures to IR as low as 0.01 Gy were observed using the sensitive variation of γ-H2AX with high throughput mass spectrometry quantification in human peripheral blood, which is more accurate than the previously reported methods by virtue of isotope-dilution mass spectrometry, and can observe the time effect of DNA damage. These in vitro cellular dynamic monitoring experiments show that DNA damage occurred rapidly and then was repaired slowly over the passage of post-irradiation time even after exposure to very low IR doses. This assay was also used to assess different radiation exposures at the in vitro cellular level. These results demonstrate the potential utility of this assay in radiation biodosimetry and environmental risk assessment.
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spelling pubmed-96516212022-11-15 An estimate assay for low-level exposure to ionizing radiation based on mass spectrometry quantification of γ-H2AX in human peripheral blood lymphocytes Zhao, Hongling Qu, Minmin Li, Yuchen Wen, Ke Xu, Hua Song, Man Xie, Dafei Ao, Xingkun Gong, Yihao Sui, Li Guan, Hua Zhou, Pingkun Xie, Jianwei Front Public Health Public Health Exposure to environmental ionizing radiation (IR) is ubiquitous, and large-dose exposure to IR is known to cause DNA damage and genotoxicity which is associated with an increased risk of cancer. Whether such detrimental effects are caused by exposure to low-dose IR is still debated. Therefore, rapid and early estimation of absorbed doses of IR in individuals, especially at low levels, using radiation response markers is a pivotal step for early triage during radiological incidents to provide adequate and timely clinical interventions. However, there is currently a crucial shortage of methods capable of determining the extent of low-dose IR exposure to human beings. The phosphorylation of histone H2AX on serine 139 (designated γ-H2AX), a classic biological dosimeter, can be used to evaluate the DNA damage response. We have developed an estimation assay for low-level exposure to IR based on the mass spectrometry quantification of γ-H2AX in blood. Human peripheral blood lymphocytes sensitive to low-dose IR, maintaining low temperature (4°C) and adding enzyme inhibitor are proven to be key steps, possibly insuring that a stable and marked γ-H2AX signal in blood cells exposed to low-dose IR could be detected. For the first time, DNA damage at low dose exposures to IR as low as 0.01 Gy were observed using the sensitive variation of γ-H2AX with high throughput mass spectrometry quantification in human peripheral blood, which is more accurate than the previously reported methods by virtue of isotope-dilution mass spectrometry, and can observe the time effect of DNA damage. These in vitro cellular dynamic monitoring experiments show that DNA damage occurred rapidly and then was repaired slowly over the passage of post-irradiation time even after exposure to very low IR doses. This assay was also used to assess different radiation exposures at the in vitro cellular level. These results demonstrate the potential utility of this assay in radiation biodosimetry and environmental risk assessment. Frontiers Media S.A. 2022-10-28 /pmc/articles/PMC9651621/ /pubmed/36388350 http://dx.doi.org/10.3389/fpubh.2022.1031743 Text en Copyright © 2022 Zhao, Qu, Li, Wen, Xu, Song, Xie, Ao, Gong, Sui, Guan, Zhou and Xie. https://creativecommons.org/licenses/by/4.0/This is an open-access article distributed under the terms of the Creative Commons Attribution License (CC BY). The use, distribution or reproduction in other forums is permitted, provided the original author(s) and the copyright owner(s) are credited and that the original publication in this journal is cited, in accordance with accepted academic practice. No use, distribution or reproduction is permitted which does not comply with these terms.
spellingShingle Public Health
Zhao, Hongling
Qu, Minmin
Li, Yuchen
Wen, Ke
Xu, Hua
Song, Man
Xie, Dafei
Ao, Xingkun
Gong, Yihao
Sui, Li
Guan, Hua
Zhou, Pingkun
Xie, Jianwei
An estimate assay for low-level exposure to ionizing radiation based on mass spectrometry quantification of γ-H2AX in human peripheral blood lymphocytes
title An estimate assay for low-level exposure to ionizing radiation based on mass spectrometry quantification of γ-H2AX in human peripheral blood lymphocytes
title_full An estimate assay for low-level exposure to ionizing radiation based on mass spectrometry quantification of γ-H2AX in human peripheral blood lymphocytes
title_fullStr An estimate assay for low-level exposure to ionizing radiation based on mass spectrometry quantification of γ-H2AX in human peripheral blood lymphocytes
title_full_unstemmed An estimate assay for low-level exposure to ionizing radiation based on mass spectrometry quantification of γ-H2AX in human peripheral blood lymphocytes
title_short An estimate assay for low-level exposure to ionizing radiation based on mass spectrometry quantification of γ-H2AX in human peripheral blood lymphocytes
title_sort estimate assay for low-level exposure to ionizing radiation based on mass spectrometry quantification of γ-h2ax in human peripheral blood lymphocytes
topic Public Health
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9651621/
https://www.ncbi.nlm.nih.gov/pubmed/36388350
http://dx.doi.org/10.3389/fpubh.2022.1031743
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