对直接暴露于低剂量伽马辐射的人体细胞的生物光子发射进行量化。

Quantifying Biophoton Emissions From Human Cells Directly Exposed to Low-Dose Gamma Radiation.

作者信息

Cohen Jason, Vo Nguyen T K, Chettle David R, McNeill Fiona E, Seymour Colin B, Mothersill Carmel E

机构信息

Radiation Sciences Graduate Program, McMaster University, Hamilton, Ontario, Canada.

Department of Biology, McMaster University, Hamilton, Ontario, Canada.

出版信息

Dose Response. 2020 May 19;18(2):1559325820926763. doi: 10.1177/1559325820926763. eCollection 2020 Apr-Jun.

DOI:10.1177/1559325820926763

PMID:32489340

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7238447/

Abstract

Biophoton emission leading to bystander effects (BEs) was shown in beta-irradiated cells; however, technical challenges precluded the analysis of the biophoton role in gamma-induced BEs. The present work was to design an experimental approach to determine if, what type, and how many biophotons could be produced in gamma-irradiated cells. Photon emission was measured in HCT116 p53 cells irradiated with a total dose of 22 mGy from a cesium-137 source at a dose rate of 45 mGy/min. A single-photon detection unit was used and shielded with lead to reduce counts from stray gammas reaching the detector. Higher quantities of photon emissions were observed when the cells in a tissue culture vessel were present and being irradiated compared to a cell-free vessel. Photon emissions were captured at either 340 nm (in the ultraviolet A [UVA] range) or 610 nm. At the same cell density, radiation exposure time, and radiation dose, HCT116 p53 cells emitted 2.5 times more UVA biophotons than 610-nm biophotons. For the first time, gamma radiation was shown to induce biophoton emissions from biological cells. As cellular emissions of UVA biophotons following beta radiation lead to BEs, the involvement of cellular emissions of the same type of UVA biophotons in gamma radiation-induced BEs is highly likely.

摘要

在β射线辐照的细胞中已显示出导致旁观者效应（BEs）的生物光子发射；然而，技术挑战使得对生物光子在γ射线诱导的旁观者效应中的作用分析受到阻碍。目前的工作是设计一种实验方法，以确定γ射线辐照的细胞中是否能产生生物光子、产生何种类型的生物光子以及产生多少生物光子。在用来自铯 - 137源的总剂量22 mGy、剂量率为45 mGy/min的射线辐照的HCT116 p53细胞中测量光子发射。使用了一个单光子检测单元，并用铅进行屏蔽，以减少到达探测器的杂散γ射线的计数。与无细胞的容器相比，当组织培养容器中的细胞存在并受到辐照时，观察到更高数量的光子发射。在340 nm（在紫外A [UVA]范围内）或610 nm处捕获光子发射。在相同的细胞密度、辐射暴露时间和辐射剂量下，HCT116 p53细胞发射的UVA生物光子比610 nm生物光子多2.5倍。首次证明γ射线能诱导生物细胞产生生物光子发射。由于β射线照射后细胞发射UVA生物光子会导致旁观者效应，因此同一类型的UVA生物光子的细胞发射极有可能参与γ射线诱导的旁观者效应。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/c596/7238447/6c4ff786a98f/10.1177_1559325820926763-fig1.jpg

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对直接暴露于低剂量伽马辐射的人体细胞的生物光子发射进行量化。

Quantifying Biophoton Emissions From Human Cells Directly Exposed to Low-Dose Gamma Radiation.

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