Low-Dose-Rate Irradiation Suppresses the Expression of Cell Cycle-Related Genes, Resulting in Modification of Sensitivity to Anti-Cancer Drugs.

Kiichi Shimabukuro,Kengo Mekata,Takahiro Fukazawa,Nobuyuki Hirohashi,Akinori Kanai,Naoya Kakimoto,Hidehiko Kawai,Keiji Tanimoto

doi:10.3390/cells11030501

Kiichi Shimabukuro, Kengo Mekata + Show 6 more

Open Access

https://doi.org/10.3390/cells11030501

Copy DOI

Journal: Cells	Publication Date: Jan 31, 2022
Citations: 2	License type: CC BY 4.0

Affiliation: Hiroshima University, The University of Tokyo

Abstract

The biological effects of low-dose-rate (LDR) radiation exposure in nuclear power plant accidents and medical uses of ionizing radiation (IR), although being a social concern, remain unclear. In this study, we evaluated the effects of LDR-IR on global gene expression in human cells and aimed to clarify the mechanisms. RNA-seq analyses demonstrated that relatively low dose rates of IR modify gene expression levels in TIG-3 cells under normoxic conditions, but those effects were attenuated under hypoxia-mimicking conditions. Gene set enrichment analysis demonstrated that LDR-IR significantly decreased gene expression related to cell division, cell cycle, mitosis, and the Aurora kinase B and FOXM1 pathways. Quantitative RT-PCR confirmed the down-regulation of AURKB and FOXM1 genes in TIG-3 cells with LDR-IR or hypoxia-mimicking treatments without any dose-rate effect. Knock-down experiments suggested that HIF-1α and HIF-2α, as well as DEC1, participated in down-regulation of AURKB and FOXM1 under DFOM treatments, but to a lesser extent under LDR-IR treatment. FACS and microscopic analyses demonstrated that LDR-IR induced G0/G1 arrest and increased micronucleus or chromosome condensation. Finally, MTT assays demonstrated that LDR-IR decreased sensitivity to paclitaxel or barasertib in TIG-3 cells but not in A549 cells. In conclusion, LDR-IR modifies global gene expression and cell cycle control, resulting in a reduction of sensitivity to anti-cancer chemotherapy in non-cancer cells and thus a reduction in untoward effects (GA).

Highlights

After the nuclear power plant accidents in Chernobyl and Fukushima, the effects of low-dose-rate ionizing radiation (LDR-IR) on the human body have been a public concern
DFOM treatment clearly suppressed the proliferation capacities of both cell types used here and precluded the effects of LDR-IR that were observed under normoxic conditions (Figure 1)
The biological effects of low-dose-rate (LDR) radiation exposure in medical irradiation (IR) have been a source of public concern for a long time, and such concern was highlighted after the nuclear power plant accidents in Chernobyl and Fukushima

Summary

Introduction

After the nuclear power plant accidents in Chernobyl and Fukushima, the effects of low-dose-rate ionizing radiation (LDR-IR) on the human body have been a public concern. It has been reported that the harmful effects caused by high-dose-rate irradiation (HDL-IR) and LDR-IR increased chromosomal abnormalities that might be related to carcinogenesis [5]. Some beneficial effects of LDR-IR have been reported, including anti-aging, biological defense activation, and anti-cancer effects [6,7,8]. These effects, either harmful or beneficial, can vary greatly among various cell types and are unpredictable.

Methods

Results

Conclusion