Hisayo Tsuchiya scite author profile

Hisayo Tsuchiya

3Publications

4Citation Statements Received

17Citation Statements Given

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Tokyo Institute of Technology

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Diminished or inversed dose-rate effect on clonogenic ability in Ku-deficient rodent cells

Tsuchiya

Shimada

Tsukada

et al. 2020

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The biological effects of ionizing radiation, especially those of sparsely ionizing radiations like X-ray and γ-ray, are generally reduced as the dose rate is reduced. This phenomenon is known as ‘the dose-rate effect’. The dose-rate effect is considered to be due to the repair of DNA damage during irradiation but the precise mechanisms for the dose-rate effect remain to be clarified. Ku70, Ku86 and DNA-dependent protein kinase catalytic subunit (DNA-PKcs) are thought to comprise the sensor for DNA double-strand break (DSB) repair through non-homologous end joining (NHEJ). In this study, we measured the clonogenic ability of Ku70-, Ku86- or DNA-PKcs-deficient rodent cells, in parallel with respective control cells, in response to high dose-rate (HDR) and low dose-rate (LDR) γ-ray radiation (~0.9 and ~1 mGy/min, respectively). Control cells and murine embryonic fibroblasts (MEF) from a severe combined immunodeficiency (scid) mouse, which is DNA-PKcs-deficient, showed higher cell survival after LDR irradiation than after HDR irradiation at the same dose. On the other hand, MEF from Ku70−/− mice exhibited lower clonogenic cell survival after LDR irradiation than after HDR irradiation. XR-V15B and xrs-5 cells, which are Ku86-deficient, exhibited mostly identical clonogenic cell survival after LDR and HDR irradiation. Thus, the dose-rate effect in terms of clonogenic cell survival is diminished or even inversed in Ku-deficient rodent cells. These observations indicate the involvement of Ku in the dose-rate effect.

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Effect of different dose rates of ionizing radiation on ciliogenesis in hTERT-RPE1 cells

Shimada¹,

Tsuchiya²,

Matsumoto³

2017

Energy Procedia

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The Role of Dna Double-Strand Break Repair Through Non-Homologous End Joining in the Dose-Rate Effect in Terms of Clonogenic Ability

Tsuchiya

Shimada

Tsukada

et al. 2022

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It is generally and widely accepted that the biological effects of a given dose of ionizing radiation, especially those of low linear energy transfer radiations like X-ray and gamma ray, become smaller as the dose rate becomes lower. This phenomenon, known as ‘dose-rate effect (DRE),’ is considered due to the repair of sublethal damage during irradiation but the precise mechanisms for DRE have remained to be clarified. We recently showed that DRE in terms of clonogenic cell survival is diminished or even inversed in rodent cells lacking Ku, which is one of the essential factors in the repair of DNA double-strand breaks (DSBs) through non-homologous end joining (NHEJ). Here we review and discuss the involvement of NHEJ in DRE, which has potential implications in radiological protection and cancer therapeutics.

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Hisayo Tsuchiya

Diminished or inversed dose-rate effect on clonogenic ability in Ku-deficient rodent cells

Effect of different dose rates of ionizing radiation on ciliogenesis in hTERT-RPE1 cells

The Role of Dna Double-Strand Break Repair Through Non-Homologous End Joining in the Dose-Rate Effect in Terms of Clonogenic Ability

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