DNA Damage Recognition Proteins Localize Along Heavy Ion Induced Tracks in the Cell Nucleus

Overview

Journal J Radiat Res

Publisher Oxford University Press

Specialties Environmental Health
Oncology
Radiology

Date 2008 Nov 7

PMID 18987440

Citations 16

Authors

Akihisa Takahashi

Nobuhiro Yamakawa

Tadaaki Kirita

Katsunori Omori

Noriaki Ishioka

Yoshiya Furusawa

Eiichiro Mori

Ken Ohnishi

Takeo Ohnishi

Affiliations

Soon will be listed here.

Abstract

To identify the repair dynamics involved in high linear energy transfer (LET) radiation-induced DNA damage, phospho-H2AX (gammaH2AX) foci formation was analyzed after cellular exposure to iron ions (Fe-ions, 500 MeV u(-1), 200 KeV microm(-1)). The foci located at DNA damage sites were visualized using immunocytochemical methods. Since H2AX is phosphorylated at sites of radiation-induced double strand breaks (DSB), gammaH2AX foci were used to detect or illuminate tracks formed by DSB after exposure to various doses of ionizing radiation. Additional DSB-recognition proteins such as ATM phospho-serine 1981, DNA-PKcs phospho-threonine 2609, NBS1 phospho-serine 343 and CHK2 phospho-threonine 68 all co-localized with gammaH2AX at high LET radiation induced DSB. In addition, Fe-ion induced foci remained for longer times than X-radiation induced foci. These findings suggest that Fe-ion induced damage is repaired more slowly than X-radiation induced damage, possibly because Fe-ion induced damage or lesions are more complex or extensive. Antibodies for all these phosphorylated DNA DSB recognition proteins appear to be very effective for the detection and localization of DSB.

Citing Articles

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