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Fractionated low-dose radiation exposure leads to accumulation of DNA damage and profound alterations in DNA and histone methylation in the murine thymus
Authors:Pogribny Igor  Koturbash Igor  Tryndyak Volodymyr  Hudson Darryl  Stevenson Sandie M L  Sedelnikova Olga  Bonner William  Kovalchuk Olga
Institution:Division of Biochemical Toxicology, National Center for Toxicological Research, Jefferson, Arkansas, USA.
Abstract:Thymus, an important component of hematopoietic tissue, is a well-documented "target" of radiation carcinogenesis. Both acute and fractionated irradiation result in a high risk of leukemia and thymic lymphoma. However, the exact mechanisms underlying radiation-induced predisposition to leukemia and lymphoma are still unknown, and the contributions of genetic and epigenetic mechanisms in particular have yet to be defined. Global DNA hypomethylation is a well-known characteristic of cancer cells. Recent studies have also shown that tumor cells undergo prominent changes in histone methylation, particularly a substantial loss of trimethylation of histone H4-Lys20 and demethylation of genomic DNA. These losses are considered a universal marker of malignant transformation. In the present study, we investigated the effect of low-dose radiation exposure on the accumulation of DNA lesions and alterations of DNA methylation and histone H4-Lys20 trimethylation in the thymus tissue using an in vivo murine model. For the first time, we show that fractionated whole-body application of 0.5 Gy X-ray leads to decrease in histone H4-Lys20 trimethylation in the thymus. The loss of histone H4-Lys20 trimethylation was accompanied by a significant decrease in global DNA methylation as well as the accumulation of DNA damage as monitored by persistence of histone gammaH2AX foci in the thymus tissue of mice exposed to fractionated irradiation. Altered DNA methylation was associated with reduced expression of maintenance (DNMT1) and, to a lesser extent, de novo DNA methyltransferase DNMT3a in exposed animals. Expression of another de novo DNA methyltransferase DNMT3b was decreased only in males. Irradiation also resulted in approximately 20% reduction in the levels of methyl-binding proteins MeCP2 and MBD2. Our results show the involvement of epigenetic alterations in radiation-induced responses in vivo. These changes may play a role in genome destabilization that ultimately leads to cancer.
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