Expression of pluripotency-associated genes in the surviving fraction of cultured human embryonic stem cells is not significantly affected by ionizing radiation.

Human embryonic stem cells (hESC) are capable to give rise to all cell types in the human body during the normal course of development. Therefore, these cells hold a great promise in regenerative cell replacement based therapeutical approaches. However, some controversy exists in literature concerning the ultimate fate of hESC after exposure to genotoxic agents, in particular, regarding the effect of DNA damaging insults on pluripotency of hESC. To comprehensively address this issue, we performed an analysis of the expression of marker genes, associated with pluripotent state of hESC, such as Oct-4, Nanog, Sox-2, SSEA-4, TERT, TRA-1-60 and TRA-1-81 up to 65h after exposure to ionizing radiation (IR) using flow cytometry, immunocytochemistry and quantitative real-time polymerase chain reaction techniques. We show that irradiation with relatively low doses of gamma-radiation (0.2Gy and 1Gy) does not lead to loss of expression of the pluripotency-associated markers in the surviving hESC. While changes in the levels of expression of some of the pluripotency markers were observed at different time points after IR exposure, these alterations were not persistent, and, in most cases, the expression of the pluripotency-associated markers remained significantly higher than that observed in fully differentiated human fibroblasts, and in hESCs differentiated into definitive endodermal lineage. Our data suggest that exposure of hESC to relatively low doses of IR as a model genotoxic agent does not significantly affect pluripotency of the surviving fraction of hESC.