Behavior and Differentiation Studies of hASCs and rBMSCs by the gamma-ray Irradiation

Authors
Kim, Ji EunKim, Soo HyunJeong, Jae-HoonJi, Young HoonJung, Youngmee
Issue Date
2014-02
Publisher
KOREAN TISSUE ENGINEERING REGENERATIVE MEDICINE SOC
Citation
TISSUE ENGINEERING AND REGENERATIVE MEDICINE, v.11, pp.24 - 31
Abstract
Recently, in tissue engineering, ionizing radiation has been used as stimulation. Especially, several studies showed that low-dose ionizing radiation induced the stimulation of cell proliferation. Also, it is reported that single low dose gamma-irradiation for whole-body or lymphoid-organ significantly improved the spontaneous recovery. The purpose of this study is to investigate behavior and differentiation of human adipose tissue-derived stem cells (hASCs) and rabbit bone marrow stromal cells (rBMSCs) after low dose and high dose of gamma-irradiation. Cells were irradiated with gamma-rays of 1, 10, 100 mGy and 1 Gy. In addition, we investigated the effects on the osteogenic differentiation of gamma-irradiation. PLLA scaffolds with 90% porosity and 300-500 mu m pore size were fabricated and cells were seeded onto the scaffolds. After that, cell-scaffold construct were irradiated with 1 mGy and implanted subcutaneously in nude mice for up to 10 weeks. Specimens were harvested after 10 weeks and analyzed. In the results, p-H2AX/DAPI ratio increased with time while the p-H2X expression was not found all time point in control (no irradiation) group. But, in the group radiated with low gamma-ray (1 mGy), the p-H2X expression almost did not appear similar with non-radiated group. However, in the osteogenic differentiation tests, the control group and the irradiated group revealed no significant difference. In conclusion, low dose gamma-irradiation could be used as stimulation for tissue engineering using specific stem cells and consequently, this system will be useful for combination technology of radiation and cell therapy. However, further studies are needed for examining the general mechanism of the effects on the low dose irradiation for stem cells.
Keywords
CARTILAGE REGENERATION; CELLS; RADIATION; TISSUE; PROLIFERATION; TRANSDUCTION; STIMULATION; ACTIVATION; HORMESIS; GENE; CARTILAGE REGENERATION; CELLS; RADIATION; TISSUE; PROLIFERATION; TRANSDUCTION; STIMULATION; ACTIVATION; HORMESIS; GENE; gamma-irradiation; stimulation; adipose tissue-derived stem cells; bone marrow derived stem cells; osteogenic differentiation
ISSN
1738-2696
URI
https://pubs.kist.re.kr/handle/201004/127157
DOI
10.1007/s13770-013-1123-8
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KIST Article > 2014
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