- 作者:Peter W. Nagle ; MSc&lowast ; ; &dagger ; ; Nynke A. Hosper ; PhD&lowast ; ; &dagger ; ; Emily M. Ploeg&lowast ; ; Marc-Jan van Goethem ; PhD&dagger ; ; &Dagger ; ; Sytze Brandenburg ; PhD&Dagger ; ; Johannes A. Langendijk ; MD ; PhD&dagger ; ; Roland K. Chiu ; PhD&lowast ; ; &dagger ; ; Robert P. Coppes ; PhD&lowast ; ; &dagger ; ; r.p.coppes@umcg.nl" class="auth_mail" title="E-mail the corresponding author
- 刊名:International Journal of Radiation Oncology*Biology*Physics
- 出版年:2016
- 出版时间:1 May 2016
- 年:2016
- 卷:95
- 期:1
- 页码:103-111
- 全文大小:1150 K
Methods and Materials
We used the immortalized human salivary gland (HSG) cell line resembling salivary gland (SG) cells to translate the radiation response in 2-dimensional (2D) to 3-dimensional (3D) conditions. This response was subsequently translated to the response of SG stem cells (SGSCs). Dispersed single cells were irradiated with photons or carbon ions at different linear energy transfers (LETs; 48.76 ± 2.16, 149.9 ± 10.8, and 189 ± 15 keV/μm). Subsequently, 2D or 3D clonogenicity was determined by counting the colonies or secondary stem cell-derived spheres in Matrigel. γH2AX immunostaining was used to assess DNA double strand break repair.
Results
The 2D response of HSG cells showed a similar increase in dose response to increasing higher LET irradiation as other cell lines. The 3D response of HSG cells to increasing LET irradiation was reduced compared with the 2D response. Finally, the response of mouse SGSCs to photons was similar to the 3D response of HSG cells. The response to higher LET irradiation was reduced in the stem cells.
Conclusions
Mouse SGSC radiosensitivity seems reduced at higher LET radiation compared with transformed HSG cells. The developed model to assess the radiation response of SGSCs offers novel possibilities to study the radiation response of normal tissue in vitro.