The concept of radiation-enhanced stem cell differentiation

• Published in: Radiology and oncology Vol. 49; no. 3; pp. 209 - 216
• Main Authors: Mieloch, Adam A., Suchorska, Wiktoria M.
• Format: Journal Article
• Language: English
• Published: Poland De Gruyter Open 01.09.2015; De Gruyter Poland; Versita, Warsaw; Sciendo
• Subjects: differentiation; ionizing radiation; Radiation; regenerative medicine; Stem cells; tissue engineering; stem cells; tissue engineering; differentiation; regenerative medicine; ionizing radiation
• ISSN: 1581-3207; 1318-2099; 1581-3207; 0485-893X
• DOI: 10.1515/raon-2015-0022

Efficient stem cell differentiation is considered to be the holy grail of regenerative medicine. Pursuing the most productive method of directed differentiation has been the subject of numerous studies, resulting in the development of many effective protocols. However, the necessity for further improvement in differentiation efficiency remains. This review contains a description of molecular processes underlying the response of stem cells to ionizing radiation, indicating its potential application in differentiation procedures. In the first part, the radiation-induced damage response in various types of stem cells is described. Second, the role of the p53 protein in embryonic and adult stem cells is highlighted. Last, the hypothesis on the mitochondrial involvement in stem cell development including its response to ionizing radiation is presented. In summary, despite the many threats of ionizing radiation concerning genomic instability, subjecting cells to the appropriate dosage of ionizing radiation may become a useful method for enhancing directed differentiation in certain stem cell types.