Characterization of the individual capacity for repair of genotoxic damage of a Bulgarian hESC line and two commonly used stabilized cell lines

The number of stem cell lines worldwide grows steadily, including disease-specific lines and lines derived from specific tissues. The proportion of stem cell lines that were established in strictly xeno-free conditions is rapidly increasing, but it is still unclear whether these lines may be maintained in vitro for prolonged periods of time with satisfactory survival rates and minimal loss of their 'stemness' properties. The efficiency of repair of DNA damage has recently emerged as an important factor for maintenance of stem cells in culture with minimal genomic changes and preservation of the undifferentiated state. In this study we investigated the individual capacity for repair of DNA damage/maintenance of genomic integrity and additional markers in one human embryonic stem cell (hESC) line derived in Bulgaria from a discarded embryo and two of the human T-leukaemia cell lines commonly used for research purposes (T-1301 and Jurkat E6-1). Knowledge about the status of the studied cancer cell lines may be valuable for research purposes. Data about the individual repair capacity and the genetic risk for common late-onset diseases of newly established hESC lines as well as hESC lines currently in use may become a valuable tool in the assessment of the applicability of pluripotent human cell lines for research purposes, clinical trials and, potentially, clinical applications.